183 results on '"John H Brumell"'
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2. Salmonella exploits membrane reservoirs for invasion of host cells
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Hongxian Zhu, Andrew M. Sydor, Kirsten C. Boddy, Etienne Coyaud, Estelle M. N. Laurent, Aaron Au, Joel M. J. Tan, Bing-Ru Yan, Jason Moffat, Aleixo M. Muise, Christopher M. Yip, Sergio Grinstein, Brian Raught, and John H. Brumell
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Science - Abstract
Abstract Salmonella utilizes a type 3 secretion system to translocate virulence proteins (effectors) into host cells during infection1. The effectors modulate host cell machinery to drive uptake of the bacteria into vacuoles, where they can establish an intracellular replicative niche. A remarkable feature of Salmonella invasion is the formation of actin-rich protuberances (ruffles) on the host cell surface that contribute to bacterial uptake. However, the membrane source for ruffle formation and how these bacteria regulate membrane mobilization within host cells remains unclear. Here, we show that Salmonella exploits membrane reservoirs for the generation of invasion ruffles. The reservoirs are pre-existing tubular compartments associated with the plasma membrane (PM) and are formed through the activity of RAB10 GTPase. Under normal growth conditions, membrane reservoirs contribute to PM homeostasis and are preloaded with the exocyst subunit EXOC2. During Salmonella invasion, the bacterial effectors SipC, SopE2, and SopB recruit exocyst subunits from membrane reservoirs and other cellular compartments, thereby allowing exocyst complex assembly and membrane delivery required for bacterial uptake. Our findings reveal an important role for RAB10 in the establishment of membrane reservoirs and the mechanisms by which Salmonella can exploit these compartments during host cell invasion.
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- 2024
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3. Active Transport of Phosphorylated Carbohydrates Promotes Intestinal Colonization and Transmission of a Bacterial Pathogen.
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Brandon Sit, Shauna M Crowley, Kirandeep Bhullar, Christine Chieh-Lin Lai, Calvin Tang, Yogesh Hooda, Charles Calmettes, Husain Khambati, Caixia Ma, John H Brumell, Anthony B Schryvers, Bruce A Vallance, and Trevor F Moraes
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Immunologic diseases. Allergy ,RC581-607 ,Biology (General) ,QH301-705.5 - Abstract
Efficient acquisition of extracellular nutrients is essential for bacterial pathogenesis, however the identities and mechanisms for transport of many of these substrates remain unclear. Here, we investigate the predicted iron-binding transporter AfuABC and its role in bacterial pathogenesis in vivo. By crystallographic, biophysical and in vivo approaches, we show that AfuABC is in fact a cyclic hexose/heptose-phosphate transporter with high selectivity and specificity for a set of ubiquitous metabolites (glucose-6-phosphate, fructose-6-phosphate and sedoheptulose-7-phosphate). AfuABC is conserved across a wide range of bacterial genera, including the enteric pathogens EHEC O157:H7 and its murine-specific relative Citrobacter rodentium, where it lies adjacent to genes implicated in sugar sensing and acquisition. C. rodentium ΔafuA was significantly impaired in an in vivo murine competitive assay as well as its ability to transmit infection from an afflicted to a naïve murine host. Sugar-phosphates were present in normal and infected intestinal mucus and stool samples, indicating that these metabolites are available within the intestinal lumen for enteric bacteria to import during infection. Our study shows that AfuABC-dependent uptake of sugar-phosphates plays a critical role during enteric bacterial infection and uncovers previously unrecognized roles for these metabolites as important contributors to successful pathogenesis.
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- 2015
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4. Strain-Specific Interactions of Listeria monocytogenes with the Autophagy System in Host Cells.
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Marija Cemma, Grace Y Lam, Martina Stöckli, Darren E Higgins, and John H Brumell
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Medicine ,Science - Abstract
Listeria monocytogenes is an intracellular bacterial pathogen that can replicate in the cytosol of host cells. These bacteria undergo actin-based motility in the cytosol via expression of ActA, which recruits host actin-regulatory proteins to the bacterial surface. L. monocytogenes is thought to evade killing by autophagy using ActA-dependent mechanisms. ActA-independent mechanisms of autophagy evasion have also been proposed, but remain poorly understood. Here we examined autophagy of non-motile (ΔactA) mutants of L. monocytogenes strains 10403S and EGD-e, two commonly studied strains of this pathogen. The ΔactA mutants displayed accumulation of ubiquitinated proteins and p62/SQSTM1 on their surface. However, only strain EGD-e ΔactA displayed colocalization with the autophagy marker LC3 at 8 hours post infection. A bacteriostatic agent (chloramphenicol) was required for LC3 recruitment to 10403S ΔactA, suggesting that these bacteria produce a factor for autophagy evasion. Internalin K was proposed to block autophagy of L. monocytogenes in the cytosol of host cells. However, deletion of inlK in either the wild-type or ΔactA background of strain 10403S had no impact on autophagy evasion by bacteria, indicating it does not play an essential role in evading autophagy. Replication of ΔactA mutants of strain EGD-e and 10403S was comparable to their parent wild-type strain in macrophages. Thus, ΔactA mutants of L. monocytogenes can block killing by autophagy at a step downstream of protein ubiquitination and, in the case of strain EGD-e, downstream of LC3 recruitment to bacteria. Our findings highlight the strain-specific differences in the mechanisms that L. monocytogenes uses to evade killing by autophagy in host cells.
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- 2015
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5. Multiple host kinases contribute to Akt activation during Salmonella infection.
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Bernhard Roppenser, Hyunwoo Kwon, Veronica Canadien, Risheng Xu, Peter N Devreotes, Sergio Grinstein, and John H Brumell
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Medicine ,Science - Abstract
SopB is a type 3 secreted effector with phosphatase activity that Salmonella employs to manipulate host cellular processes, allowing the bacteria to establish their intracellular niche. One important function of SopB is activation of the pro-survival kinase Akt/protein kinase B in the infected host cell. Here, we examine the mechanism of Akt activation by SopB during Salmonella infection. We show that SopB-mediated Akt activation is only partially sensitive to PI3-kinase inhibitors LY294002 and wortmannin in HeLa cells, suggesting that Class I PI3-kinases play only a minor role in this process. However, depletion of PI(3,4) P2/PI(3-5) P3 by expression of the phosphoinositide 3-phosphatase PTEN inhibits Akt activation during Salmonella invasion. Therefore, production of PI(3,4) P2/PI(3-5) P3 appears to be a necessary event for Akt activation by SopB and suggests that non-canonical kinases mediate production of these phosphoinositides during Salmonella infection. We report that Class II PI3-kinase beta isoform, IPMK and other kinases identified from a kinase screen all contribute to Akt activation during Salmonella infection. In addition, the kinases required for SopB-mediated activation of Akt vary depending on the type of infected host cell. Together, our data suggest that Salmonella has evolved to use a single effector, SopB, to manipulate a remarkably large repertoire of host kinases to activate Akt for the purpose of optimizing bacterial replication in its host.
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- 2013
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6. Rac2-deficiency leads to exacerbated and protracted colitis in response to Citrobacter rodentium infection.
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Ramzi Fattouh, Cong-Hui Guo, Grace Y Lam, Melanie G Gareau, Bo-Yee Ngan, Michael Glogauer, Aleixo M Muise, and John H Brumell
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Medicine ,Science - Abstract
Recent genetic-based studies have implicated a number of immune-related genes in the pathogenesis of inflammatory bowel disease (IBD). Our recent genetic studies showed that RAC2 is associated with human IBD; however, its role in disease pathogenesis is unclear. Given Rac2's importance in various fundamental immune cell processes, we investigated whether a defect in Rac2 may impair host immune responses in the intestine and promote disease in the context of an infection-based (Citrobacter rodentium) model of colitis. In response to infection, Rac2(-/-) mice showed i) worsened clinical symptoms (days 13-18), ii) increased crypt hyperplasia at days 11 and 22 (a time when crypt hyperplasia was largely resolved in wild-type mice; WT), and iii) marked mononuclear cell infiltration characterized by higher numbers of T (CD3(+)) cells (day 22), compared to WT-infected mice. Moreover, splenocytes harvested from infected Rac2(-/-) mice and stimulated in vitro with C. rodentium lysate produced considerably higher levels of interferon-γ and interleukin-17A. The augmented responses observed in Rac2(-/-) mice did not appear to stem from Rac2's role in NADPH oxidase-driven reactive oxygen species production as no differences in crypt hyperplasia, nor inflammation, were observed in infected NOX2(-/-) mice compared to WT. Collectively, our findings demonstrate that Rac2(-/-) mice develop more severe disease when subjected to a C. rodentium-induced model of infectious colitis, and suggest that impaired Rac2 function may promote the development of IBD in humans.
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- 2013
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7. Structural and biochemical characterization of SrcA, a multi-cargo type III secretion chaperone in Salmonella required for pathogenic association with a host.
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Colin A Cooper, Kun Zhang, Sara N Andres, Yuan Fang, Natalia A Kaniuk, Mandy Hannemann, John H Brumell, Leonard J Foster, Murray S Junop, and Brian K Coombes
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Immunologic diseases. Allergy ,RC581-607 ,Biology (General) ,QH301-705.5 - Abstract
Many Gram-negative bacteria colonize and exploit host niches using a protein apparatus called a type III secretion system (T3SS) that translocates bacterial effector proteins into host cells where their functions are essential for pathogenesis. A suite of T3SS-associated chaperone proteins bind cargo in the bacterial cytosol, establishing protein interaction networks needed for effector translocation into host cells. In Salmonella enterica serovar Typhimurium, a T3SS encoded in a large genomic island (SPI-2) is required for intracellular infection, but the chaperone complement required for effector translocation by this system is not known. Using a reverse genetics approach, we identified a multi-cargo secretion chaperone that is functionally integrated with the SPI-2-encoded T3SS and required for systemic infection in mice. Crystallographic analysis of SrcA at a resolution of 2.5 A revealed a dimer similar to the CesT chaperone from enteropathogenic E. coli but lacking a 17-amino acid extension at the carboxyl terminus. Further biochemical and quantitative proteomics data revealed three protein interactions with SrcA, including two effector cargos (SseL and PipB2) and the type III-associated ATPase, SsaN, that increases the efficiency of effector translocation. Using competitive infections in mice we show that SrcA increases bacterial fitness during host infection, highlighting the in vivo importance of effector chaperones for the SPI-2 T3SS.
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- 2010
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8. Kinase-independent synthesis of 3-phosphorylated phosphoinositides by a phosphotransferase
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Glenn F. W. Walpole, Jonathan Pacheco, Neha Chauhan, Jonathan Clark, Karen E. Anderson, Yazan M. Abbas, Danielle Brabant-Kirwan, Fernando Montaño-Rendón, Zetao Liu, Hongxian Zhu, John H. Brumell, Alexander Deiters, Len R. Stephens, Phillip T. Hawkins, Gerald R. V. Hammond, Sergio Grinstein, and Gregory D. Fairn
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Phosphatidylinositol 3-Kinases ,Phosphatidylinositol Phosphates ,Salmonella ,Phosphotransferases ,Cell Biology ,Phosphatidylinositols ,Signal Transduction - Abstract
Despite their low abundance, phosphoinositides play a central role in membrane traffic and signalling. PtdIns(3,4,5)P
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- 2022
9. Dynamic glucose uptake, storage, and release by human microvascular endothelial cells
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Samaneh Yazdani, Philip J. Bilan, Javier R. Jaldin-Fincati, Janice Pang, Felicia Ceban, Ekambir Saran, John H. Brumell, Spencer A. Freeman, and Amira Klip
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Maleimides ,Glucose Transporter Type 1 ,Glucose ,Epinephrine ,Glucose Transporter Type 3 ,Endothelial Cells ,Humans ,Cell Biology ,Deoxyglucose ,Molecular Biology ,Glycogen ,Phosphoric Monoester Hydrolases - Abstract
We followed radioactive and fluorescent glucose derivatives in human microvascular endothelial cells (HAMEC). [3H]-2-DG entered via GLUT1/3 and 20% incorporated into glycogen. Glycogenolysis and 2-DG-6-phosphate provided glucose that exited cells via GLUT3. 2-NBDG revealed a parallel endocytic process evincing complex glucose handling by HAMEC.
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- 2022
10. Plasma membrane integrity: implications for health and disease
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John H. Brumell, Dustin A. Ammendolia, and William M. Bement
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Cell type ,Pore formation ,Physiology ,QH301-705.5 ,Lipid peroxidation ,Cellular homeostasis ,Membrane damage ,Membrane repair ,Review ,Plant Science ,Disease ,Vesicle trafficking ,Biology ,Disease pathogenesis ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,0302 clinical medicine ,Structural Biology ,Homeostasis ,Biology (General) ,Ecology, Evolution, Behavior and Systematics ,030304 developmental biology ,0303 health sciences ,Cell Membrane ,Cell Biology ,Tissue injury ,Cell biology ,Membrane ,Membrane integrity ,General Agricultural and Biological Sciences ,030217 neurology & neurosurgery ,Developmental Biology ,Biotechnology ,Plasma membrane - Abstract
Plasma membrane integrity is essential for cellular homeostasis. In vivo, cells experience plasma membrane damage from a multitude of stressors in the extra- and intra-cellular environment. To avoid lethal consequences, cells are equipped with repair pathways to restore membrane integrity. Here, we assess plasma membrane damage and repair from a whole-body perspective. We highlight the role of tissue-specific stressors in health and disease and examine membrane repair pathways across diverse cell types. Furthermore, we outline the impact of genetic and environmental factors on plasma membrane integrity and how these contribute to disease pathogenesis in different tissues.
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- 2021
11. Macrophage NOX2 NADPH oxidase maintains alveolar homeostasis in mice
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Sourav Bhattacharya, Rachel A. Idol, Wei Yang, Jorge David Rojas Márquez, Yanan Li, Guangming Huang, Wandy L. Beatty, Jeffrey J. Atkinson, John H. Brumell, Juhi Bagaitkar, Jeffrey A. Magee, and Mary C. Dinauer
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Macrophages ,Immunology ,Plenary Paper ,NADPH Oxidases ,Cell Biology ,Hematology ,Granulomatous Disease, Chronic ,Biochemistry ,Mice, Inbred C57BL ,Mice ,Macrophages, Alveolar ,NADPH Oxidase 2 ,cardiovascular system ,Cytokines ,Animals ,Homeostasis ,Lung ,hormones, hormone substitutes, and hormone antagonists ,circulatory and respiratory physiology - Abstract
The leukocyte NADPH oxidase 2 (NOX2) plays a key role in pathogen killing and immunoregulation. Genetic defects in NOX2 result in chronic granulomatous disease (CGD), associated with microbial infections and inflammatory disorders, often involving the lung. Alveolar macrophages (AMs) are the predominant immune cell in the airways at steady state, and limiting their activation is important, given the constant exposure to inhaled materials, yet the importance of NOX2 in this process is not well understood. In this study, we showed a previously undescribed role for NOX2 in maintaining lung homeostasis by suppressing AM activation, in CGD mice or mice with selective loss of NOX2 preferentially in macrophages. AMs lacking NOX2 had increased cytokine responses to Toll-like receptor-2 (TLR2) and TLR4 stimulation ex vivo. Moreover, between 4 and 12 week of age, mice with global NOX2 deletion developed an activated CD11bhigh subset of AMs with epigenetic and transcriptional profiles reflecting immune activation compared with WT AMs. The presence of CD11bhigh AMs in CGD mice correlated with an increased number of alveolar neutrophils and proinflammatory cytokines at steady state and increased lung inflammation after insults. Moreover, deletion of NOX2 preferentially in macrophages was sufficient for mice to develop an activated CD11bhigh AM subset and accompanying proinflammatory sequelae. In addition, we showed that the altered resident macrophage transcriptional profile in the absence of NOX2 is tissue specific, as those changes were not seen in resident peritoneal macrophages. Thus, these data demonstrate that the absence of NOX2 in alveolar macrophages leads to their proinflammatory remodeling and dysregulates alveolar homeostasis.
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- 2022
12. V-ATPase is a universal regulator of LC3-associated phagocytosis and non-canonical autophagy
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Kirsty M. Hooper, Elise Jacquin, Taoyingnan Li, Jonathan M. Goodwin, John H. Brumell, Joanne Durgan, and Oliver Florey
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Vacuolar Proton-Translocating ATPases ,Phagocytosis ,Autophagy ,Autophagy-Related Proteins ,Humans ,Cell Biology ,Microtubule-Associated Proteins ,Cell Line - Abstract
Non-canonical autophagy is a key cellular pathway in immunity, cancer, and neurodegeneration, characterized by conjugation of ATG8 to endolysosomal single membranes (CASM). CASM is activated by engulfment (endocytosis, phagocytosis), agonists (STING, TRPML1), and infection (influenza), dependent on K490 in the ATG16L1 WD40-domain. However, factors associated with non-canonical ATG16L1 recruitment and CASM induction remain unknown. Here, using pharmacological inhibitors, we investigate a role for V-ATPase during non-canonical autophagy. We report that increased V0–V1 engagement is associated with, and sufficient for, CASM activation. Upon V0–V1 binding, V-ATPase recruits ATG16L1, via K490, during LC3-associated phagocytosis (LAP), STING- and drug-induced CASM, indicating a common mechanism. Furthermore, during LAP, key molecular players, including NADPH oxidase/ROS, converge on V-ATPase. Finally, we show that LAP is sensitive to Salmonella SopF, which disrupts the V-ATPase–ATG16L1 axis and provide evidence that CASM contributes to the Salmonella host response. Together, these data identify V-ATPase as a universal regulator of CASM and indicate that SopF evolved in part to evade non-canonical autophagy.
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- 2022
13. Systematic profiling of the chicken gut microbiome reveals dietary supplementation with antibiotics alters expression of multiple microbial pathways with minimal impact on community structure
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Angela Zou, Kerry Nadeau, Xuejian Xiong, Pauline W. Wang, Julia K. Copeland, Jee Yeon Lee, James St. Pierre, Maxine Ty, Billy Taj, John H. Brumell, David S. Guttman, Shayan Sharif, Doug Korver, and John Parkinson
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Microbiology (medical) ,Dietary Supplements ,Animals ,Microbiology ,Chickens ,DNA, Ribosomal ,Anti-Bacterial Agents ,Gastrointestinal Microbiome - Abstract
Background The emergence of antimicrobial resistance is a major threat to global health and has placed pressure on the livestock industry to eliminate the use of antibiotic growth promotants (AGPs) as feed additives. To mitigate their removal, efficacious alternatives are required. AGPs are thought to operate through modulating the gut microbiome to limit opportunities for colonization by pathogens, increase nutrient utilization, and reduce inflammation. However, little is known concerning the underlying mechanisms. Previous studies investigating the effects of AGPs on the poultry gut microbiome have largely focused on 16S rDNA surveys based on a single gastrointestinal (GI) site, diet, and/or timepoint, resulting in an inconsistent view of their impact on community composition. Methods In this study, we perform a systematic investigation of both the composition and function of the chicken gut microbiome, in response to AGPs. Birds were raised under two different diets and AGP treatments, and 16S rDNA surveys applied to six GI sites sampled at three key timepoints of the poultry life cycle. Functional investigations were performed through metatranscriptomics analyses and metabolomics. Results Our study reveals a more nuanced view of the impact of AGPs, dependent on age of bird, diet, and intestinal site sampled. Although AGPs have a limited impact on taxonomic abundances, they do appear to redefine influential taxa that may promote the exclusion of other taxa. Microbiome expression profiles further reveal a complex landscape in both the expression and taxonomic representation of multiple pathways including cell wall biogenesis, antimicrobial resistance, and several involved in energy, amino acid, and nucleotide metabolism. Many AGP-induced changes in metabolic enzyme expression likely serve to redirect metabolic flux with the potential to regulate bacterial growth or produce metabolites that impact the host. Conclusions As alternative feed additives are developed to mimic the action of AGPs, our study highlights the need to ensure such alternatives result in functional changes that are consistent with site-, age-, and diet-associated taxa. The genes and pathways identified in this study are therefore expected to drive future studies, applying tools such as community-based metabolic modeling, focusing on the mechanistic impact of different dietary regimes on the microbiome. Consequently, the data generated in this study will be crucial for the development of next-generation feed additives targeting gut health and poultry production.
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- 2022
14. Cutting Edge: NOX2 NADPH Oxidase Controls Infection by an Intracellular Bacterial Pathogen through Limiting the Type 1 IFN Response
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Taoyingnan Li, Adam R R McCluggage, Darren E. Higgins, Joel M J Tan, Aleixo M. Muise, Jorge David Rojas Márquez, and John H. Brumell
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Immunology ,medicine.disease_cause ,Microbiology ,Mice ,03 medical and health sciences ,Thioredoxins ,0302 clinical medicine ,Listeria monocytogenes ,Cell Movement ,Leukocytes ,medicine ,Animals ,Immunology and Allergy ,Listeriosis ,Pathogen ,Cells, Cultured ,Phagosome ,Inflammation ,Mice, Knockout ,chemistry.chemical_classification ,Reactive oxygen species ,NADPH oxidase ,biology ,urogenital system ,Effector ,Macrophages ,biology.organism_classification ,Interleukin-10 ,Mice, Inbred C57BL ,chemistry ,Interferon Type I ,NADPH Oxidase 2 ,cardiovascular system ,biology.protein ,Cutting Edge ,hormones, hormone substitutes, and hormone antagonists ,Bacteria ,Intracellular ,circulatory and respiratory physiology ,030215 immunology - Abstract
The NOX2 NADPH oxidase (NOX2) produces reactive oxygen species to kill phagosome-confined bacteria. However, we previously showed that Listeria monocytogenes is able to avoid the NOX2 activity in phagosomes and escape to the cytosol. Thus, despite the established role of NOX2 limiting L. monocytogenes infection in mice, the underlying mechanisms of this antibacterial activity remain unclear. In this article, we report that NOX2 controls systemic L. monocytogenes spread through modulation of the type I IFN response, which is known to be exploited by L. monocytogenes during infection. NOX2 deficiency results in increased expression of IFN-stimulated genes in response to type I IFN and leads to 1) promotion of cell-to-cell spread by L. monocytogenes, 2) defective leukocyte recruitment to infection foci, and 3) production of anti-inflammatory effectors IL-10 and thioredoxin 1. Our findings report a novel antimicrobial role for NOX2 through modulation of type I IFN responses to control bacterial dissemination.
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- 2021
15. Functional genomic landscape of cancer-intrinsic evasion of killing by T cells
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Andrea Habsid, Traver Hart, Catherine Ross, Hong Han, Chloe J. Slater, Donald M. Simons, Rummy Akthar, Shirley Hui, David Tieu, Gromoslaw A. Smolen, Abdelrahman Abou Zid, Amy Hin Yan Tong, Yuxi Yao, Patricia Mero, Gillian Kingsbury, Eiru Kim, Ryan Climie, Jordan A. Krall, Joseph J. Caumanns, Kevin R. Brown, Ren Li, Charles Kung, Michael Aregger, Jiarun Wei, Keith A. Lawson, Richa Singh, Zi Peng Fan, Lujia Tang, Xiaoyu Zhang, Sarah Martin, Laurie Ailles, Gary D. Bader, Jason Moffat, Qian Huang, Victor De Jesus, Elizabeth Ann Francis, Nicholas Mikolajewicz, Cristovão M. Sousa, John H. Brumell, Katherine S. K. Chan, Joshua E. Goldford, Antonio Finelli, and Xiaowei Wang
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Male ,0301 basic medicine ,T-Lymphocytes ,medicine.medical_treatment ,Biology ,Article ,Interferon-gamma ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Immune system ,Interferon ,Cell Line, Tumor ,Neoplasms ,Autophagy ,medicine ,Animals ,Humans ,Cytotoxic T cell ,CRISPR ,Cancer genetics ,Genome ,Multidisciplinary ,NF-kappa B ,Reproducibility of Results ,Genomics ,Research Highlight ,Cell biology ,CTL ,030104 developmental biology ,Cytokine ,030220 oncology & carcinogenesis ,Cancer cell ,Tumour immunology ,Female ,Tumor Escape ,Tumor necrosis factor alpha ,Homicide ,Genes, Neoplasm ,Signal Transduction ,T-Lymphocytes, Cytotoxic ,medicine.drug - Abstract
The genetic circuits that allow cancer cells to evade destruction by the host immune system remain poorly understood1–3. Here, to identify a phenotypically robust core set of genes and pathways that enable cancer cells to evade killing mediated by cytotoxic T lymphocytes (CTLs), we performed genome-wide CRISPR screens across a panel of genetically diverse mouse cancer cell lines that were cultured in the presence of CTLs. We identify a core set of 182 genes across these mouse cancer models, the individual perturbation of which increases either the sensitivity or the resistance of cancer cells to CTL-mediated toxicity. Systematic exploration of our dataset using genetic co-similarity reveals the hierarchical and coordinated manner in which genes and pathways act in cancer cells to orchestrate their evasion of CTLs, and shows that discrete functional modules that control the interferon response and tumour necrosis factor (TNF)-induced cytotoxicity are dominant sub-phenotypes. Our data establish a central role for genes that were previously identified as negative regulators of the type-II interferon response (for example, Ptpn2, Socs1 and Adar1) in mediating CTL evasion, and show that the lipid-droplet-related gene Fitm2 is required for maintaining cell fitness after exposure to interferon-γ (IFNγ). In addition, we identify the autophagy pathway as a conserved mediator of the evasion of CTLs by cancer cells, and show that this pathway is required to resist cytotoxicity induced by the cytokines IFNγ and TNF. Through the mapping of cytokine- and CTL-based genetic interactions, together with in vivo CRISPR screens, we show how the pleiotropic effects of autophagy control cancer-cell-intrinsic evasion of killing by CTLs and we highlight the importance of these effects within the tumour microenvironment. Collectively, these data expand our knowledge of the genetic circuits that are involved in the evasion of the immune system by cancer cells, and highlight genetic interactions that contribute to phenotypes associated with escape from killing by CTLs. Genome-wide CRISPR screens in mouse cancer cell lines are used to identify a core, conserved set of genes and pathways that govern how cancer cells evade killing by cytotoxic T lymphocytes.
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- 2020
16. Disruption of autophagy by increased 5-HT alters gut microbiota and enhances susceptibility to experimental colitis and Crohn’s disease
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Yun Han Kwon, Gregory R. Steinberg, Sabah Haq, Usha Chauhan, John H. Brumell, Francine Côté, Jensine Grondin, John Marshall, Huaqing Wang, Waliul I. Khan, Michael G. Surette, Suhrid Banskota, Irfan I. Khan, Dana J. Philpott, and Centre National de la Recherche Scientifique (CNRS)
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[SDV]Life Sciences [q-bio] ,Diseases and Disorders ,Disease ,Gut flora ,Microbiology ,Pathogenesis ,03 medical and health sciences ,0302 clinical medicine ,Medicine ,5-HT receptor ,ComputingMilieux_MISCELLANEOUS ,030304 developmental biology ,0303 health sciences ,Crohn's disease ,Multidisciplinary ,biology ,business.industry ,Autophagy ,Experimental colitis ,SciAdv r-articles ,Life Sciences ,biology.organism_classification ,medicine.disease ,3. Good health ,Immunology ,030211 gastroenterology & hepatology ,Biomedicine and Life Sciences ,business ,Intracellular ,Research Article - Abstract
Description, Elevated gut serotonin inhibits autophagy via mTOR promoting a disrupted microbiota and enhanced susceptibility to colitis., Autophagy, an essential intracellular recycling process, is linked to the pathogenesis of various diseases including Crohn’s disease (CD). Factors that lead to the development of impaired autophagy during intestinal inflammation remain largely unexplored. Here, we report the impact of the interaction between serotonin [5-hydroxytryptamine;(5-HT)] and autophagy in colitis in mouse and human studies. In mice, increased gut 5-HT inhibited autophagy and led to enhanced colitis susceptibility. Reciprocally, mice with reduced 5-HT exhibited up-regulated autophagy via the mammalian target of rapamycin pathway, which resulted in significantly decreased colitis. Deletion of autophagy gene, Atg7, in an epithelial-specific manner, in concert with reduced 5-HT, promoted the development of a colitogenic microbiota and abolished the protective effects conferred by reduced 5-HT. Notably, in control and patient peripheral blood mononuclear cells, we uncovered that 5-HT treatment inhibited autophagy. Our findings suggest 5-HT as a previously unidentified therapeutic target in intestinal inflammatory disorders such as CD that exhibits dysregulated autophagy.
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- 2021
17. GABARAP sequesters the FLCN-FNIP tumor suppressor complex to couple autophagy with lysosomal biogenesis
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Daniel Baird, John H. Brumell, Kirsty Hooper, Leon Murphy, Jonathan M. Goodwin, Jeff Saunders, Sreekanth R. Rouduri, Sravya Kommineni, Archana Jha, Aylwin Ng, Oliver Florey, Menghao Wei, Taoyingnan Li, Mark R. Chance, Ward G. Walkup, Timothy Lehmberg, Sagar R. Budhe, Qing Tang, Jorge Garcia-Fortanet, Yaya Fan, Asmita Agrawal, Katherine Fletcher, Brent A. Appleton, Andrea Ballabio, Chieko Kishi-Itakura, Janna Kiselar, Goodwin, J. M., Walkup, W. G., Hooper, K., Li, T., Kishi-Itakura, C., Ng, A., Lehmberg, T., Jha, A., Kommineni, S., Fletcher, K., Garcia-Fortanet, J., Fan, Y., Tang, Q., Wei, M., Agrawal, A., Budhe, S. R., Rouduri, S. R., Baird, D., Saunders, J., Kiselar, J., Chance, M. R., Ballabio, A., Appleton, B. A., Brumell, J. H., Florey, O., and Murphy, L. O.
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Multidisciplinary ,Chemistry ,GABARAP ,Autophagy ,law.invention ,Cell biology ,law ,TFEB ,Suppressor ,sense organs ,Folliculin ,Transcription factor ,Flux (metabolism) ,Biogenesis - Abstract
Adaptive changes in lysosomal capacity are driven by the transcription factors TFEB and TFE3 in response to increased autophagic flux and endolysosomal stress, yet the molecular details of their activation are unclear. LC3 and GABARAP members of the ATG8 protein family are required for selective autophagy and sensing perturbation within the endolysosomal system. Here, we show that during the conjugation of ATG8 to single membranes (CASM), Parkin-dependent mitophagy, and Salmonella-induced xenophagy, the membrane conjugation of GABARAP, but not LC3, is required for activation of TFEB/TFE3 to control lysosomal capacity. GABARAP directly binds to a previously unidentified LC3-interacting motif (LIR) in the FLCN/FNIP tumor suppressor complex and mediates sequestration to GABARAP-conjugated membrane compartments. This disrupts FLCN/FNIP GAP function toward RagC/D, resulting in impaired substrate-specific mTOR-dependent phosphorylation of TFEB. Thus, the GABARAP-FLCN/FNIP-TFEB axis serves as a molecular sensor that coordinates lysosomal homeostasis with perturbations and cargo flux within the autophagy-lysosomal network.
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- 2021
18. DCAF7 regulates cell proliferation through IRS1-FOXO1 signaling
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Scott Frendo-Cumbo, Taoyingnan Li, Dustin A. Ammendolia, Etienne Coyaud, Estelle M.N. Laurent, Yuan Liu, Philip J. Bilan, Gordon Polevoy, Brian Raught, Julie A. Brill, Amira Klip, and John H. Brumell
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Multidisciplinary - Abstract
Cell proliferation is dependent on growth factors insulin and IGF1. We sought to identify interactors of IRS1, the most proximal mediator of insulin/IGF1 signaling, that regulate cell proliferation. Using proximity-dependent biotin identification (BioID), we detected 40 proteins displaying proximal interactions with IRS1, including DCAF7 and its interacting partners DYRK1A and DYRK1B. In HepG2 cells, DCAF7 knockdown attenuated cell proliferation by inducing cell cycle arrest at G2. DCAF7 expression was required for insulin-stimulated AKT phosphorylation, and its absence promoted nuclear localization of the transcription factor FOXO1. DCAF7 knockdown induced expression of FOXO1-target genes implicated in G2 cell cycle inhibition, correlating with G2 cell cycle arrest. In
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- 2022
19. Global Proximity Interactome of the Human Macroautophagy Pathway
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Taoyingnan Li, Peter K. Kim, John H. Brumell, Julie D. Forman-Kay, Estelle M.N. Laurent, Rong Hua, Neale D. Ridgway, Andrew M. Sydor, Robert M. Vernon, Etienne Coyaud, Diana N Dyer, Nora Mellouk, Jonathan St-Germain, Brian Raught, Kexin Zhao, Yi Xin Iris Tu, The Hospital for sick children [Toronto] (SickKids), Protéomique, Réponse Inflammatoire, Spectrométrie de Masse (PRISM) - U 1192 (PRISM), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Dalhousie University [Halifax], University Health Network, Department of Molecular Genetics [Toronto], University of Toronto, INSERM, Université de Lille, Protéomique, Réponse Inflammatoire, Spectrométrie de Masse (PRISM) - U1192, and The Hospital for sick children [Toronto] [SickKids]
- Subjects
membrane contact site ,[SDV]Life Sciences [q-bio] ,oxysterol-binding protein-like ,Biology ,Interactome ,03 medical and health sciences ,0302 clinical medicine ,Salmonella ,Organelle ,Macroautophagy ,Autophagy ,Humans ,OSBPL11 ,BioID ,Molecular Biology ,OSBPL ,030304 developmental biology ,0303 health sciences ,Cell Biology ,Compartment (chemistry) ,Membrane contact site ,Cell biology ,OSBPL7 ,lipid-transfer proteins ,Plant lipid transfer proteins ,030217 neurology & neurosurgery - Abstract
International audience; Macroautophagy is a highly conserved eukaryotic cellular pathway involving the engulfment of macromolecules, organelles, and invading microbes by a double-membrane compartment and subsequent lysosomal degradation. The mechanisms that regulate macroautophagy, and the interaction of its components with other cellular pathways, have remained unclear. Here, we performed proximity-dependent biotin identification (BioID) on 39 core human macroautophagy proteins, identifying over 700 unique high confidence proximity interactors with new putative connections between macroautophagic and essential cellular processes. Of note, we identify members of the OSBPL (oxysterol binding protein like) family as Atg8-family protein interactors. We subsequently conducted comprehensive screens of the OSBPL family for LC3B-binding and roles in xenophagy and aggrephagy. OSBPL7 and OSBPL11 emerged as novel lipid transfer proteins required for macroautophagy of selective cargo. Altogether, our proximity interaction map provides a valuable resource for the study of autophagy and highlights the critical role of membrane contact site proteins in the pathway.
- Published
- 2021
20. C5orf51 is a component of the MON1-CCZ1 complex and controls RAB7A localization and stability during mitophagy
- Author
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Etienne Coyaud, Bing-Ru Yan, Peter K. Kim, Jonathan St-Germain, Taoyingnan Li, John H. Brumell, Brian Raught, Yuhuan Zhou, Estelle M.N. Laurent, The Hospital for sick children [Toronto] (SickKids), University of Toronto, Protéomique, Réponse Inflammatoire, Spectrométrie de Masse (PRISM) - U 1192 (PRISM), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), University Health Network, INSERM, Université de Lille, Protéomique, Réponse Inflammatoire, Spectrométrie de Masse (PRISM) - U1192, and The Hospital for sick children [Toronto] [SickKids]
- Subjects
GTPase-activating protein ,[SDV]Life Sciences [q-bio] ,Ubiquitin-Protein Ligases ,PINK1 ,GTPase ,Endosomes ,Biology ,DNA, Mitochondrial ,Parkin ,03 medical and health sciences ,C5orf51 ,0302 clinical medicine ,Mitophagy ,Autophagy ,guanine nucleotide exchange factor ,Guanine Nucleotide Exchange Factors ,Molecular Biology ,030304 developmental biology ,0303 health sciences ,RAB7A ,Mon1-Ccz1 complex ,Cell Biology ,Cell biology ,mitophagy ,Guanine nucleotide exchange factor ,030217 neurology & neurosurgery - Abstract
International audience; Depolarized mitochondria can be degraded via mitophagy, a selective form of autophagy. The RAB GTPase RAB7A was recently shown to play a key role in this process. RAB7A regulates late endocytic trafficking under normal growth conditions but is translocated to the mitochondrial surface following depolarization. However, how RAB7A activity is regulated during mitophagy is not understood. Here, using a proximity-dependent biotinylation approach (miniTurbo), we identified C5orf51 as a specific interactor of GDP-locked RAB7A. C5orf51 also interacts with the RAB7A guanine nucleotide exchange factor (GEF) complex members MON1 and CCZ1. In the absence of C5orf51, localization of RAB7A on depolarized mitochondria is compromised and the protein is degraded by the proteasome. Furthermore, depletion of C5orf51 also inhibited ATG9A recruitment to depolarized mitochondria. Together, these results indicate that C5orf51 is a positive regulator of RAB7A in its shuttling between late endosomes and mitochondria to enable mitophagy.Abbreviations: ATG9A: autophagy related 9A; Baf A1: bafilomycin A1; BioID: proximity-dependent biotin identification; CCCP: carbonyl cyanide m-chlorophenylhydrazone; CCZ1: CCZ1 homolog, vacuolar protein trafficking and biogenesis associated; DQ-BSA: dye quenched-bovine serum albumin; FYCO1: FYVE and coiled-coil domain autophagy adaptor 1; GAP: GTPase activating protein; GEF: guanine nucleotide exchange factor; KO: knockout; LRPPRC: leucine rich pentatricopeptide repeat containing; MG132: carbobenzoxy-Leu-Leu-leucinal; MON1: MON1 homolog, secretory trafficking associated; mtDNA: mitochondrial DNA; PINK1: PTEN induced kinase 1; PRKN/PARKIN: parkin RBR E3 ubiquitin protein ligase; RMC1: regulator of MON1-CCZ1; TBC1D15: TBC1 domain family member 15; TBC1D17: TBC1 domain family member 17; TOMM20: translocase of outer mitochondrial membrane 20; WDR91: WD repeat domain 91; WT: wild type.
- Published
- 2021
21. Salmonella effector sopd promotes plasma membrane scission by inhibiting rab10
- Author
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Estelle M.N. Laurent, Etienne Coyaud, John H. Brumell, Miroslaw Cygler, Ksenia Beyrakhova, Kirsten C. Boddy, Vanessa M. D’Costa, Brian Raught, Sergio Grinstein, Hongxian Zhu, Jonathan St-Germain, Caishuang Xu, INSERM, Université de Lille, The Hospital for sick children [Toronto] [SickKids], Protéomique, Réponse Inflammatoire, Spectrométrie de Masse (PRISM) - U1192, Institute of Medical Science [Toronto], Department of Molecular Genetics [Toronto], University of Ottawa [Ottawa], University of Saskatchewan [Saskatoon] [U of S], University of Toronto, Princess Margaret Hospital, The Hospital for sick children [Toronto] (SickKids), and University of Saskatchewan [Saskatoon] (U of S)
- Subjects
inorganic chemicals ,Salmonella typhimurium ,GTPase-activating protein ,[SDV]Life Sciences [q-bio] ,Science ,General Physics and Astronomy ,Virulence ,macromolecular substances ,Vacuole ,environment and public health ,Article ,General Biochemistry, Genetics and Molecular Biology ,Type three secretion system ,Dynamin II ,03 medical and health sciences ,Phagocytosis ,Bacterial Proteins ,Humans ,Small GTPase ,Cellular microbiology ,Pathogen ,030304 developmental biology ,0303 health sciences ,Multidisciplinary ,Bacterial pathogenesis ,Membrane fission ,Chemistry ,Effector ,Cell Membrane ,GTPase-Activating Proteins ,030302 biochemistry & molecular biology ,HEK 293 cells ,General Chemistry ,3. Good health ,Cell biology ,HEK293 Cells ,rab GTP-Binding Proteins ,Vacuoles - Abstract
Salmonella utilizes translocated virulence proteins (termed effectors) to promote host cell invasion. The effector SopD contributes to invasion by promoting scission of the plasma membrane, generating Salmonella-containing vacuoles. SopD is expressed in all Salmonella lineages and plays important roles in animal models of infection, but its host cell targets are unknown. Here we show that SopD can bind to and inhibit the small GTPase Rab10, through a C-terminal GTPase activating protein (GAP) domain. During infection, Rab10 and its effectors MICAL-L1 and EHBP1 are recruited to invasion sites. By inhibiting Rab10, SopD promotes removal of Rab10 and recruitment of Dynamin-2 to drive scission of the plasma membrane. Together, our study uncovers an important role for Rab10 in regulating plasma membrane scission and identifies the mechanism used by a bacterial pathogen to manipulate this function during infection., Salmonella secretes the effector protein SopD into the host cell cytoplasm, leading to scission of the plasma membrane through unclear mechanisms. Here, Boddy et al. show that SopD binds to and inhibits the small GTPase Rab10, thus promoting removal of Rab10 and recruitment of dynamin-2 to drive plasma membrane scission.
- Published
- 2021
22. Listeria exploits IFITM3 to suppress antibacterial activity in phagocytes
- Author
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Philip P. Ostrowski, John H. Brumell, Taoyingnan Li, Catherine J. Greene, Dustin A. Ammendolia, Brian Raught, Adam R R McCluggage, Monica E Garner, Darren E. Higgins, James M. Regeimbal, Marija Cemma, Joel M J Tan, Katherine J. Wu, Sergio Grinstein, Robin M. Yates, Jorge David Rojas Márquez, and Michael S. Diamond
- Subjects
Male ,General Physics and Astronomy ,medicine.disease_cause ,Mice ,0302 clinical medicine ,Interferon ,Phagosomes ,Listeriosis ,Phagosome ,Innate immunity ,Mice, Knockout ,0303 health sciences ,Phagocytes ,Multidisciplinary ,Immune evasion ,3. Good health ,Anti-Bacterial Agents ,Host-Pathogen Interactions ,Interferon Type I ,medicine.drug ,Listeria ,Virulence Factors ,Science ,Antiviral protein ,Biology ,General Biochemistry, Genetics and Molecular Biology ,Article ,Microbiology ,03 medical and health sciences ,Immune system ,Listeria monocytogenes ,Viral entry ,Phagosome maturation ,medicine ,Animals ,030304 developmental biology ,Intracellular parasite ,Membrane Proteins ,General Chemistry ,Virus Internalization ,Mice, Inbred C57BL ,Disease Models, Animal ,RAW 264.7 Cells ,bacteria ,Interferons ,Bacterial infection ,Transcriptome ,030215 immunology - Abstract
The type I interferon (IFN) signaling pathway has important functions in resistance to viral infection, with the downstream induction of interferon stimulated genes (ISG) protecting the host from virus entry, replication and spread. Listeria monocytogenes (Lm), a facultative intracellular foodborne pathogen, can exploit the type I IFN response as part of their pathogenic strategy, but the molecular mechanisms involved remain unclear. Here we show that type I IFN suppresses the antibacterial activity of phagocytes to promote systemic Lm infection. Mechanistically, type I IFN suppresses phagosome maturation and proteolysis of Lm virulence factors ActA and LLO, thereby promoting phagosome escape and cell-to-cell spread; the antiviral protein, IFN-induced transmembrane protein 3 (IFITM3), is required for this type I IFN-mediated alteration. Ifitm3−/− mice are resistant to systemic infection by Lm, displaying decreased bacterial spread in tissues, and increased immune cell recruitment and pro-inflammatory cytokine signaling. Together, our findings show how an antiviral mechanism in phagocytes can be exploited by bacterial pathogens, and implicate IFITM3 as a potential antimicrobial therapeutic target., Interferon (IFN) is an important component of antiviral immunity, but can also be exploited by bacteria for immune evasion. Here the authors show that Listeria monocytogenes (Lm) induces type I IFN to suppress the degradation of Lm virulence proteins, ActA and LLO, and promote Lm infection in an IFITM3-dependent manner, thereby hinting at a potential target for antimicrobial therapy.
- Published
- 2021
23. Phosphatidylinositol 3-kinase-independent synthesis of PtdIns(3,4)P2 by a phosphotransferase
- Author
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Hongxian Zhu, Yazan M. Abbas, Alexander Deiters, Neha Chauhan, Zetao Liu, Jonathan Pacheco, Gerald R.V. Hammond, Glenn F. W. Walpole, Sergio Grinstein, Gregory D. Fairn, Fernando Montaño-Rendón, and John H. Brumell
- Subjects
Phosphotransferase ,chemistry.chemical_compound ,Effector ,Cell growth ,Chemistry ,Kinase ,Phosphatase ,Gene silencing ,Heterologous expression ,Phosphatidylinositol ,Cell biology - Abstract
Despite their comparatively low abundance, phosphoinositides play a central role in membrane traffic and signalling. PtdIns(3,4,5)P3 and PtdIns(3,4)P2 are uniquely important, as they promote cell growth, survival, and migration. Pathogenic organisms have developed means to subvert phosphoinositide metabolism to promote successful infection and their survival within host organisms. We demonstrate that PtdIns(3,4)P2 is generated in host cells by effectors of the enteropathogenic bacteria Salmonella and Shigella. Pharmacological, gene silencing and heterologous expression experiments revealed that, remarkably, the biosynthesis of PtdIns(3,4)P2 occurs independently of phosphoinositide 3-kinases. Instead, we found that the Salmonella effector SopB, heretofore believed to be a phosphatase, generates PtdIns(3,4)P2 de novo via a phosphotransferase/phosphoisomerase mechanism. Recombinant SopB is capable of generating PtdIns(3,4)P2 from PtdIns(4,5)P2 in a cell-free system. Through a remarkable instance of convergent evolution, bacterial effectors acquired the ability to synthesize 3-phosphorylated phosphoinositides by an ATP- and kinase-independent mechanism, thereby subverting host signaling to gain entry and even provoke oncogenic transformation.
- Published
- 2021
24. Phosphatidylinositol 3-kinase-independent synthesis of PtdIns(3,4)P2 by a phosphotransferase
- Author
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Glenn F. W. Walpole, Jonathan Pacheco, Neha Chauhan, Yazan M. Abbas, Fernando Montaño-Rendón, Zetao Liu, Hongxian Zhu, John H. Brumell, Alexander Deiters, Gerald R.V. Hammond, Sergio Grinstein, and Gregory D. Fairn
- Abstract
Despite their comparatively low abundance, phosphoinositides play a central role in membrane traffic and signalling. PtdIns(3,4,5)P3 and PtdIns(3,4)P2 are uniquely important, as they promote cell growth, survival, and migration. Pathogenic organisms have developed means to subvert phosphoinositide metabolism to promote successful infection and their survival within host organisms. We demonstrate that PtdIns(3,4)P2 is generated in host cells by effectors of the enteropathogenic bacteria Salmonella and Shigella. Pharmacological, gene silencing and heterologous expression experiments revealed that, remarkably, the biosynthesis of PtdIns(3,4)P2 occurs independently of phosphoinositide 3-kinases. Instead, we found that the Salmonella effector SopB, heretofore believed to be a phosphatase, generates PtdIns(3,4)P2de novo via a phosphotransferase/phosphoisomerase mechanism. Recombinant SopB is capable of generating PtdIns(3,4)P2 from PtdIns(4,5)P2 in a cell-free system. Through a remarkable instance of convergent evolution, bacterial effectors acquired the ability to synthesize 3-phosphorylated phosphoinositides by an ATP- and kinase-independent mechanism, thereby subverting host signaling to gain entry and even provoke oncogenic transformation.
- Published
- 2021
25. V-ATPase is a universal regulator of LC3 associated phagocytosis and non-canonical autophagy
- Author
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Oliver Florey, Jonathan M. Goodwin, Elise Jacquin, John H. Brumell, Taoyingnan Li, Joanne Durgan, and Kirsty Hooper
- Subjects
NADPH oxidase ,biology ,Chemistry ,Phagocytosis ,ATG8 ,Autophagy ,biology.protein ,Regulator ,V-ATPase ,Endocytosis ,ATG16L1 ,Cell biology - Abstract
Non-canonical autophagy is a key cellular pathway in immunity, cancer and neurodegeneration, characterised by Conjugation of ATG8 to endolysosomal Single-Membranes (CASM). CASM is activated by engulfment (endocytosis, phagocytosis), agonists (STING, TRPML1) and infection (influenza), dependent on the ATG16L1 WD40-domain, and specifically K490. However, the factor(s) associated with non-canonical ATG16L1 recruitment, and CASM induction, remain unknown. Here, we investigate a role for V-ATPase during non-canonical autophagy. We report that increased V0-V1 engagement is associated with, and sufficient for, CASM activation. Upon V0-V1 binding, V-ATPase directly recruits ATG16L1, via K490, during LC3-associated phagocytosis (LAP), STING- and drug-induced CASM, indicating a common mechanism. Furthermore, during LAP, key molecular players, including NADPH oxidase/ROS, converge on V-ATPase. Finally, we show that LAP is sensitive to Salmonella SopF, which disrupts the V-ATPase-ATG16L1 axis, and provide evidence that CASM contributes to the Salmonella host response. Together, these data identify V-ATPase as a universal regulator of CASM, and indicate that SopF evolved in part to evade non-canonical autophagy.
- Published
- 2021
26. GABARAP membrane conjugation sequesters the FLCN-FNIP tumor suppressor complex to activate TFEB and lysosomal biogenesis
- Author
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Sagar R. Budhe, Qing Tang, Timothy Lehmberg, Andrea Ballabio, Katherine Fletcher, Menghao Wei, Asmita Agrawal, Daniel Baird, Sreekanth R. Rouduri, Ward G. Walkup, Oliver Florey, Archana Jha, John H. Brumell, Jorge Garcia-Fortanet, Leon Murphy, Sravya Kommineni, Kirsty Hooper, Jonathan M. Goodwin, Chieko Kishi-Itakura, Brent A. Appleton, Yaya Fan, Aylwin Ng, Janna Kiselar, Jeffrey J. Saunders, Mark R. Chance, and Taoyingnan Li
- Subjects
Chemistry ,ATG8 ,GABARAP ,Autophagy ,Mitophagy ,Xenophagy ,TFEB ,Transcription factor ,PI3K/AKT/mTOR pathway ,Cell biology - Abstract
Adaptive changes in lysosomal capacity are driven by the transcription factors TFEB and TFE3 in response to increased autophagic flux and endolysosomal stress, yet the molecular details of their activation are unclear. LC3 and GABARAP members of the ATG8 protein family are required for selective autophagy and sensing perturbation within the endolysosomal system. Here we show that during single membrane ATG8 conjugation (SMAC), Parkin-dependent mitophagy, and Salmonella-induced xenophagy, the membrane conjugation of GABARAP, but not LC3, is required for activation of TFEB/TFE3 to control lysosomal homeostasis and capacity. GABARAP directly binds to a novel LC3-interacting motif (LIR) in the FLCN/FNIP tumor suppressor complex with picomolar affinity and regulates its relocalization to these GABARAP-conjugated membrane compartments. This disrupts the regulation of RagC/D by the FLCN/FNIP GAP complex, resulting in impaired mTOR-dependent phosphorylation of TFEB without changing mTOR activity towards other substrates. Thus, the GABARAP-FLCN/FNIP-TFEB axis serves as a universal molecular sensor that coordinates lysosomal homeostasis with perturbations and cargo flux within the autophagy-lysosomal network.
- Published
- 2021
27. Rab5 regulates macropinocytosis by recruiting the inositol 5-phosphatases OCRL and Inpp5b that hydrolyse PtdIns(4,5)P2
- Author
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Allen Volchuk, Michelle E. Maxson, Sergio Grinstein, John H. Brumell, and Helen Sarantis
- Subjects
Phosphatidylinositol 4,5-Diphosphate ,0303 health sciences ,Vesicle ,Pinocytosis ,Inositol Polyphosphate 5-Phosphatases ,Cell Biology ,GTPase ,Biology ,Phosphatidylinositols ,environment and public health ,Cell biology ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,chemistry ,Endomembrane system ,OCRL ,Inositol ,Rab ,biological phenomena, cell phenomena, and immunity ,Macropinosome ,030217 neurology & neurosurgery ,030304 developmental biology - Abstract
Rab5 is required for macropinosome formation, but its site and mode of action remain unknown. We report that Rab5 acts at the plasma membrane, downstream of ruffling, to promote macropinosome sealing and scission. Dominant-negative Rab5, which obliterates macropinocytosis, had no effect on the development of membrane ruffles. However, Rab5-containing vesicles were recruited to circular membrane ruffles, and soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE)-dependent endomembrane fusion was necessary for the completion of macropinocytosis. This fusion event coincided with the disappearance of PtdIns(4,5)P2 that accompanies macropinosome closure. Counteracting the depletion of PtdIns(4,5)P2 by expression of phosphatidylinositol-4-phosphate 5-kinase impaired macropinosome formation. Importantly, we found that the removal of PtdIns(4,5)P2 is dependent on Rab5, through the Rab5-mediated recruitment of the inositol 5-phosphatases OCRL and Inpp5b, via APPL1. Knockdown of OCRL and Inpp5b, or APPL1, prevented macropinosome closure without affecting ruffling. We therefore propose that Rab5 is essential for the clearance of PtdIns(4,5)P2 needed to complete the scission of macropinosomes or to prevent their back-fusion with the plasmalemma.
- Published
- 2020
28. Activity-independent targeting of mTOR to lysosomes in primary osteoclasts
- Author
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Irina Voronov, Bowen Gao, Paul Corey, John H. Brumell, Luciene R. Carraro-Lacroix, Pascal N. Tyrrell, Andrew Wang, and Celeste Owen
- Subjects
0301 basic medicine ,Vacuolar Proton-Translocating ATPases ,Science ,Osteoclasts ,mTORC1 ,Biology ,Cell Fractionation ,mTORC2 ,Article ,03 medical and health sciences ,Mice ,Lysosome ,medicine ,Animals ,PI3K/AKT/mTOR pathway ,Cells, Cultured ,Multidisciplinary ,Mannose 6-phosphate receptor ,Microscopy, Confocal ,030102 biochemistry & molecular biology ,Cell growth ,TOR Serine-Threonine Kinases ,RPTOR ,Autophagy ,Cell biology ,Protein Transport ,030104 developmental biology ,medicine.anatomical_structure ,Biochemistry ,Medicine ,Mutant Proteins ,biological phenomena, cell phenomena, and immunity ,Lysosomes - Abstract
Mammalian target of rapamycin (mTOR) is activated by numerous stimuli, including amino acids and growth factors. This kinase is part of the mTOR complex 1 (mTORC1) which regulates cell proliferation, differentiation, and autophagy. Active mTORC1 is located on lysosomes and has been reported to disassociate from the lysosomal surface in the absence of amino acids. Furthermore, mTORC1 activity has been linked to the vacuolar H+-ATPases (V-ATPases), the proton pumps responsible for lysosomal acidification; however, the exact role of the V-ATPases in mTORC1 signaling is not known. To elucidate the mechanisms involved in mTORC1 regulation by the V-ATPases, we used primary osteoclasts derived from mice carrying a point (R740S) mutation in the a3 subunit of the V-ATPase. In these cells, the mutant protein is expressed but the pump is not functional, resulting in higher lysosomal pH. By analyzing mTOR activation, mTOR/lysosome co-localization, and lysosomal positioning using confocal microscopy, fractionation, and ultrapure lysosomal purification methods, we demonstrate that in primary osteoclasts, mTOR is localized on the lysosomal surface even when mTOR activity is inhibited. Our findings reveal that mTOR targeting to the lysosome in osteoclasts is activity-independent, and that its disassociation from the lysosome during starvation is not universal.
- Published
- 2017
29. A209 ROLE OF SEROTONIN-AUTOPHAGY AXIS IN REGULATION OF EPITHELIAL CELL FUNCTION AND MICROBIOTA COMPOSITION IN GUT
- Author
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N Hassan, Sabah Haq, E Y Kwon, Jensine Grondin, Waliul I. Khan, Janice J. Kim, Dana J. Philpott, John H. Brumell, Huaqing Wang, and Suhrid Banskota
- Subjects
Poster of Distinction ,Autophagy ,Inflammation ,Biology ,digestive system ,Intestinal epithelium ,Epithelium ,Cell biology ,medicine.anatomical_structure ,Downregulation and upregulation ,medicine ,Serotonin ,Microbiome ,medicine.symptom ,Signal transduction - Abstract
Background Serotonin (5-hydroxytryptamine; 5-HT), an enteric signalling molecule mainly produced by the enterochromaffin (EC) cells of the intestinal epithelium regulates various processes of the gut. Tryptophan hydroxylase 1 (Tph1) is the rate-limiting enzyme of 5-HT biosynthesis in EC cells. In inflammatory bowel disease (IBD) and experimental colitis, there are alterations in 5-HT content and microbiota composition in the gut. Previously we reported, Tph1-deficient (Tph1-/-) mice with reduced 5-HT in the gut exhibit reduced susceptibility to colitis. The mechanism by which 5-HT regulates colitis is unknown. Autophagy, a catabolic process regulates the function of intestinal epithelial cells (IECs), gut microbiota, and protects against intestinal inflammation. Both aberrant 5-HT signalling and autophagy is implicated in colitis. It is unclear whether they interact in regulation of production of pro-inflammatory cytokines from IECs and gut microbiota composition in relation to colitis. Our hypothesis is, an increase in 5-HT signalling inhibits autophagy in the IECs, which results in up-regulation of colitis by increasing the production of pro-inflammatory cytokines, and by selection for a more colitogenic microbiota. Aims To define the role of 5-HT-autophagy axis in the production of pro-inflammatory cytokines from IECs and gut microbiota composition in intestinal inflammation. Methods We investigated level of autophagy with or without 5% dextran sodium sulphate (DSS) in colons, mucosal scraping and IECs of Tph1-/- and their wild-type (WT) littermates. In addition, autophagy and proinflammatory cytokine production were investigated in human colonic epithelial cells (HT-29) following stimulation by 5-HT. We evaluated colitis and gut microbiota composition in WT, Tph1-/-, epithelial-specific autophagy gene Atg7 deficient (Atg7ΔIEC), and Atg7ΔIECTph1-/- (double knock out; DKO) mice. Results Tph1 -/- mice, with less 5-HT in the gut than WT mice following DSS administration exhibited an up-regulation of autophagy markers in the colon, mucosal scraping and IECs along with reduction of colitis severity. 5-HT treatment of HT-29 cells resulted in down-regulation of autophagy and upregulation of pro-inflammatory cytokine, IL-8. DKO mice exhibited increased severity of DSS-colitis, and altered microbiota composition compared to Tph1-/- mice. Conclusions These findings suggest, an increase in 5-HT in colitis inhibits autophagy in the IECs that contribute to alteration of the gut microbiota and disease severity. Blocking 5-HT signalling may promote autophagy in the IECs and alleviate the severity of colitis. Understanding the contribution of 5-HT in autophagy may identify new therapeutic target in IBD and other intestinal inflammatory conditions that exhibit dysregulated autophagy. Funding Agencies CAG, CIHR
- Published
- 2020
30. Accumulation of genetic variants associated with immunity in the selective breeding of broilers
- Author
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David S. Guttman, Pauline W. Wang, Angela Zou, Shayan Sharif, John H. Brumell, John Parkinson, Kerry Nadeau, Jee Yeon Lee, and D. R. Korver
- Subjects
0301 basic medicine ,Genetic variants ,DNA Copy Number Variations ,lcsh:QH426-470 ,animal diseases ,Context (language use) ,Immune function ,Biology ,Selective breeding ,Polymorphism, Single Nucleotide ,Genome ,03 medical and health sciences ,Immune system ,Immunity ,Genetics ,Animals ,Selection, Genetic ,Gene ,Phylogeny ,Genetics (clinical) ,Poultry selection ,030304 developmental biology ,2. Zero hunger ,0303 health sciences ,Commercial broilers ,Innate immune system ,030102 biochemistry & molecular biology ,business.industry ,030302 biochemistry & molecular biology ,Broiler ,Genetic Variation ,Genomics ,Poultry farming ,Biotechnology ,lcsh:Genetics ,030104 developmental biology ,business ,Chickens ,Research Article ,Selective Breeding - Abstract
BackgroundTo satisfy an increasing demand for dietary protein, the poultry industry has employed genetic selection to increase the growth rate of broilers by over 400% in the past 50 years. Although modern broilers reach a marketable weight of ~ 2 kg in a short span of 35 days, a speed twice as fast as a broiler 50 years ago, the expedited growth has been associated with several negative detrimental consequences. Aside from heart and musculoskeletal problems, which are direct consequences of additional weight, the immune response is also thought to be altered in modern broilers.ResultsGiven that identifying the underlying genetic basis responsible for a less sensitive innate immune response would be economically beneficial for poultry breeding, we decided to compare the genomes of two unselected meat control strains that are representative of broilers from 1957 and 1978, and a current commercial broiler line. Through analysis of genetic variants, we developed a custom prioritization strategy to identify genes and pathways that have accumulated genetic changes and are biologically relevant to immune response and growth performance. Our results highlight two genes, TLR3 and PLIN3, with genetic variants that are predicted to enhance growth performance at the expense of immune function.ConclusionsPlacing these new genomes in the context of other chicken lines, reveal genetic changes that have specifically arisen in selective breeding programs that were implemented in the last 50 years.
- Published
- 2019
31. Atg16L1 Knockout Induces Insulin Resistance through Proteasomal IRS1 Degradation, Mediated by the Induction of ER Stress
- Author
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John H. Brumell, Scott Frendo-Cumbo, Javier R. Jaldin-Fincati, and Amira Klip
- Subjects
Insulin resistance ,Chemistry ,Genetics ,medicine ,Unfolded protein response ,Degradation (geology) ,medicine.disease ,Molecular Biology ,Biochemistry ,ATG16L1 ,Biotechnology ,Cell biology ,IRS1 - Published
- 2019
32. An ATG16L1-dependent pathway promotes plasma membrane repair and limits Listeria monocytogenes cell-to-cell spread
- Author
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John H. Brumell, Jayanta Debnath, Dustin A. Ammendolia, Amy Won, Darren E. Higgins, Marija Cemma, Gregory D. Fairn, Aleixo M. Muise, Donna A. MacDuff, Ramnik J. Xavier, Mark A. Czuczman, Tamotsu Yoshimori, Ju Huang, Jorik M. van Rijn, Peter K. Kim, Diede Brunen, Joel M J Tan, Diana N Dyer, Ren Li, Etienne Coyaud, Fulvio Reggiori, Brian Raught, Nora Mellouk, Christopher M. Yip, Suzanne E. Osborne, Microbes in Health and Disease (MHD), and Center for Liver, Digestive and Metabolic Diseases (CLDM)
- Subjects
0301 basic medicine ,Male ,Carrier Proteins/genetics ,Cell ,Autophagy-Related Proteins ,ATG16L1 ,Applied Microbiology and Biotechnology ,Autophagy-Related Protein 5 ,Cholesterol/metabolism ,Hemolysin Proteins ,Mice ,INFECTION ,MACROPHAGES ,Heat-Shock Proteins ,Hemolysin Proteins/toxicity ,Chemistry ,Listeriolysin O ,Autophagy-Related Protein 5/metabolism ,Cell biology ,medicine.anatomical_structure ,Cholesterol ,Autophagy-Related Proteins/genetics ,AUTOPHAGY ,Autophagy-Related Protein 12 ,Listeria monocytogenes/drug effects ,Microbiology (medical) ,PROTEINS ,Immunology ,ATG5 ,Bacterial Toxins ,IMMUNITY ,PORE ,Microbiology ,Exocytosis ,MECHANISMS ,ATG12 ,03 medical and health sciences ,Lysosome ,MOTILITY ,Autophagy ,Genetics ,medicine ,Animals ,Humans ,Heat-Shock Proteins/toxicity ,Cell Membrane/drug effects ,Cell Membrane ,Plasma membrane repair ,Cell Biology ,Bacterial Toxins/toxicity ,Listeria monocytogenes ,Disease Models, Animal ,Autophagy-Related Protein 12/metabolism ,030104 developmental biology ,Commentary ,Carrier Proteins ,Lysosomes ,RESISTANCE ,HeLa Cells - Abstract
Plasma membrane integrity is essential for the viability of eukaryotic cells. In response to bacterial pore-forming toxins, disrupted regions of the membrane are rapidly repaired. However, the pathways that mediate plasma membrane repair are unclear. Here we show that autophagy-related (ATG) protein ATG16L1 and its binding partners ATG5 and ATG12 are required for plasma membrane repair through a pathway independent of macroautophagy. ATG16L1 is required for lysosome fusion with the plasma membrane and blebbing responses that promote membrane repair. ATG16L1 deficiency causes accumulation of cholesterol in lysosomes that contributes to defective membrane repair. Cell-to-cell spread by Listeria monocytogenes requires membrane damage by the bacterial toxin listeriolysin O, which is restricted by ATG16L1-dependent membrane repair. Cells harbouring the ATG16L1 T300A allele associated with inflammatory bowel disease were also found to accumulate cholesterol and be defective in repair, linking a common inflammatory disease to plasma membrane integrity. Thus, plasma membrane repair could be an important therapeutic target for the treatment of bacterial infections and inflammatory disorders.
- Published
- 2018
33. Inhibition of Dopamine Receptor D4 Impedes Autophagic Flux, Proliferation, and Survival of Glioblastoma Stem Cells
- Author
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Hayden J. Selvadurai, Xiaoyang Lan, Michelle Kushida, Sonam Dolma, Lea Harrington, Tzvi Aviv, Xueming Zhu, Peter B. Dirks, Lilian Lee, Heather Whetstone, Katherine J. Rowland, Renee Head, Ian D. Clarke, Mike Tyers, Milly So, Changjiang Xu, Gary D. Bader, Mark Bernstein, John H. Brumell, Veronique Voisin, and Nicole I. Park
- Subjects
0301 basic medicine ,Cancer Research ,medicine.medical_specialty ,Cellular differentiation ,Biology ,Small Molecule Libraries ,Mice ,03 medical and health sciences ,Neurochemical ,Neural Stem Cells ,Cell Line, Tumor ,Internal medicine ,Autophagy ,Tumor Cells, Cultured ,medicine ,Animals ,Humans ,PI3K/AKT/mTOR pathway ,Cell Proliferation ,Brain Neoplasms ,Cell growth ,Receptors, Dopamine D4 ,Dopaminergic ,Cell Differentiation ,Cell Biology ,Survival Analysis ,Xenograft Model Antitumor Assays ,Neural stem cell ,3. Good health ,Cell biology ,Gene Expression Regulation, Neoplastic ,030104 developmental biology ,Endocrinology ,Oncology ,Neoplastic Stem Cells ,Drug Screening Assays, Antitumor ,Signal transduction ,Stem cell ,Glioblastoma ,Signal Transduction - Abstract
Glioblastomas (GBM) grow in a rich neurochemical milieu, but the impact of neurochemicals on GBM growth is largely unexplored. We interrogated 680 neurochemical compounds in patient-derived GBM neural stem cells (GNS) to determine the effects on proliferation and survival. Compounds that modulate dopaminergic, serotonergic, and cholinergic signaling pathways selectively affected GNS growth. In particular, dopamine receptor D4 (DRD4) antagonists selectively inhibited GNS growth and promoted differentiation of normal neural stem cells. DRD4 antagonists inhibited the downstream effectors PDGFRβ, ERK1/2, and mTOR and disrupted the autophagy-lysosomal pathway, leading to accumulation of autophagic vacuoles followed by G0/G1 arrest and apoptosis. These results demonstrate a role for neurochemical pathways in governing GBM stem cell proliferation and suggest therapeutic approaches for GBM.
- Published
- 2016
34. Lysosomal pH Plays a Key Role in Regulation of mTOR Activity in Osteoclasts
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Elena Bajenova, Andrew Wang, John H. Brumell, Yingwei Hu, Celeste Owen, Irina Voronov, Paul Corey, and Luciene R. Carraro-Lacroix
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0301 basic medicine ,RPTOR ,Autophagy ,Cell Biology ,mTORC1 ,Protein degradation ,Biology ,Biochemistry ,mTORC2 ,Cell biology ,03 medical and health sciences ,030104 developmental biology ,medicine.anatomical_structure ,Lysosome ,medicine ,V-ATPase ,Molecular Biology ,PI3K/AKT/mTOR pathway - Abstract
Mammalian target of rapamycin (mTOR) is a serine/threonine kinase involved in the regulation of cell growth. It has been shown to play an important role in osteoclast differentiation, particularly at the earlier stages of osteoclastogenesis. mTOR activation and function, as part of mTORC1 complex, is dependent on lysosomal localization and the vacuolar H+-ATPase (V-ATPase) activity; however, the precise mechanism is still not well understood. Using primary mouse osteoclasts that are known to have higher lysosomal pH due to R740S mutation in the V-ATPase a3 subunit, we investigated the role of lysosomal pH in mTORC1 signaling. Our results demonstrated that +/R740S cells had increased basal mTOR protein levels and mTORC1 activity compared to +/+ osteoclasts, while mTOR gene expression was decreased. Treatment with lysosomal inhibitors chloroquine and ammonium chloride, compounds known to raise lysosomal pH, significantly increased mTOR protein levels in +/+ cells, confirming the importance of lysosomal pH in mTOR signaling. These results also suggested that mTOR could be degraded in the lysosome. To test this hypothesis, we cultured osteoclasts with chloroquine or proteasomal inhibitor MG132. Both chloroquine and MG132 increased mTOR and p-mTOR protein levels in +/+ osteoclasts, suggesting that mTOR undergoes both lysosomal and proteasomal degradation. Treatment with cycloheximide, an inhibitor of new protein synthesis, confirmed that mTOR is constitutively expressed and degraded. These results show that, in osteoclasts, the lysosome plays a key role not only in mTOR activation but also in its deactivation through protein degradation, representing a novel molecular mechanism of mTOR regulation. J. Cell. Biochem. 117: 413–425, 2016. © 2015 Wiley Periodicals, Inc.
- Published
- 2015
35. Palmitoylation of NOD1 and NOD2 is required for bacterial sensing
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Dante Neculai, Apiraam Selvabaskaran, Yan Lu, Yuping Zheng, Qiming Sun, Zonping Xia, Etienne Coyaud, Zizhen Xu, Amira Klip, Gregory D. Fairn, Neil Warner, Hu Hu, Xiawei Cheng, Yangyang Liu, Xialian Weng, Songmin Ying, Yuyun Yu, John H. Brumell, Ji Shun Chen, Chao Zhang, Stephen E. Girardin, Brian Raught, Ying Meng, Bingpeng Yao, and Aleixo M. Muise
- Subjects
Salmonella typhimurium ,Letter ,Endosome ,Lipoylation ,Nod2 Signaling Adaptor Protein ,Peptidoglycan ,Pathogenesis ,Microbiology ,03 medical and health sciences ,Mice ,0302 clinical medicine ,Immune system ,Palmitoylation ,NOD2 ,Nod1 Signaling Adaptor Protein ,Phagosomes ,NOD1 ,Animals ,Humans ,Cysteine ,030304 developmental biology ,Mice, Knockout ,0303 health sciences ,Multidisciplinary ,Innate immune system ,Chemistry ,Macrophages ,HCT116 Cells ,Cell biology ,Mice, Inbred C57BL ,HEK293 Cells ,RAW 264.7 Cells ,030220 oncology & carcinogenesis ,Signal transduction ,Protein Processing, Post-Translational ,Intracellular ,Acyltransferases ,Signal Transduction - Abstract
NODs require S-palmitoylation to signal The compartmentalization of proteins within the cell is essential for their function. The addition of lipid molecules redistributes proteins to the cell surface or to membrane-bound organelles. Working in transgenic mice and in tissue cultured cells, Lu et al. found that nucleotide oligomerization domain–like receptors 1 and 2 (NOD1 and NOD2), two proteins responsible for detecting bacterial products, required lipid modifications for their recruitment to the cell membrane and function. The specific modification, palmitoylation at a cysteine thiol, was mediated by the enzyme ZDHHC5. Loss of ZDHHC5 or removal of key modification residues in NOD1 and NOD2 abolished their function, compromising antibacterial responses. Human variants of NOD2 display altered palmitoylation, which could help to explain many inflammatory conditions, such as irritable bowel syndrome. Science , this issue p. 460
- Published
- 2018
36. Septin‐regulated actin dynamics promote Salmonella invasion of host cells
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Aggie Duan Gao, Moshe S. Kim, Carol D. Froese, Dorothy Truong, William S. Trimble, Kirsten C. Boddy, and John H. Brumell
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0301 basic medicine ,Fetal Proteins ,Salmonella typhimurium ,Salmonella ,formin ,Immunology ,Formins ,Salmonella enterica serovar Typhimurium ,macromolecular substances ,Myosins ,medicine.disease_cause ,Septin ,Microbiology ,03 medical and health sciences ,GTP-binding protein regulators ,myosin II ,Virology ,Cell Line, Tumor ,Myosin ,medicine ,Humans ,ROCK2 ,RNA, Small Interfering ,septin ,Actin ,rho-Associated Kinases ,030102 biochemistry & molecular biology ,biology ,bacterial infection ,Nuclear Proteins ,biology.organism_classification ,Actins ,Cell biology ,Editor's Choice ,030104 developmental biology ,Salmonella enterica ,Salmonella Infections ,biology.protein ,RNA Interference ,actin ,Septins ,Research Article ,HeLa Cells - Abstract
Actin nucleators and their binding partners play crucial roles during Salmonella invasion, but how these factors are dynamically coordinated remains unclear. Here, we show that septins, a conserved family of GTP binding proteins, play a role during the early stages of Salmonella invasion. We demonstrate that septins are rapidly enriched at sites of bacterial entry and contribute to the morphology of invasion ruffles. We found that SEPTIN2, SEPTIN7, and SEPTIN9 are required for efficient bacterial invasion. Septins contributed to the recruitment of ROCK2 kinase during Salmonella invasion, and the downstream activation of the actin nucleating protein FHOD1. In contrast, activation of the ROCK2 substrate myosin II, which is known to be required for Salmonella enterica serovar Typhimurium invasion, did not require septins. Collectively, our studies provide new insight into the mechanisms involved in Salmonella invasion of host cells.
- Published
- 2018
37. BioID screen of Salmonella type 3 secreted effectors reveals host factors involved in vacuole positioning and stability during infection
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Jonathan St-Germain, John H. Brumell, Estelle M.N. Laurent, Etienne Coyaud, Brian Raught, Kirsten C. Boddy, Vanessa M. D’Costa, Taoyingnan Li, and Sergio Grinstein
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Microbiology (medical) ,Salmonella typhimurium ,Immunoprecipitation ,Immunology ,Dynein ,Virulence ,Biotin ,Vacuole ,Biology ,Applied Microbiology and Biotechnology ,Microbiology ,Protein–protein interaction ,03 medical and health sciences ,Bacterial Proteins ,Salmonella ,Genetics ,Humans ,Cytoskeleton ,030304 developmental biology ,0303 health sciences ,Staining and Labeling ,030306 microbiology ,Effector ,HEK 293 cells ,Intracellular Signaling Peptides and Proteins ,Cell Biology ,16. Peace & justice ,Cell biology ,Protein Transport ,HEK293 Cells ,Gene Knockdown Techniques ,Host-Pathogen Interactions ,Salmonella Infections ,Vacuoles ,HeLa Cells - Abstract
Many bacterial pathogens express virulence proteins that are translocated into host cells (herein referred to as effectors), where they can interact with target proteins to manipulate host cell processes. These effector-host protein interactions are often dynamic and transient in nature, making them difficult to identify using traditional interaction-based methods. Here, we performed a systematic comparison between proximity-dependent biotin labelling (BioID) and immunoprecipitation coupled with mass spectrometry to investigate a series of Salmonella type 3 secreted effectors that manipulate host intracellular trafficking (SifA, PipB2, SseF, SseG and SopD2). Using BioID, we identified 632 candidate interactions with 381 unique human proteins, collectively enriched for roles in vesicular trafficking, cytoskeleton components and transport activities. From the subset of proteins exclusively identified by BioID, we report that SifA interacts with BLOC-2, a protein complex that regulates dynein motor activity. We demonstrate that the BLOC-2 complex is necessary for SifA-mediated positioning of Salmonella-containing vacuoles, and affects stability of the vacuoles during infection. Our study provides insight into the coordinated activities of Salmonella type 3 secreted effectors and demonstrates the utility of BioID as a powerful, complementary tool to characterize effector-host protein interactions.
- Published
- 2018
38. Global Interactomics Uncovers Extensive Organellar Targeting by Zika Virus
- Author
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Anne-Claude Gingras, Laurence Pelletier, Estelle M.N. Laurent, Jonathan St-Germain, Etienne Coyaud, John H. Brumell, Charlene Ranadheera, Boris J. A. Dyakov, Peter K. Kim, João Gonçalves, Derrick Cheng, David Safronetz, and Brian Raught
- Subjects
0301 basic medicine ,Host–pathogen interaction ,Biochemistry ,Interactome ,Genome ,Models, Biological ,Analytical Chemistry ,Protein–protein interaction ,Zika virus ,03 medical and health sciences ,Viral Proteins ,Peroxisomes ,Humans ,Protein Interaction Maps ,Molecular Biology ,Genetics ,Organelles ,biology ,Zika Virus Infection ,Research ,RNA ,Zika Virus ,biology.organism_classification ,Flavivirus ,030104 developmental biology ,HEK293 Cells ,Host-Pathogen Interactions ,Function (biology) ,HeLa Cells - Abstract
Zika virus (ZIKV) is a membrane enveloped Flavivirus with a positive strand RNA genome, transmitted by Aedes mosquitoes. The geographical range of ZIKV has dramatically expanded in recent decades resulting in increasing numbers of infected individuals, and the spike in ZIKV infections has been linked to significant increases in both Guillain-Barre syndrome and microcephaly. Although a large number of host proteins have been physically and/or functionally linked to other Flaviviruses, very little is known about the virus-host protein interactions established by ZIKV. Here we map host cell protein interaction profiles for each of the ten polypeptides encoded in the ZIKV genome, generating a protein topology network comprising 3033 interactions among 1224 unique human polypeptides. The interactome is enriched in proteins with roles in polypeptide processing and quality control, vesicle trafficking, RNA processing and lipid metabolism. >60% of the network components have been previously implicated in other types of viral infections; the remaining interactors comprise hundreds of new putative ZIKV functional partners. Mining this rich data set, we highlight several examples of how ZIKV may usurp or disrupt the function of host cell organelles, and uncover an important role for peroxisomes in ZIKV infection.
- Published
- 2018
39. Autophagy‐Related Protein 16L1 (Atg16L1) Depletion Induces Insulin Resistance Through Decreased IRS Expression
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Scott Frendo-Cumbo, Amira Klip, Javier R. Jaldin-Fincati, and John H. Brumell
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Insulin resistance ,Chemistry ,Autophagy ,Genetics ,medicine ,medicine.disease ,Molecular Biology ,Biochemistry ,ATG16L1 ,Biotechnology ,Cell biology - Published
- 2018
40. Salmonella exploits host Rho GTPase signalling pathways through the phosphatase activity of SopB
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Gregory D. Fairn, Wei Sun Park, Kirsten C. Boddy, Sergio Grinstein, Dolores Pérez-Sala, Won Do Heo, Veronica Canadien, Vanessa M. D'Costa, John H. Brumell, Dorothy Truong, Brian Raught, Danielle Brabant, Etienne Coyaud, Canadian Institutes of Health Research, Brabant, Danielle [0000-0001-5925-306X], D'Costa, Vanessa M. [0000-0003-4340-7778], Coyaud, Étienne [0000-0002-5893-4557], Raught, Brian [0000-0001-6145-4776], Pérez-Sala, Dolores [0000-0003-0600-665X], Grinstein, Sergio [0000-0002-0795-4160], Brumell, John Hunter [0000-0002-5802-7789], Brabant, Danielle, D'Costa, Vanessa M., Coyaud, Étienne, Raught, Brian, Pérez-Sala, Dolores, Grinstein, Sergio, and Brumell, John Hunter
- Subjects
0301 basic medicine ,Salmonella typhimurium ,rho GTP-Binding Proteins ,Salmonella ,Effector protein ,Virulence Factors ,RHOB ,Immunology ,Phosphatase ,GTPase ,Biology ,medicine.disease_cause ,Typhimurium ,Microbiology ,Type three secretion system ,03 medical and health sciences ,Invasion ,Bacterial Proteins ,Growth-factor receptor ,Virology ,Cell Line, Tumor ,medicine ,Type III Secretion Systems ,Humans ,rhoB GTP-Binding Protein ,Protein kinase B ,Trafficking ,030102 biochemistry & molecular biology ,Effector ,Plasma-membrane ,Epithelial-cells ,3. Good health ,Cell biology ,Dynamics ,Akt activation ,030104 developmental biology ,Lipid phosphatase activity ,Host-Pathogen Interactions ,Salmonella Infections ,Pathogenicity island ,Proto-Oncogene Proteins c-akt ,HeLa Cells ,Signal Transduction ,Transcription Factors - Abstract
12 p.-7 fig., Salmonella uses Type 3 secretion systems (T3SSs) to deliver virulence factors, called effectors, into host cells during infection. The T3SS effectors promote invasion into host cells and the generation of a replicative niche. SopB is a T3SS effector that plays an important role in Salmonella pathogenesis through its lipid phosphatase activity. Here, we show that SopB mediates the recruitment of Rho GTPases (RhoB, RhoD, RhoH, and RhoJ) to bacterial invasion sites. RhoJ contributes to Salmonella invasion, and RhoB and RhoH play an important role in Akt activation. R‐Ras1 also contributes to SopB‐dependent Akt activation by promoting the localised production of PI(3,4)P2/PI(3,4,5)P3. Our studies reveal new signalling factors involved in SopB‐dependent Salmonella infection., This work was supported by an operating grant from the Canadian Institutes of Health Research (FDN 154329).
- Published
- 2018
41. Invasion of the Brain by Listeria monocytogenes Is Mediated by InlF and Host Cell Vimentin
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Pallab Ghosh, Elizabeth M. Halvorsen, Dustin A. Ammendolia, Nirit Mor-Vaknin, Mary X. D. O’Riordan, John H. Brumell, David M. Markovitz, Darren E. Higgins, and Nancy E. Freitag
- Subjects
0301 basic medicine ,brain ,030106 microbiology ,Vimentin ,macromolecular substances ,medicine.disease_cause ,Microbiology ,Virulence factor ,Cell Line ,Mice ,03 medical and health sciences ,vimentin ,Listeria monocytogenes ,Virology ,medicine ,Animals ,Intermediate Filament Protein ,Listeriosis ,InlF ,Pathogen ,Host cell surface ,biology ,Intracellular parasite ,meningitis ,invasion ,Endocytosis ,QR1-502 ,Rats ,3. Good health ,Disease Models, Animal ,adhesion ,030104 developmental biology ,Host-Pathogen Interactions ,biology.protein ,Intracellular ,Research Article - Abstract
Listeria monocytogenes is a facultative intracellular bacterial pathogen that is frequently associated with food-borne infection. Of particular concern is the ability of L. monocytogenes to breach the blood-brain barrier, leading to life-threatening meningitis and encephalitis. The mechanisms used by bacterial pathogens to infect the brain are not fully understood. Here we show that L. monocytogenes is able to utilize vimentin for invasion of host cells. Vimentin is a type III intermediate filament protein within the cytosol but is also expressed on the host cell surface. We found that L. monocytogenes interaction with surface-localized vimentin promoted bacterial uptake. Furthermore, in the absence of vimentin, L. monocytogenes colonization of the brain was severely compromised in mice. The L. monocytogenes virulence factor InlF was found to bind vimentin and was necessary for optimal bacterial colonization of the brain. These studies reveal a novel receptor-ligand interaction that enhances infection of the brain by L. monocytogenes and highlights the importance of surface vimentin in host-pathogen interactions., IMPORTANCE Listeria monocytogenes is an intracellular bacterial pathogen that is capable of invading numerous host cells during infection. L. monocytogenes can cross the blood-brain barrier, leading to life-threatening meningitis. Here we show that an L. monocytogenes surface protein, InlF, is necessary for optimal colonization of the brain in mice. Furthermore, in the absence of vimentin, a cytosolic intermediate filament protein that is also present on the surface of brain endothelial cells, colonization of the brain was significantly impaired. We further show that InlF binds vimentin to mediate invasion of host cells. This work identifies InlF as a bacterial surface protein with specific relevance for infection of the brain and underscores the significance of host cell surface vimentin interactions in microbial pathogenesis.
- Published
- 2018
42. A33 ROLE OF SEROTONIN-AUTOPHAGY AXIS IN INTESTINAL INFLAMMATION
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Sabah Haq, Janice J. Kim, Waliul I. Khan, Huaqing Wang, John H. Brumell, and Gregory R. Steinberg
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business.industry ,Intestinal inflammation ,Autophagy ,Cancer research ,Medicine ,Serotonin ,Posters Of Distinction ,business - Abstract
BACKGROUND: Serotonin (5-hydroxytryptamine; 5-HT) is an important enteric signalling molecule that regulates physiological and pathological processes of the gut. Enterochromaffin (EC) cells are the main producer of 5-HT in gut, and tryptophan hydroxylase 1 (Tph1) is the rate-limiting enzyme of 5-HT biosynthesis in EC cells. Changes in EC cell number and 5-HT content are detected in inflammatory bowel disease (IBD) and in experimental colitis. Tph1(-/-) mice with significantly reduced 5-HT in their gut exhibit reduced susceptibility to colitis. It is also shown that serotonin transporter deficient (SERT(-/-)) mice with elevated 5-HT in their gut exhibit enhanced colitis. The mechanism by which 5-HT regulates colitis is unknown. Autophagy, a catabolic process modulates intestinal homeostasis by regulating anti-microbial defense, epithelial barrier integrity and immune response. Genome wide association studies found links between several autophagy gene variants and IBD. Though both aberrant 5-HT signalling and autophagy have been implicated in colitis, it remains unclear whether they interact in relation to colitis. Our hypothesis is that an increase in 5-HT signalling enhances the severity of gut inflammation by inhibiting autophagy. AIMS: To define the role of 5-HT-autophagy axis in intestinal inflammation. METHODS: We investigated autophagy and inflammatory markers with or without 5% dextran sodium sulphate (DSS) in colons of Tph1(-/-), SERT(-/-) and their wild-type littermates. We assessed autophagy in Tph1(-/-)mice after restoration of 5-HT levels by administration of 5-hydroxytryptophan (5-HTP; immediate precursor of 5-HT) with or without treatment with rapamycin (mTOR inhibitor; autophagy enhancer). We investigated autophagy and proinflammatory cytokine production in colonic epithelial cells (HT-29 cells) following stimulation by 5-HT. RESULTS: Tph1 (-/-) mice, with reduced levels of DSS-colitis compared to Tph1(+/+) mice, had upregulated autophagy markers. SERT(-/-) mice with increased colitis had reduced levels of autophagy. Administration of 5-HTP to Tph1(-/-) mice receiving DSS replenished the 5-HT levels in the gut, increased severity of colitis and decreased levels of autophagy. These findings in Tph1(-/-) mice following administration of 5-HTP were reversed by treatment with rapamycin. 5-HT treatment of HT-29 cells resulted in down-regulation of autophagy and upregulation of proinflammatory cytokine, IL-8. CONCLUSIONS: These findings suggest that an increase in 5-HT in colitis inhibits autophagy that contribute to disease severity. Blocking 5-HT signalling can promote autophagy and alleviate the severity of colitis. Understanding the contribution of 5-HT in autophagy may ultimately identify new therapeutic target in intestinal inflammatory conditions such as IBD that exhibit dysregulated autophagy. FUNDING AGENCIES: Ontario Graduate Scholarship
- Published
- 2019
43. An autophagy-independent role for ATG16L1: promoting lysosome-mediated plasma membrane repair
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Nora Mellouk, John H. Brumell, and Joel M J Tan
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0301 basic medicine ,030102 biochemistry & molecular biology ,Cholesterol ,Autophagy ,Plasma membrane repair ,Cell Biology ,Biology ,3. Good health ,Cell biology ,03 medical and health sciences ,chemistry.chemical_compound ,030104 developmental biology ,Membrane ,medicine.anatomical_structure ,chemistry ,Lysosome ,medicine ,Molecular Biology ,ATG16L1 ,Cholesterol homeostasis ,Function (biology) - Abstract
There is growing evidence in the literature for unconventional roles of autophagy-related (ATG) proteins, outside of their function in canonical autophagy. Here we discuss our recent study that revealed a novel ATG16L1-dependent pathway that promotes plasma membrane repair upon bacterial pore-forming toxin damage. Disruption of the ATG16L1-dependent pathway leads to an accumulation of cholesterol in lysosomes, which affects lysosomal exocytosis required for efficient membrane repair. Our study provides insights into the role of ATG16L1 in cholesterol homeostasis and plasma membrane integrity.
- Published
- 2019
44. Defects in Nicotinamide-adenine Dinucleotide Phosphate Oxidase Genes NOX1 and DUOX2 in Very Early Onset Inflammatory Bowel Disease
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Sandeep S. Dhillon, Billy Bourke, Anne M. Griffiths, Conghui H. Guo, Dermot P.B. McGovern, James H. Doroshow, Inga Peter, Luis Alvarez, Lidija Kovačič, Abdul Elkadri, Scott B. Snapper, Aleixo M. Muise, Ken Y. Hui, Judy H. Cho, Gabriella Aviello, Steven R. Brant, Cornelia Thoeni, Kim O’Neill, Holm H. Uhlig, John H. Brumell, PK Hayes, Ulla G. Knaus, Mark S. Silverberg, Hayes, P., Dhillon, S., O'Neill, K., Thoeni, C., Hui, K. Y., Elkadri, A., Guo, C. H., Kovacic, L., Aviello, G., Alvarez, L. A., Griffiths, A. M., Snapper, S. B., Brant, S. R., Doroshow, J. H., Silverberg, M. S., Peter, I., Mcgovern, D. P. B., Cho, J., Brumell, J. H., Uhlig, H. H., Bourke, B., Muise, A. M., and Knaus, U. G.
- Subjects
WT, wild type ,NADPH Oxidase ,Inflammatory bowel disease ,0302 clinical medicine ,Chronic granulomatous disease ,Cellular localization ,Original Research ,NOX1, NADPH oxidase 1 ,VEOIBD, very early onset inflammatory bowel disease ,0303 health sciences ,NADPH oxidase ,IBD, inflammatory bowel disease ,HA, human influenza hemagglutinin ,Gastroenterology ,NADPH Oxidase 1 ,NADPH, nicotinamide-adenine dinucleotide phosphate ,3. Good health ,medicine.anatomical_structure ,NOX1 ,cardiovascular system ,030211 gastroenterology & hepatology ,SNP, single-nucleotide polymorphism ,Reactive Oxygen Specie ,AJ, Ashkenazi Jewish ,PMA, phorbol 12-myristate 13-acetate ,PBS, phosphate-buffered saline ,Biology ,MAF, minor allele frequency ,Microbiology ,03 medical and health sciences ,PAS, periodic acid–Schiff ,ROS, reactive oxygen species ,medicine ,lcsh:RC799-869 ,DUOX2 ,VEOIBD ,030304 developmental biology ,DUOX2, dual oxidase 2 ,FAD, flavin adenine nucleotide ,Hepatology ,Inflammatory Bowel Disease ,CGD, chronic granulomatous disease ,Dual oxidase 2 ,medicine.disease ,UC, ulcerative colitis ,Immunology ,Paneth cell ,biology.protein ,lcsh:Diseases of the digestive system. Gastroenterology ,Reactive Oxygen Species - Abstract
Background & Aims: Defects in intestinal innate defense systems predispose patients to inflammatory bowel disease (IBD). Reactive oxygen species (ROS) generated by nicotinamide-adenine dinucleotide phosphate (NADPH) oxidases in the mucosal barrier maintain gut homeostasis and defend against pathogenic attack. We hypothesized that molecular genetic defects in intestinal NADPH oxidases might be present in children with IBD. Methods: After targeted exome sequencing of epithelial NADPH oxidases NOX1 and DUOX2 on 59 children with very early onset inflammatory bowel disease (VEOIBD), the identified mutations were validated using Sanger Sequencing. A structural analysis of NOX1 and DUOX2 variants was performed by homology in silico modeling. The functional characterization included ROS generation in model cell lines and in in vivo transduced murine crypts, protein expression, intracellular localization, and cell-based infection studies with the enteric pathogens Campylobacter jejuni and enteropathogenic Escherichia coli. Results: We identified missense mutations in NOX1 (c.988G>A, p.Pro330Ser; c.967G>A, p.Asp360Asn) and DUOX2 (c.4474G>A, p.Arg1211Cys; c.3631C>T, p.Arg1492Cys) in 5 of 209 VEOIBD patients. The NOX1 p.Asp360Asn variant was replicated in a male Ashkenazi Jewish ulcerative colitis cohort. Patients with both NOX1 and DUOX2 variants showed abnormal Paneth cell metaplasia. All NOX1 and DUOX2 variants showed reduced ROS production compared with wild-type enzymes. Despite appropriate cellular localization and comparable pathogen-stimulated translocation of altered oxidases, cells harboring NOX1 or DUOX2 variants had defective host resistance to infection with C. jejuni. Conclusions: This study identifies the first inactivating missense variants in NOX1 and DUOX2 associated with VEOIBD. Defective ROS production from intestinal epithelial cells constitutes a risk factor for developing VEOIBD. Keywords: Inflammatory Bowel Disease, NADPH Oxidase, NOX1, DUOX2, Reactive Oxygen Species, VEOIBD
- Published
- 2015
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45. Salmonella Disrupts Host Endocytic Trafficking by SopD2-Mediated Inhibition of Rab7
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John H. Brumell, A. Proteau, Vanessa M. D'Costa, Sergio Grinstein, Laura McDonald, Rong Shi, Virginie Braun, Miroslaw Cygler, and Marija Landekic
- Subjects
Endosome ,Endocytic cycle ,Dynein ,Molecular Sequence Data ,GTPase ,Plasma protein binding ,Endosomes ,Biology ,General Biochemistry, Genetics and Molecular Biology ,Mice ,Bacterial Proteins ,Microtubule ,Animals ,Humans ,Amino Acid Sequence ,lcsh:QH301-705.5 ,Adaptor Proteins, Signal Transducing ,Effector ,Salmonella enterica ,rab7 GTP-Binding Proteins ,biology.organism_classification ,Cell biology ,Protein Structure, Tertiary ,DNA-Binding Proteins ,Protein Transport ,HEK293 Cells ,lcsh:Biology (General) ,rab GTP-Binding Proteins ,Microtubule-Associated Proteins ,HeLa Cells ,Protein Binding ,Transcription Factors - Abstract
SummaryIntracellular bacterial pathogens of a diverse nature share the ability to evade host immunity by impairing trafficking of endocytic cargo to lysosomes for degradation, a process that is poorly understood. Here, we show that the Salmonella enterica type 3 secreted effector SopD2 mediates this process by binding the host regulatory GTPase Rab7 and inhibiting its nucleotide exchange. Consequently, this limits Rab7 interaction with its dynein- and kinesin-binding effectors RILP and FYCO1 and thereby disrupts host-driven regulation of microtubule motors. Our study identifies a bacterial effector capable of directly binding and thereby modulating Rab7 activity and a mechanism of endocytic trafficking disruption that may provide insight into the pathogenesis of other bacteria. Additionally, we provide a powerful tool for the study of Rab7 function, and a potential therapeutic target.
- Published
- 2015
46. Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)
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Daniel J. Klionsky, Kotb Abdelmohsen, Akihisa Abe, Md Joynal Abedin, Hagai Abeliovich, Abraham Acevedo Arozena, Hiroaki Adachi, Christopher M. Adams, Peter D. Adams, Khosrow Adeli, Peter J. Adhihetty, Sharon G. Adler, Galila Agam, Rajesh Agarwal, Manish K. Aghi, Maria Agnello, Patrizia Agostinis, Patricia V. Aguilar, Julio Aguirre Ghiso, Edoardo M. Airoldi, Slimane Ait Si Ali, Takahiko Akematsu, Emmanuel T. Akporiaye, Mohamed Al Rubeai, Guillermo M. Albaiceta, Chris Albanese, Diego Albani, Matthew L. Albert, Jesus Aldudo, Hana Algül, Mehrdad Alirezaei, Iraide Alloza, Alexandru Almasan, Maylin Almonte Beceril, Emad S. Alnemri, Covadonga Alonso, Nihal Altan Bonnet, Dario C. Altieri, Silvia Alvarez, Lydia Alvarez Erviti, Sandro Alves, Giuseppina Amadoro, Atsuo Amano, Consuelo Amantini, Santiago Ambrosio, Ivano Amelio, Amal O. Amer, Mohamed Amessou, Angelika Amon, Zhenyi An, Frank A. Anania, Stig U. Andersen, Usha P. Andley, Catherine K. Andreadi, Nathalie Andrieu Abadie, Alberto Anel, David K. Ann, Shailendra Anoopkumar Dukie, Manuela Antonioli, Hiroshi Aoki, Nadezda Apostolova, Saveria Aquila, Katia Aquilano, Koichi Araki, Eli Arama, Agustin Aranda, Jun Araya, Alexandre Arcaro, Esperanza Arias, Hirokazu Arimoto, Aileen R. Ariosa, Jane L. Armstrong, Thierry Arnould, Ivica Arsov, Katsuhiko Asanuma, Valerie Askanas, Eric Asselin, Ryuichiro Atarashi, Sally S. Atherton, Julie D. Atkin, Laura D. Attardi, Patrick Auberger, Georg Auburger, Laure Aurelian, Riccardo Autelli, Laura Avagliano, Maria Laura Avantaggiati, Limor Avrahami, Suresh Awale, Neelam Azad, Tiziana Bachetti, Jonathan M. Backer, Dong Hun Bae, Jae sung Bae, Ok Nam Bae, Soo Han Bae, Eric H. Baehrecke, Seung Hoon Baek, Stephen Baghdiguian, Agnieszka Bagniewska Zadworna, Hua Bai, Jie Bai, Xue Yuan Bai, Yannick Bailly, Kithiganahalli Narayanaswamy Balaji, Walter Balduini, Andrea Ballabio, Rena Balzan, Rajkumar Banerjee, Gábor Bánhegyi, Haijun Bao, Benoit Barbeau, Maria D. Barrachina, Esther Barreiro, Bonnie Bartel, Alberto Bartolomé, Diane C. Bassham, Maria Teresa Bassi, Robert C. Bast Jr, Alakananda Basu, Maria Teresa Batista, Henri Batoko, Maurizio Battino, Kyle Bauckman, Bradley L. Baumgarner, K. Ulrich Bayer, Rupert Beale, Jean François Beaulieu, George R. Beck Jr, Christoph Becker, J. David Beckham, Pierre André Bédard, Patrick J. Bednarski, Thomas J. Begley, Christian Behl, Christian Behrends, Georg MN Behrens, Kevin E. Behrns, Eloy Bejarano, Amine Belaid, Francesca Belleudi, Giovanni Bénard, Guy Berchem, Daniele Bergamaschi, Matteo Bergami, Ben Berkhout, Laura Berliocchi, Amélie Bernard, Monique Bernard, Francesca Bernassola, Anne Bertolotti, Amanda S. Bess, Sébastien Besteiro, Saverio Bettuzzi, Savita Bhalla, Shalmoli Bhattacharyya, Sujit K. Bhutia, Caroline Biagosch, Michele Wolfe Bianchi, Martine Biard Piechaczyk, Viktor Billes, Claudia Bincoletto, Baris Bingol, Sara W. Bird, Marc Bitoun, Ivana Bjedov, Craig Blackstone, Lionel Blanc, Guillermo A. Blanco, Heidi Kiil Blomhoff, Emilio Boada Romero, Stefan Böckler, Marianne Boes, Kathleen Boesze Battaglia, Lawrence H. Boise, Alessandra Bolino, Andrea Boman, Paolo Bonaldo, Matteo Bordi, Jürgen Bosch, Luis M. Botana, Joelle Botti, German Bou, Marina Bouché, Marion Bouchecareilh, Marie Josée Boucher, Michael E. Boulton, Sebastien G. Bouret, Patricia Boya, Michaël Boyer Guittaut, Peter V. Bozhkov, Nathan Brady, Vania MM Braga, Claudio Brancolini, Gerhard H. Braus, José M. Bravo San Pedro, Lisa A. Brennan, Emery H. Bresnick, Patrick Brest, Dave Bridges, MarieAgnès Bringer, Marisa Brini, Glauber C. Brito, Bertha Brodin, Paul S. Brookes, Eric J. Brown, Karen Brown, Hal E. Broxmeyer, Alain Bruhat, Patricia Chakur Brum, John H. Brumell, Nicola Brunetti Pierri, Robert J. Bryson Richardson, Shilpa Buch, Alastair M. Buchan, Hikmet Budak, Dmitry V. Bulavin, Scott J. Bultman, Geert Bultynck, Vladimir Bumbasirevic, Yan Burelle, Robert E. Burke, Margit Burmeister, Peter Bütikofer, Laura Caberlotto, Ken Cadwell, Monika Cahova, Dongsheng Cai, Jingjing Cai, Qian Cai, Sara Calatayud, Nadine Camougrand, Michelangelo Campanella, Grant R. Campbell, Matthew Campbell, Silvia Campello, Robin Candau, Isabella Caniggia, Lavinia Cantoni, Lizhi Cao, Allan B. Caplan, Michele Caraglia, Claudio Cardinali, Sandra Morais Cardoso, Jennifer S. Carew, Laura A. Carleton, Cathleen R. Carlin, Silvia Carloni, Sven R. Carlsson, Didac Carmona Gutierrez, Leticia AM Carneiro, Oliana Carnevali, Serena Carra, Alice Carrier, Bernadette Carroll, Caty Casas, Josefina Casas, Giuliana Cassinelli, Perrine Castets, Susana Castro Obregon, Gabriella Cavallini, Isabella Ceccherini, Francesco Cecconi, Arthur I. Cederbaum, Valentín Ceña, Simone Cenci, Claudia Cerella, Davide Cervia, CETRULLO, SILVIA, Hassan Chaachouay, Han Jung Chae, Andrei S. Chagin, Chee Yin Chai, Gopal Chakrabarti, Georgios Chamilos, Edmond YW Chan, Matthew TV Chan, Dhyan Chandra, Pallavi Chandra, Chih Peng Chang, Raymond Chuen Chung Chang, Ta Yuan Chang, John C. Chatham, Saurabh Chatterjee, Santosh Chauhan, Yongsheng Che, Michael E. Cheetham, Rajkumar Cheluvappa, Chun Jung Chen, Gang Chen, Guang Chao Chen, Guoqiang Chen, Hongzhuan Chen, Jeff W. Chen, Jian Kang Chen, Min Chen, Mingzhou Chen, Peiwen Chen, Qi Chen, Quan Chen, Shang Der Chen, Si Chen, Steve S. L. Chen, Wei Chen, Wei Jung Chen, Wen Qiang Chen, Wenli Chen, Xiangmei Chen, Yau Hung Chen, Ye Guang Chen, Yin Chen, Yingyu Chen, Yongshun Chen, Yu Jen Chen, Yue Qin Chen, Yujie Chen, Zhen Chen, Zhong Chen, Alan Cheng, Christopher HK Cheng, Hua Cheng, Heesun Cheong, Sara Cherry, Jason Chesney, Chun Hei Antonio Cheung, Eric Chevet, Hsiang Cheng Chi, Sung Gil Chi, Fulvio Chiacchiera, Hui Ling Chiang, Roberto Chiarelli, Mario Chiariello, Marcello Chieppa, Lih Shen Chin, Mario Chiong, Gigi NC Chiu, Dong Hyung Cho, Ssang Goo Cho, William C. Cho, Yong Yeon Cho, Young Seok Cho, Augustine MK Choi, Eui Ju Choi, Eun Kyoung Choi, Jayoung Choi, Mary E. Choi, Seung Il Choi, Tsui Fen Chou, Salem Chouaib, Divaker Choubey, Vinay Choubey, Kuan Chih Chow, Kamal Chowdhury, Charleen T. Chu, Tsung Hsien Chuang, Taehoon Chun, Hyewon Chung, Taijoon Chung, Yuen Li Chung, Yong Joon Chwae, Valentina Cianfanelli, Roberto Ciarcia, Iwona A. Ciechomska, Maria Rosa Ciriolo, Mara Cirone, Sofie Claerhout, Michael J. Clague, Joan Clària, Peter GH Clarke, Robert Clarke, Emilio Clementi, Cédric Cleyrat, Miriam Cnop, Eliana M. Coccia, Tiziana Cocco, Patrice Codogno, Jörn Coers, Ezra EW Cohen, David Colecchia, Luisa Coletto, Núria S. Coll, Emma Colucci Guyon, Sergio Comincini, Maria Condello, Katherine L. Cook, Graham H. Coombs, Cynthia D. Cooper, J. Mark Cooper, Isabelle Coppens, Maria Tiziana Corasaniti, Marco Corazzari, Ramon Corbalan, Elisabeth Corcelle Termeau, Mario D. Cordero, Cristina Corral Ramos, Olga Corti, Andrea Cossarizza, Paola Costelli, Safia Costes, Susan L. Cotman, Ana Coto Montes, Sandra Cottet, Eduardo Couve, Lori R. Covey, L. Ashley Cowart, Jeffery S. Cox, Fraser P. Coxon, Carolyn B. Coyne, Mark S. Cragg, Rolf J. Craven, Tiziana Crepaldi, Jose L. Crespo, Alfredo Criollo, Valeria Crippa, Maria Teresa Cruz, Ana Maria Cuervo, Jose M. Cuezva, Taixing Cui, Pedro R. Cutillas, Mark J. Czaja, Maria F. Czyzyk Krzeska, Ruben K. Dagda, Uta Dahmen, Chunsun Dai, Wenjie Dai, Yun Dai, Kevin N. Dalby, Luisa Dalla Valle, Guillaume Dalmasso, Marcello D'Amelio, Markus Damme, Arlette Darfeuille Michaud, Catherine Dargemont, Victor M. Darley Usmar, Srinivasan Dasarathy, Biplab Dasgupta, Srikanta Dash, Crispin R. Dass, Hazel Marie Davey, Lester M. Davids, David Dávila, Roger J. Davis, Ted M. Dawson, Valina L. Dawson, Paula Daza, Jackie de Belleroche, Paul de Figueiredo, Regina Celia Bressan Queiroz de Figueiredo, José de la Fuente, Luisa De Martino, Antonella De Matteis, Guido RY De Meyer, Angelo De Milito, Mauro De Santi, Wanderley de Souza, Vincenzo De Tata, Daniela De Zio, Jayanta Debnath, Reinhard Dechant, Jean Paul Decuypere, Shane Deegan, Benjamin Dehay, Barbara Del Bello, Dominic P. Del Re, Régis Delage Mourroux, Lea MD Delbridge, Louise Deldicque, Elizabeth Delorme Axford, Yizhen Deng, Joern Dengjel, Melanie Denizot, Paul Dent, Channing J. Der, Vojo Deretic, Benoît Derrien, Eric Deutsch, Timothy P. Devarenne, Rodney J. Devenish, Sabrina Di Bartolomeo, Nicola Di Daniele, Fabio Di Domenico, Alessia Di Nardo, Simone Di Paola, Antonio Di Pietro, Livia Di Renzo, Aaron DiAntonio, Guillermo Díaz Araya, Ines Díaz Laviada, Maria T. Diaz Meco, Javier Diaz Nido, Chad A. Dickey, Robert C. Dickson, Marc Diederich, Paul Digard, Ivan Dikic, Savithrama P. Dinesh Kumar, Chan Ding, Wen Xing Ding, Zufeng Ding, Luciana Dini, Jörg HW Distler, Abhinav Diwan, Mojgan Djavaheri Mergny, Kostyantyn Dmytruk, Renwick CJ Dobson, Volker Doetsch, Karol Dokladny, Svetlana Dokudovskaya, Massimo Donadelli, X. Charlie Dong, Xiaonan Dong, Zheng Dong, Terrence M. Donohue Jr, Kelly S. Doran, Gabriella D'Orazi, Gerald W. Dorn II, Victor Dosenko, Sami Dridi, Liat Drucker, Jie Du, Li Lin Du, Lihuan Du, André du Toit, Priyamvada Dua, Lei Duan, Pu Duann, Vikash Kumar Dubey, Michael R. Duchen, Michel A. Duchosal, Helene Duez, Isabelle Dugail, Verónica I. Dumit, Mara C. Duncan, Elaine A. Dunlop, William A. Dunn Jr, Nicolas Dupont, Luc Dupuis, Raúl V. Durán, Thomas M. Durcan, Stéphane Duvezin Caubet, Umamaheswar Duvvuri, Vinay Eapen, Darius Ebrahimi Fakhari, Arnaud Echard, Leopold Eckhart, Charles L. Edelstein, Aimee L. Edinger, Ludwig Eichinger, Tobias Eisenberg, Avital Eisenberg Lerner, N. Tony Eissa, Wafik S. El Deiry, Victoria El Khoury, Zvulun Elazar, Hagit Eldar Finkelman, Chris JH Elliott, Enzo Emanuele, Urban Emmenegger, Nikolai Engedal, Anna Mart Engelbrecht, Simone Engelender, Jorrit M. Enserink, Ralf Erdmann, Jekaterina Erenpreisa, Rajaraman Eri, Jason L. Eriksen, Andreja Erman, Ricardo Escalante, Eeva Liisa Eskelinen, Lucile Espert, Lorena Esteban Martínez, Thomas J. Evans, Mario Fabri, Gemma Fabrias, Cinzia Fabrizi, Antonio Facchiano, Nils J. Færgeman, Alberto Faggioni, W. Douglas Fairlie, Chunhai Fan, Daping Fan, Jie Fan, Shengyun Fang, Manolis Fanto, Alessandro Fanzani, Thomas Farkas, Mathias Faure, Francois B. Favier, Howard Fearnhead, Massimo Federici, Erkang Fei, Tania C. Felizardo, Hua Feng, Yibin Feng, Yuchen Feng, Thomas A. Ferguson, Álvaro F. Fernández, Maite G. Fernandez Barrena, Jose C. Fernandez Checa, Arsenio Fernández López, Martin E. Fernandez Zapico, Olivier Feron, Elisabetta Ferraro, Carmen Veríssima Ferreira Halder, Laszlo Fesus, Ralph Feuer, Fabienne C. Fiesel, Eduardo C. Filippi Chiela, Giuseppe Filomeni, Gian Maria Fimia, John H. Fingert, Steven Finkbeiner, Toren Finkel, Filomena Fiorito, Paul B. Fisher, Marc Flajolet, FLAMIGNI, FLAVIO, Oliver Florey, Salvatore Florio, R. Andres Floto, Marco Folini, Carlo Follo, Edward A. Fon, Francesco Fornai, Franco Fortunato, Alessandro Fraldi, Rodrigo Franco, Arnaud Francois, Aurélie François, Lisa B. Frankel, Iain DC Fraser, Norbert Frey, Damien G. Freyssenet, Christian Frezza, Scott L. Friedman, Daniel E. Frigo, Dongxu Fu, José M. Fuentes, Juan Fueyo, Yoshio Fujitani, Yuuki Fujiwara, Mikihiro Fujiya, Mitsunori Fukuda, Simone Fulda, Carmela Fusco, Bozena Gabryel, Matthias Gaestel, Philippe Gailly, Malgorzata Gajewska, Sehamuddin Galadari, Gad Galili, Inmaculada Galindo, Maria F. Galindo, Giovanna Galliciotti, Lorenzo Galluzzi, Luca Galluzzi, Vincent Galy, Noor Gammoh, Sam Gandy, Anand K. Ganesan, Swamynathan Ganesan, Ian G. Ganley, Monique Gannagé, Fen Biao Gao, Feng Gao, Jian Xin Gao, Lorena García Nannig, Eleonora García Véscovi, Marina Garcia Macía, Carmen Garcia Ruiz, Abhishek D. Garg, Pramod Kumar Garg, Ricardo Gargini, Nils Christian Gassen, Damián Gatica, Evelina Gatti, Julie Gavard, Evripidis Gavathiotis, Liang Ge, Pengfei Ge, Shengfang Ge, Po Wu Gean, Vania Gelmetti, Armando A. Genazzani, Jiefei Geng, Pascal Genschik, Lisa Gerner, Jason E. Gestwicki, David A. Gewirtz, Saeid Ghavami, Eric Ghigo, Debabrata Ghosh, Anna Maria Giammarioli, Francesca Giampieri, Claudia Giampietri, Alexandra Giatromanolaki, Derrick J. Gibbings, Lara Gibellini, Spencer B. Gibson, Vanessa Ginet, Antonio Giordano, Flaviano Giorgini, Elisa Giovannetti, Stephen E. Girardin, Suzana Gispert, Sandy Giuliano, Candece L. Gladson, Alvaro Glavic, Martin Gleave, Nelly Godefroy, Robert M. Gogal Jr, Kuppan Gokulan, Gustavo H. Goldman, Delia Goletti, Michael S. Goligorsky, Aldrin V. Gomes, Ligia C. Gomes, Hernando Gomez, Candelaria Gomez Manzano, Rubén Gómez Sánchez, Dawit AP Gonçalves, Ebru Goncu, Qingqiu Gong, Céline Gongora, Carlos B. Gonzalez, Pedro Gonzalez Alegre, Pilar Gonzalez Cabo, Rosa Ana González Polo, Ing Swie Goping, Carlos Gorbea, Nikolai V. Gorbunov, Daphne R. Goring, Adrienne M. Gorman, Sharon M. Gorski, Sandro Goruppi, Shino Goto Yamada, Cecilia Gotor, Roberta A. Gottlieb, Illana Gozes, Devrim Gozuacik, Yacine Graba, Martin Graef, Giovanna E. Granato, Gary Dean Grant, Steven Grant, Giovanni Luca Gravina, Douglas R. Green, Alexander Greenhough, Michael T. Greenwood, Benedetto Grimaldi, Frédéric Gros, Charles Grose, Jean Francois Groulx, Florian Gruber, Paolo Grumati, Tilman Grune, Jun Lin Guan, Kun Liang Guan, Barbara Guerra, Carlos Guillen, Kailash Gulshan, Jan Gunst, Chuanyong Guo, Lei Guo, Ming Guo, Wenjie Guo, Xu Guang Guo, Andrea A. Gust, Åsa B. Gustafsson, Elaine Gutierrez, Maximiliano G. Gutierrez, Ho Shin Gwak, Albert Haas, James E. Haber, Shinji Hadano, Monica Hagedorn, David R. Hahn, Andrew J. Halayko, Anne Hamacher Brady, Kozo Hamada, Ahmed Hamai, Andrea Hamann, Maho Hamasaki, Isabelle Hamer, Qutayba Hamid, Ester M. Hammond, Feng Han, Weidong Han, James T. Handa, John A. Hanover, Malene Hansen, Masaru Harada, Ljubica Harhaji Trajkovic, J. Wade Harper, Abdel Halim Harrath, Adrian L. Harris, James Harris, Udo Hasler, Peter Hasselblatt, Kazuhisa Hasui, Robert G. Hawley, Teresa S. Hawley, Congcong He, Cynthia Y. He, Fengtian He, Gu He, Rong Rong He, Xian Hui He, You Wen He, Yu Ying He, Joan K. Heath, Marie Josée Hébert, Robert A. Heinzen, Gudmundur Vignir Helgason, Michael Hensel, Elizabeth P. Henske, Chengtao Her, Paul K. Herman, Agustín Hernández, Carlos Hernandez, Sonia Hernández Tiedra, Claudio Hetz, P. Robin Hiesinger, Katsumi Higaki, Sabine Hilfiker, Bradford G. Hill, Joseph A. Hill, William D. Hill, Keisuke Hino, Daniel Hofius, Paul Hofman, Günter U. Höglinger, Jörg Höhfeld, Marina K. Holz, Yonggeun Hong, David A. Hood, Jeroen JM Hoozemans, Thorsten Hoppe, Chin Hsu, Chin Yuan Hsu, Li Chung Hsu, Dong Hu, Guochang Hu, Hong Ming Hu, Hongbo Hu, Ming Chang Hu, Yu Chen Hu, Zhuo Wei Hu, Fang Hua, Ya Hua, Canhua Huang, Huey Lan Huang, Kuo How Huang, Kuo Yang Huang, Shile Huang, Shiqian Huang, Wei Pang Huang, Yi Ran Huang, Yong Huang, Yunfei Huang, Tobias B. Huber, Patricia Huebbe, Won Ki Huh, Juha J. Hulmi, Gang Min Hur, James H. Hurley, Zvenyslava Husak, Sabah NA Hussain, Salik Hussain, Jung Jin Hwang, Seungmin Hwang, Thomas IS Hwang, Atsuhiro Ichihara, Yuzuru Imai, Carol Imbriano, Megumi Inomata, Takeshi Into, Valentina Iovane, Juan L. Iovanna, Renato V. Iozzo, Nancy Y. Ip, Javier E. Irazoqui, Pablo Iribarren, Yoshitaka Isaka, Aleksandra J. Isakovic, Harry Ischiropoulos, Jeffrey S. Isenberg, Mohammad Ishaq, Hiroyuki Ishida, Isao Ishii, Jane E. Ishmael, Ciro Isidoro, Ken ichi Isobe, Erika Isono, Shohreh Issazadeh Navikas, Koji Itahana, Eisuke Itakura, Andrei I. Ivanov, Anand Krishnan V. Iyer, José M. Izquierdo, Yotaro Izumi, Valentina Izzo, Marja Jäättelä, Nadia Jaber, Daniel John Jackson, William T. Jackson, Tony George Jacob, Thomas S. Jacques, Chinnaswamy Jagannath, Ashish Jain, Nihar Ranjan Jana, Byoung Kuk Jang, Alkesh Jani, Bassam Janji, Paulo Roberto Jannig, Patric J. Jansson, Steve Jean, Marina Jendrach, Ju Hong Jeon, Niels Jessen, Eui Bae Jeung, Kailiang Jia, Lijun Jia, Hong Jiang, Hongchi Jiang, Liwen Jiang, Teng Jiang, Xiaoyan Jiang, Xuejun Jiang, Ying Jiang, Yongjun Jiang, Alberto Jiménez, Cheng Jin, Hongchuan Jin, Lei Jin, Meiyan Jin, Shengkan Jin, Umesh Kumar Jinwal, Eun Kyeong Jo, Terje Johansen, Daniel E. Johnson, Gail VW Johnson, James D. Johnson, Eric Jonasch, Chris Jones, Leo AB Joosten, Joaquin Jordan, Anna Maria Joseph, Bertrand Joseph, Annie M. Joubert, Dianwen Ju, Jingfang Ju, Hsueh Fen Juan, Katrin Juenemann, Gábor Juhász, Hye Seung Jung, Jae U. Jung, Yong Keun Jung, Heinz Jungbluth, Matthew J. Justice, Barry Jutten, Nadeem O. Kaakoush, Kai Kaarniranta, Allen Kaasik, Tomohiro Kabuta, Bertrand Kaeffer, Katarina Kågedal, Alon Kahana, Shingo Kajimura, Or Kakhlon, Manjula Kalia, Dhan V. Kalvakolanu, Yoshiaki Kamada, Konstantinos Kambas, Vitaliy O. Kaminskyy, Harm H. Kampinga, Mustapha Kandouz, Chanhee Kang, Rui Kang, Tae Cheon Kang, Tomotake Kanki, Thirumala Devi Kanneganti, Haruo Kanno, Anumantha G. Kanthasamy, Marc Kantorow, Maria Kaparakis Liaskos, Orsolya Kapuy, Vassiliki Karantza, Md Razaul Karim, Parimal Karmakar, Arthur Kaser, Susmita Kaushik, Thomas Kawula, A. Murat Kaynar, Po Yuan Ke, Zun Ji Ke, John H. Kehrl, Kate E. Keller, Jongsook Kim Kemper, Anne K. Kenworthy, Oliver Kepp, Andreas Kern, Santosh Kesari, David Kessel, Robin Ketteler, Isis do Carmo Kettelhut, Bilon Khambu, Muzamil Majid Khan, Vinoth KM Khandelwal, Sangeeta Khare, Juliann G. Kiang, Amy A. Kiger, Akio Kihara, Arianna L. Kim, Cheol Hyeon Kim, Deok Ryong Kim, Do Hyung Kim, Eung Kweon Kim, Hye Young Kim, Hyung Ryong Kim, Jae Sung Kim, Jeong Hun Kim, Jin Cheon Kim, Jin Hyoung Kim, Kwang Woon Kim, Michael D. Kim, Moon Moo Kim, Peter K. Kim, Seong Who Kim, Soo Youl Kim, Yong Sun Kim, Yonghyun Kim, Adi Kimchi, Alec C. Kimmelman, Tomonori Kimura, Jason S. King, Karla Kirkegaard, Vladimir Kirkin, Lorrie A. Kirshenbaum, Shuji Kishi, Yasuo Kitajima, Katsuhiko Kitamoto, Yasushi Kitaoka, Kaio Kitazato, Rudolf A. Kley, Walter T. Klimecki, Michael Klinkenberg, Jochen Klucken, Helene Knævelsrud, Erwin Knecht, Laura Knuppertz, Jiunn Liang Ko, Satoru Kobayashi, Jan C. Koch, Christelle Koechlin Ramonatxo, Ulrich Koenig, Young Ho Koh, Katja Köhler, Sepp D. Kohlwein, Masato Koike, Masaaki Komatsu, Eiki Kominami, Dexin Kong, Hee Jeong Kong, Eumorphia G. Konstantakou, Benjamin T. Kopp, Tamas Korcsmaros, Laura Korhonen, Viktor I. Korolchuk, Nadya V. Koshkina, Yanjun Kou, Michael I. Koukourakis, Constantinos Koumenis, Attila L. Kovács, Tibor Kovács, Werner J. Kovacs, Daisuke Koya, Claudine Kraft, Dimitri Krainc, Helmut Kramer, Tamara Kravic Stevovic, Wilhelm Krek, Carole Kretz Remy, Roswitha Krick, Malathi Krishnamurthy, Janos Kriston Vizi, Guido Kroemer, Michael C. Kruer, Rejko Kruger, Nicholas T. Ktistakis, Kazuyuki Kuchitsu, Christian Kuhn, Addanki Pratap Kumar, Anuj Kumar, Ashok Kumar, Deepak Kumar, Dhiraj Kumar, Rakesh Kumar, Sharad Kumar, Mondira Kundu, Hsing Jien Kung, Atsushi Kuno, Sheng Han Kuo, Jeff Kuret, Tino Kurz, Terry Kwok, Taeg Kyu Kwon, Yong Tae Kwon, Irene Kyrmizi, Albert R. La Spada, Frank Lafont, Tim Lahm, Aparna Lakkaraju, Truong Lam, Trond Lamark, Steve Lancel, Terry H. Landowski, Darius JR Lane, Jon D. Lane, Cinzia Lanzi, Pierre Lapaquette, Louis R. Lapierre, Jocelyn Laporte, Johanna Laukkarinen, Gordon W. Laurie, Sergio Lavandero, Lena Lavie, Matthew J. LaVoie, Betty Yuen Kwan Law, Helen Ka wai Law, Kelsey B. Law, Robert Layfield, Pedro A. Lazo, Laurent Le Cam, Karine G. Le Roch, Hervé Le Stunff, Vijittra Leardkamolkarn, Marc Lecuit, Byung Hoon Lee, Che Hsin Lee, Erinna F. Lee, Gyun Min Lee, He Jin Lee, Hsinyu Lee, Jae Keun Lee, Jongdae Lee, Juhyun Lee, Jun Hee Lee, Michael Lee, Myung Shik Lee, Patty J. Lee, Sam W. Lee, Seung Jae Lee, Shiow Ju Lee, Stella Y. Lee, Sug Hyung Lee, Sung Sik Lee, Sung Joon Lee, Sunhee Lee, Ying Ray Lee, Yong J. Lee, Young H. Lee, Christiaan Leeuwenburgh, Sylvain Lefort, Renaud Legouis, Jinzhi Lei, Qun Ying Lei, David A. Leib, Gil Leibowitz, Istvan Lekli, Stéphane D. Lemaire, John J. Lemasters, Marius K. Lemberg, Antoinette Lemoine, Shuilong Leng, Guido Lenz, Paola Lenzi, Lilach O. Lerman, Daniele Lettieri Barbato, Julia I. Ju Leu, Hing Y. Leung, Beth Levine, Patrick A. Lewis, Frank Lezoualc'h, Chi Li, Faqiang Li, Feng Jun Li, Jun Li, Ke Li, Lian Li, Min Li, Qiang Li, Rui Li, Sheng Li, Wei Li, Xiaotao Li, Yumin Li, Jiqin Lian, Chengyu Liang, Qiangrong Liang, Yulin Liao, Joana Liberal, Pawel P. Liberski, Pearl Lie, Andrew P. Lieberman, Hyunjung Jade Lim, Kah Leong Lim, Kyu Lim, Raquel T. Lima, Chang Shen Lin, Chiou Feng Lin, Fang Lin, Fangming Lin, Fu Cheng Lin, Kui Lin, Kwang Huei Lin, Pei Hui Lin, Tianwei Lin, Wan Wan Lin, Yee Shin Lin, Yong Lin, Rafael Linden, Dan Lindholm, Lisa M. Lindqvist, Paul Lingor, Andreas Linkermann, Lance A. Liotta, Marta M. Lipinski, Vitor A. Lira, Michael P. Lisanti, Paloma B. Liton, Bo Liu, Chong Liu, Chun Feng Liu, Fei Liu, Hung Jen Liu, Jianxun Liu, Jing Jing Liu, Jing Lan Liu, Ke Liu, Leyuan Liu, Liang Liu, Quentin Liu, Rong Yu Liu, Shiming Liu, Shuwen Liu, Wei Liu, Xian De Liu, Xiangguo Liu, Xiao Hong Liu, Xinfeng Liu, Xu Liu, Xueqin Liu, Yang Liu, Yule Liu, Zexian Liu, Zhe Liu, Juan P. Liuzzi, Gérard Lizard, Mila Ljujic, Irfan J. Lodhi, Susan E. Logue, Bal L. Lokeshwar, Yun Chau Long, Sagar Lonial, Benjamin Loos, Carlos López Otín, Cristina López Vicario, Mar Lorente, Philip L. Lorenzi, Péter Lõrincz, Marek Los, Michael T. Lotze, Penny E. Lovat, Binfeng Lu, Bo Lu, Jiahong Lu, Qing Lu, She Min Lu, Shuyan Lu, Yingying Lu, Frédéric Luciano, Shirley Luckhart, John Milton Lucocq, Paula Ludovico, Aurelia Lugea, Nicholas W. Lukacs, Julian J. Lum, Anders H. Lund, Honglin Luo, Jia Luo, Shouqing Luo, Claudio Luparello, Timothy Lyons, Jianjie Ma, Yi Ma, Yong Ma, Zhenyi Ma, Juliano Machado, Glaucia M. Machado Santelli, Fernando Macian, Gustavo C. MacIntosh, Jeffrey P. MacKeigan, Kay F. Macleod, John D. MacMicking, Lee Ann MacMillan Crow, Frank Madeo, Muniswamy Madesh, Julio Madrigal Matute, Akiko Maeda, Tatsuya Maeda, Gustavo Maegawa, Emilia Maellaro, Hannelore Maes, Marta Magariños, Kenneth Maiese, Tapas K. Maiti, Luigi Maiuri, Maria Chiara Maiuri, Carl G. Maki, Roland Malli, Walter Malorni, Alina Maloyan, Fathia Mami Chouaib, Na Man, Joseph D. Mancias, Eva Maria Mandelkow, Michael A. Mandell, Angelo A. Manfredi, Serge N. Manié, Claudia Manzoni, Kai Mao, Zixu Mao, Zong Wan Mao, Philippe Marambaud, Anna Maria Marconi, Zvonimir Marelja, Gabriella Marfe, Marta Margeta, Eva Margittai, Muriel Mari, Francesca V. Mariani, Concepcio Marin, Sara Marinelli, Guillermo Mariño, Ivanka Markovic, Rebecca Marquez, MARTELLI, ALBERTO MARIA, Sascha Martens, Katie R. Martin, Seamus J. Martin, Shaun Martin, Miguel A. Martin Acebes, Paloma Martín Sanz, Camille Martinand Mari, Wim Martinet, Jennifer Martinez, Nuria Martinez Lopez, Ubaldo Martinez Outschoorn, Moisés Martínez Velázquez, Marta Martinez Vicente, Waleska Kerllen Martins, Hirosato Mashima, James A. Mastrianni, Giuseppe Matarese, Paola Matarrese, Roberto Mateo, Satoaki Matoba, Naomichi Matsumoto, Takehiko Matsushita, Akira Matsuura, Takeshi Matsuzawa, Mark P. Mattson, Soledad Matus, Norma Maugeri, Caroline Mauvezin, Andreas Mayer, Dusica Maysinger, Guillermo D. Mazzolini, Mary Kate McBrayer, Kimberly McCall, Craig McCormick, Gerald M. McInerney, Skye C. McIver, Sharon McKenna, John J. McMahon, Iain A. McNeish, Fatima Mechta Grigoriou, Jan Paul Medema, Diego L. Medina, Klara Megyeri, Maryam Mehrpour, Jawahar L. Mehta, Yide Mei, Ute Christiane Meier, Alfred J. Meijer, Alicia Meléndez, Gerry Melino, Sonia Melino, Edesio Jose Tenorio de Melo, Maria A. Mena, Marc D. Meneghini, Javier A. Menendez, Regina Menezes, Liesu Meng, Ling hua Meng, Songshu Meng, Rossella Menghini, A. Sue Menko, Rubem FS Menna Barreto, Manoj B. Menon, Marco A. Meraz Ríos, Giuseppe Merla, Luciano Merlini, Angelica M. Merlot, Andreas Meryk, Stefania Meschini, Joel N. Meyer, Man tian Mi, Chao Yu Miao, Lucia Micale, Simon Michaeli, Carine Michiels, FRANCO MIGLIACCIO, ANNA RITA, Anastasia Susie Mihailidou, Dalibor Mijaljica, Katsuhiko Mikoshiba, Enrico Milan, Leonor Miller Fleming, Gordon B. Mills, Ian G. Mills, Georgia Minakaki, Berge A. Minassian, Xiu Fen Ming, Farida Minibayeva, Elena A. Minina, Justine D. Mintern, Saverio Minucci, Antonio Miranda Vizuete, Claire H. Mitchell, Shigeki Miyamoto, Keisuke Miyazawa, Noboru Mizushima, Katarzyna Mnich, Baharia Mograbi, Simin Mohseni, Luis Ferreira Moita, Marco Molinari, Maurizio Molinari, Andreas Buch Møller, Bertrand Mollereau, Faustino Mollinedo, Marco Mongillo, Martha M. Monick, Serena Montagnaro, Craig Montell, Darren J. Moore, Michael N. Moore, Rodrigo Mora Rodriguez, Paula I. Moreira, Etienne Morel, Maria Beatrice Morelli, Sandra Moreno, Michael J. Morgan, Arnaud Moris, Yuji Moriyasu, Janna L. Morrison, Lynda A. Morrison, Eugenia Morselli, Jorge Moscat, Pope L. Moseley, Serge Mostowy, Elisa Motori, Denis Mottet, Jeremy C. Mottram, Charbel E. H. Moussa, Vassiliki E. Mpakou, Hasan Mukhtar, Jean M. Mulcahy Levy, Sylviane Muller, Raquel Muñoz Moreno, Cristina Muñoz Pinedo, Christian Münz, Maureen E. Murphy, James T. Murray, Aditya Murthy, Indira U. Mysorekar, Ivan R. Nabi, Massimo Nabissi, Gustavo A. Nader, Yukitoshi Nagahara, Yoshitaka Nagai, Kazuhiro Nagata, Anika Nagelkerke, Péter Nagy, Samisubbu R. Naidu, Sreejayan Nair, Hiroyasu Nakano, Hitoshi Nakatogawa, Meera Nanjundan, Gennaro Napolitano, Naweed I. Naqvi, Roberta Nardacci, Derek P. Narendra, Masashi Narita, Anna Chiara Nascimbeni, Ramesh Natarajan, Luiz C. Navegantes, Steffan T. Nawrocki, Taras Y. Nazarko, Volodymyr Y. Nazarko, Thomas Neill, Luca M. Neri, Mihai G. Netea, Romana T. Netea Maier, Bruno M. Neves, Paul A. Ney, Ioannis P. Nezis, Hang TT Nguyen, Huu Phuc Nguyen, Anne Sophie Nicot, Hilde Nilsen, Per Nilsson, Mikio Nishimura, Ichizo Nishino, Mireia Niso Santano, Hua Niu, Ralph A. Nixon, Vincent CO Njar, Takeshi Noda, Angelika A. Noegel, Elsie Magdalena Nolte, Erik Norberg, Koenraad K. Norga, Sakineh Kazemi Noureini, Shoji Notomi, Lucia Notterpek, Karin Nowikovsky, Nobuyuki Nukina, Thorsten Nürnberger, Valerie B. O'Donnell, Tracey O'Donovan, Peter J. O'Dwyer, Ina Oehme, Clara L. Oeste, Michinaga Ogawa, Besim Ogretmen, Yuji Ogura, Young J. Oh, Masaki Ohmuraya, Takayuki Ohshima, Rani Ojha, Koji Okamoto, Toshiro Okazaki, F. Javier Oliver, Karin Ollinger, Stefan Olsson, Daniel P. Orban, Paulina Ordonez, Idil Orhon, Laszlo Orosz, Eyleen J. O'Rourke, Helena Orozco, Angel L. Ortega, Elena Ortona, Laura D. Osellame, Junko Oshima, Shigeru Oshima, Heinz D. Osiewacz, Takanobu Otomo, Kinya Otsu, Jing hsiung James Ou, Tiago F. Outeiro, Dong yun Ouyang, Hongjiao Ouyang, Michael Overholtzer, Michelle A. Ozbun, P. Hande Ozdinler, Bulent Ozpolat, Consiglia Pacelli, Paolo Paganetti, Guylène Page, Gilles Pages, Ugo Pagnini, Beata Pajak, Stephen C. Pak, Karolina Pakos Zebrucka, Nazzy Pakpour, Zdena Palková, Francesca Palladino, Kathrin Pallauf, Nicolas Pallet, Marta Palmieri, Søren R. Paludan, Camilla Palumbo, Silvia Palumbo, Olatz Pampliega, Hongming Pan, Wei Pan, Theocharis Panaretakis, Aseem Pandey, Areti Pantazopoulou, Zuzana Papackova, Daniela L. Papademetrio, Issidora Papassideri, Alessio Papini, Nirmala Parajuli, Julian Pardo, Vrajesh V. Parekh, Giancarlo Parenti, Jong In Park, Junsoo Park, Ohkmae K. Park, Roy Parker, Rosanna Parlato, Jan B. Parys, Katherine R. Parzych, Jean Max Pasquet, Benoit Pasquier, Kishore BS Pasumarthi, Daniel Patschan, Cam Patterson, Sophie Pattingre, Scott Pattison, Arnim Pause, Hermann Pavenstädt, Flaminia Pavone, Zully Pedrozo, Fernando J. Peña, Miguel A. Peñalva, Mario Pende, Jianxin Peng, Fabio Penna, Josef M. Penninger, Anna Pensalfini, Salvatore Pepe, Gustavo JS Pereira, Paulo C. Pereira, Verónica Pérez de la Cruz, María Esther Pérez Pérez, Diego Pérez Rodríguez, Dolores Pérez Sala, Celine Perier, Andras Perl, David H. Perlmutter, Ida Perrotta, Shazib Pervaiz, Maija Pesonen, Jeffrey E. Pessin, Godefridus J. Peters, Morten Petersen, Irina Petrache, Basil J. Petrof, Goran Petrovski, James M. Phang, Mauro Piacentini, Marina Pierdominici, Philippe Pierre, Valérie Pierrefite Carle, Federico Pietrocola, Felipe X. Pimentel Muiños, Mario Pinar, Benjamin Pineda, Ronit Pinkas Kramarski, Marcello Pinti, Paolo Pinton, Bilal Piperdi, James M. Piret, Leonidas C. Platanias, Harald W. Platta, Edward D. Plowey, Stefanie Pöggeler, Marc Poirot, Peter Polčic, Angelo Poletti, Audrey H. Poon, Hana Popelka, Blagovesta Popova, Izabela Poprawa, Shibu M. Poulose, Joanna Poulton, Scott K. Powers, Ted Powers, Mercedes Pozuelo Rubio, Krisna Prak, Reinhild Prange, Mark Prescott, Muriel Priault, Sharon Prince, Richard L. Proia, Tassula Proikas Cezanne, Holger Prokisch, Vasilis J. Promponas, Karin Przyklenk, Rosa Puertollano, Subbiah Pugazhenthi, Luigi Puglielli, Aurora Pujol, Julien Puyal, Dohun Pyeon, Xin Qi, Wen bin Qian, Zheng Hong Qin, Yu Qiu, Ziwei Qu, Joe Quadrilatero, Frederick Quinn, Nina Raben, Hannah Rabinowich, Flavia Radogna, Michael J. Ragusa, Mohamed Rahmani, Komal Raina, Sasanka Ramanadham, Rajagopal Ramesh, Abdelhaq Rami, Sarron Randall Demllo, Felix Randow, Hai Rao, V. Ashutosh Rao, Blake B. Rasmussen, Tobias M. Rasse, Edward A. Ratovitski, Pierre Emmanuel Rautou, Swapan K. Ray, Babak Razani, Bruce H. Reed, Fulvio Reggiori, Markus Rehm, Andreas S. Reichert, Theo Rein, David J. Reiner, Eric Reits, Jun Ren, Xingcong Ren, Maurizio Renna, Jane EB Reusch, Jose L. Revuelta, Leticia Reyes, Alireza R. Rezaie, Robert I. Richards, Des R. Richardson, Clémence Richetta, Michael A. Riehle, Bertrand H. Rihn, Yasuko Rikihisa, Brigit E. Riley, Gerald Rimbach, Maria Rita Rippo, Konstantinos Ritis, Federica Rizzi, Elizete Rizzo, Peter J. Roach, Jeffrey Robbins, Michel Roberge, Gabriela Roca, Maria Carmela Roccheri, Sonia Rocha, Cecilia MP Rodrigues, Clara I. Rodríguez, Santiago Rodriguez de Cordoba, Natalia Rodriguez Muela, Jeroen Roelofs, Vladimir V. Rogov, Troy T. Rohn, Bärbel Rohrer, Davide Romanelli, Luigina Romani, Patricia Silvia Romano, M. Isabel G. Roncero, Jose Luis Rosa, Alicia Rosello, Kirill V. Rosen, Philip Rosenstiel, Magdalena Rost Roszkowska, Kevin A. Roth, Gael Roué, Mustapha Rouis, Kasper M. Rouschop, Daniel T. Ruan, Diego Ruano, David C. Rubinsztein, Edmund B. Rucker III, Assaf Rudich, Emil Rudolf, Ruediger Rudolf, Markus A. Ruegg, Carmen Ruiz Roldan, Avnika Ashok Ruparelia, Paola Rusmini, David W. Russ, Gian Luigi Russo, Giuseppe Russo, Rossella Russo, Tor Erik Rusten, Victoria Ryabovol, Kevin M. Ryan, Stefan W. Ryter, David M. Sabatini, Michael Sacher, Carsten Sachse, Michael N. Sack, Junichi Sadoshima, Paul Saftig, Ronit Sagi Eisenberg, Sumit Sahni, Pothana Saikumar, Tsunenori Saito, Tatsuya Saitoh, Koichi Sakakura, Machiko Sakoh Nakatogawa, Yasuhito Sakuraba, María Salazar Roa, Paolo Salomoni, Ashok K. Saluja, Paul M. Salvaterra, Rosa Salvioli, Afshin Samali, Anthony MJ Sanchez, José A. Sánchez Alcázar, Ricardo Sanchez Prieto, Marco Sandri, Miguel A. Sanjuan, Stefano Santaguida, Laura Santambrogio, Giorgio Santoni, Claudia Nunes dos Santos, Shweta Saran, Marco Sardiello, Graeme Sargent, Pallabi Sarkar, Sovan Sarkar, Maria Rosa Sarrias, Minnie M. Sarwal, Chihiro Sasakawa, Motoko Sasaki, Miklos Sass, Ken Sato, Miyuki Sato, Joseph Satriano, Niramol Savaraj, Svetlana Saveljeva, Liliana Schaefer, Ulrich E. Schaible, Michael Scharl, Hermann M. Schatzl, Randy Schekman, Wiep Scheper, Alfonso Schiavi, Hyman M. Schipper, Hana Schmeisser, Jens Schmidt, Ingo Schmitz, Bianca E. Schneider, E. Marion Schneider, Jaime L. Schneider, Eric A. Schon, Miriam J. Schönenberger, Axel H. Schönthal, Daniel F. Schorderet, Bernd Schröder, Sebastian Schuck, Ryan J. Schulze, Melanie Schwarten, Thomas L. Schwarz, Sebastiano Sciarretta, Kathleen Scotto, A. Ivana Scovassi, Robert A. Screaton, Mark Screen, Hugo Seca, Simon Sedej, Laura Segatori, Nava Segev, Per O. Seglen, Jose M. Seguí Simarro, Juan Segura Aguilar, Ekihiro Seki, Iban Seiliez, Christian Sell, Clay F. Semenkovich, Gregg L. Semenza, Utpal Sen, Andreas L. Serra, Ana Serrano Puebla, Hiromi Sesaki, Takao Setoguchi, Carmine Settembre, John J. Shacka, Ayesha N. Shajahan Haq, Irving M. Shapiro, Shweta Sharma, Hua She, C. K. James Shen, Chiung Chyi Shen, Han Ming Shen, Sanbing Shen, Weili Shen, Rui Sheng, Xianyong Sheng, Zu Hang Sheng, Trevor G. Shepherd, Junyan Shi, Qiang Shi, Qinghua Shi, Yuguang Shi, Shusaku Shibutani, Kenichi Shibuya, Yoshihiro Shidoji, Jeng Jer Shieh, Chwen Ming Shih, Yohta Shimada, Shigeomi Shimizu, Dong Wook Shin, Mari L. Shinohara, Michiko Shintani, Takahiro Shintani, Tetsuo Shioi, Ken Shirabe, Ronit Shiri Sverdlov, Orian Shirihai, Gordon C. Shore, Chih Wen Shu, Deepak Shukla, Andriy A. Sibirny, Valentina Sica, Christina J. Sigurdson, Einar M. Sigurdsson, Puran Singh Sijwali, Beata Sikorska, Wilian A. Silveira, Sandrine Silvente Poirot, Gary A. Silverman, Jan Simak, Thomas Simmet, Anna Katharina Simon, Hans Uwe Simon, Cristiano Simone, Matias Simons, Anne Simonsen, Rajat Singh, Shivendra V. Singh, Shrawan K. Singh, Debasish Sinha, Sangita Sinha, Frank A. Sinicrope, Agnieszka Sirko, Kapil Sirohi, Balindiwe JN Sishi, Annie Sittler, Parco M. Siu, Efthimios Sivridis, Anna Skwarska, Ruth Slack, Iva Slaninová, Nikolai Slavov, Soraya S. Smaili, Keiran SM Smalley, Duncan R. Smith, Stefaan J. Soenen, Scott A. Soleimanpour, Anita Solhaug, Kumaravel Somasundaram, Jin H. Son, Avinash Sonawane, Chunjuan Song, Fuyong Song, Hyun Kyu Song, Ju Xian Song, Wei Song, Kai Y. Soo, Anil K. Sood, Tuck Wah Soong, Virawudh Soontornniyomkij, Maurizio Sorice, Federica Sotgia, David R. Soto Pantoja, Areechun Sotthibundhu, Maria João Sousa, Herman P. Spaink, Paul N. Span, Anne Spang, Janet D. Sparks, Peter G. Speck, Stephen A. Spector, Claudia D. Spies, Wolfdieter Springer, Daret St Clair, Alessandra Stacchiotti, Bart Staels, Michael T. Stang, Daniel T. Starczynowski, Petro Starokadomskyy, Clemens Steegborn, John W. Steele, Leonidas Stefanis, Joan Steffan, Christine M. Stellrecht, Harald Stenmark, Tomasz M. Stepkowski, Stęphan T. Stern, Craig Stevens, Brent R. Stockwell, Veronika Stoka, Zuzana Storchova, Björn Stork, Vassilis Stratoulias, Dimitrios J. Stravopodis, Pavel Strnad, Anne Marie Strohecker, Anna Lena Ström, Per Stromhaug, Jiri Stulik, Yu Xiong Su, Zhaoliang Su, Carlos S. Subauste, Srinivasa Subramaniam, Carolyn M. Sue, Sang Won Suh, Xinbing Sui, Supawadee Sukseree, David Sulzer, Fang Lin Sun, Jiaren Sun, Jun Sun, Shi Yong Sun, Yang Sun, Yi Sun, Yingjie Sun, Vinod Sundaramoorthy, Joseph Sung, Hidekazu Suzuki, Kuninori Suzuki, Naoki Suzuki, Tadashi Suzuki, Yuichiro J. Suzuki, Michele S. Swanson, Charles Swanton, Karl Swärd, Ghanshyam Swarup, Sean T. Sweeney, Paul W. Sylvester, Zsuzsanna Szatmari, Eva Szegezdi, Peter W. Szlosarek, Heinrich Taegtmeyer, Marco Tafani, Emmanuel Taillebourg, Stephen WG Tait, Krisztina Takacs Vellai, Yoshinori Takahashi, Szabolcs Takáts, Genzou Takemura, Nagio Takigawa, Nicholas J. Talbot, Elena Tamagno, Jerome Tamburini, Cai Ping Tan, Lan Tan, Mei Lan Tan, Ming Tan, Yee Joo Tan, Keiji Tanaka, Masaki Tanaka, Daolin Tang, Dingzhong Tang, Guomei Tang, Isei Tanida, Kunikazu Tanji, Bakhos A. Tannous, Jose A. Tapia, Inmaculada Tasset Cuevas, Marc Tatar, Iman Tavassoly, Nektarios Tavernarakis, Allen Taylor, Graham S. Taylor, Gregory A. Taylor, J. Paul Taylor, Mark J. Taylor, Elena V. Tchetina, Andrew R. Tee, Fatima Teixeira Clerc, Sucheta Telang, Tewin Tencomnao, Ba Bie Teng, Ru Jeng Teng, Faraj Terro, Gianluca Tettamanti, Arianne L. Theiss, Anne E. Theron, Kelly Jean Thomas, Marcos P. Thomé, Paul G. Thomes, Andrew Thorburn, Jeremy Thorner, Thomas Thum, Michael Thumm, Teresa LM Thurston, Ling Tian, Andreas Till, Jenny Pan yun Ting, Vladimir I. Titorenko, Lilach Toker, Stefano Toldo, Sharon A. Tooze, Ivan Topisirovic, Maria Lyngaas Torgersen, Liliana Torosantucci, Alicia Torriglia, Maria Rosaria Torrisi, Cathy Tournier, Roberto Towns, Vladimir Trajkovic, Leonardo H. Travassos, Gemma Triola, Durga Nand Tripathi, Daniela Trisciuoglio, Rodrigo Troncoso, Ioannis P. Trougakos, Anita C. Truttmann, Kuen Jer Tsai, Mario P. Tschan, Yi Hsin Tseng, Takayuki Tsukuba, Allan Tsung, Andrey S. Tsvetkov, Shuiping Tu, Hsing Yu Tuan, Marco Tucci, David A. Tumbarello, Boris Turk, Vito Turk, Robin FB Turner, Anders A. Tveita, Suresh C. Tyagi, Makoto Ubukata, Yasuo Uchiyama, Andrej Udelnow, Takashi Ueno, Midori Umekawa, Rika Umemiya Shirafuji, Benjamin R. Underwood, Christian Ungermann, Rodrigo P. Ureshino, Ryo Ushioda, Vladimir N. Uversky, Néstor L. Uzcátegui, Thomas Vaccari, Maria I. Vaccaro, Libuše Váchová, Helin Vakifahmetoglu Norberg, Rut Valdor, Enza Maria Valente, Francois Vallette, Angela M. Valverde, Greet Van den Berghe, Ludo Van Den Bosch, Gijs R. van den Brink, F. Gisou van der Goot, Ida J. van der Klei, Luc JW van der Laan, Wouter G. van Doorn, Marjolein van Egmond, Kenneth L. van Golen, Luc Van Kaer, Menno van Lookeren Campagne, Peter Vandenabeele, Wim Vandenberghe, Ilse Vanhorebeek, Isabel Varela Nieto, M. Helena Vasconcelos, Radovan Vasko, Demetrios G. Vavvas, Ignacio Vega Naredo, Guillermo Velasco, Athanassios D. Velentzas, Panagiotis D. Velentzas, Tibor Vellai, Edo Vellenga, Mikkel Holm Vendelbo, Kartik Venkatachalam, Natascia Ventura, Salvador Ventura, Patrícia ST Veras, Mireille Verdier, Beata G. Vertessy, Andrea Viale, Michel Vidal, Helena LA Vieira, Richard D. Vierstra, Nadarajah Vigneswaran, Neeraj Vij, Miquel Vila, Margarita Villar, Victor H. Villar, Joan Villarroya, Cécile Vindis, Giampietro Viola, Maria Teresa Viscomi, Giovanni Vitale, Dan T. Vogl, Olga V. Voitsekhovskaja, Clarissa von Haefen, Karin von Schwarzenberg, Daniel E. Voth, Valérie Vouret Craviari, Kristina Vuori, Jatin M. Vyas, Christian Waeber, Cheryl Lyn Walker, Mark J. Walker, Jochen Walter, Lei Wan, Xiangbo Wan, Bo Wang, Caihong Wang, Chao Yung Wang, Chengshu Wang, Chenran Wang, Chuangui Wang, Dong Wang, Fen Wang, Fuxin Wang, Guanghui Wang, Hai jie Wang, Haichao Wang, Hong Gang Wang, Hongmin Wang, Horng Dar Wang, Jing Wang, Junjun Wang, Mei Wang, Mei Qing Wang, Pei Yu Wang, Peng Wang, Richard C. Wang, Shuo Wang, Ting Fang Wang, Xian Wang, Xiao jia Wang, Xiao Wei Wang, Xin Wang, Xuejun Wang, Yan Wang, Yanming Wang, Ying Wang, Ying Jan Wang, Yipeng Wang, Yu Wang, Yu Tian Wang, Yuqing Wang, Zhi Nong Wang, Pablo Wappner, Carl Ward, Diane McVey Ward, Gary Warnes, Hirotaka Watada, Yoshihisa Watanabe, Kei Watase, Timothy E. Full Terms, Conditions of access, use can be found at h.t.t.p.:././.w.w.w. t.a.n.d.f.o.n.l.i.n.e. com/action/journalInformation?journalCode=kaup20 Download by: [Alma Mater Studiorum Università di Bologna] Date: 23 September 2016, At: 06:43 Weaver, Colin D. Weekes, Jiwu Wei, Thomas Weide, Conrad C. Weihl, Günther Weindl, Simone Nardin Weis, Longping Wen, Xin Wen, Yunfei Wen, Benedikt Westermann, Cornelia M. Weyand, Anthony R. White, Eileen White, J. Lindsay Whitton, Alexander J. Whitworth, Joëlle Wiels, Franziska Wild, Manon E. Wildenberg, Tom Wileman, Deepti Srinivas Wilkinson, Simon Wilkinson, Dieter Willbold, Chris Williams, Katherine Williams, Peter R. Williamson, Konstanze F. Winklhofer, Steven S. Witkin, Stephanie E. Wohlgemuth, Thomas Wollert, Ernst J. Wolvetang, Esther Wong, G. William Wong, Richard W. Wong, Vincent Kam Wai Wong, Elizabeth A. Woodcock, Karen L. Wright, Chunlai Wu, Defeng Wu, Gen Sheng Wu, Jian Wu, Junfang Wu, Mian Wu, Min Wu, Shengzhou Wu, William KK Wu, Yaohua Wu, Zhenlong Wu, Cristina PR Xavier, Ramnik J. Xavier, Gui Xian Xia, Tian Xia, Weiliang Xia, Yong Xia, Hengyi Xiao, Jian Xiao, Shi Xiao, Wuhan Xiao, Chuan Ming Xie, Zhiping Xie, Zhonglin Xie, Maria Xilouri, Yuyan Xiong, Chuanshan Xu, Congfeng Xu, Feng Xu, Haoxing Xu, Hongwei Xu, Jian Xu, Jianzhen Xu, Jinxian Xu, Liang Xu, Xiaolei Xu, Yangqing Xu, Ye Xu, Zhi Xiang Xu, Ziheng Xu, Yu Xue, Takahiro Yamada, Ai Yamamoto, Koji Yamanaka, Shunhei Yamashina, Shigeko Yamashiro, Bing Yan, Bo Yan, Xianghua Yan, Zhen Yan, Yasuo Yanagi, Dun Sheng Yang, Jin Ming Yang, Liu Yang, Minghua Yang, Pei Ming Yang, Peixin Yang, Qian Yang, Wannian Yang, Wei Yuan Yang, Xuesong Yang, Yi Yang, Ying Yang, Zhifen Yang, Zhihong Yang, Meng Chao Yao, Pamela J. Yao, Xiaofeng Yao, Zhenyu Yao, Zhiyuan Yao, Linda S. Yasui, Mingxiang Ye, Barry Yedvobnick, Behzad Yeganeh, Elizabeth S. Yeh, Patricia L. Yeyati, Fan Yi, Long Yi, Xiao Ming Yin, Calvin K. Yip, Yeong Min Yoo, Young Hyun Yoo, Seung Yong Yoon, Ken Ichi Yoshida, Tamotsu Yoshimori, Ken H. Young, Huixin Yu, Jane J. Yu, Jin Tai Yu, Jun Yu, Li Yu, W. Haung Yu, Xiao Fang Yu, Zhengping Yu, Junying Yuan, Zhi Min Yuan, Beatrice YJT Yue, Jianbo Yue, Zhenyu Yue, David N. Zacks, Eldad Zacksenhaus, Nadia Zaffaroni, Tania Zaglia, Zahra Zakeri, Vincent Zecchini, Jinsheng Zeng, Min Zeng, Qi Zeng, Antonis S. Zervos, Donna D. Zhang, Fan Zhang, Guo Zhang, Guo Chang Zhang, Hao Zhang, Hong Zhang, Hongbing Zhang, Jian Zhang, Jiangwei Zhang, Jianhua Zhang, Jing pu Zhang, Li Zhang, Lin Zhang, Long Zhang, Ming Yong Zhang, Xiangnan Zhang, Xu Dong Zhang, Yan Zhang, Yang Zhang, Yanjin Zhang, Yingmei Zhang, Yunjiao Zhang, Mei Zhao, Wei Li Zhao, Xiaonan Zhao, Yan G. Zhao, Ying Zhao, Yongchao Zhao, Yu xia Zhao, Zhendong Zhao, Zhizhuang J. Zhao, Dexian Zheng, Xi Long Zheng, Xiaoxiang Zheng, Boris Zhivotovsky, Qing Zhong, Guang Zhou Zhou, Guofei Zhou, Huiping Zhou, Shu Feng Zhou, Xu jie Zhou, Hongxin Zhu, Hua Zhu, Wei Guo Zhu, Wenhua Zhu, Xiao Feng Zhu, Yuhua Zhu, Shi Mei Zhuang, Xiaohong Zhuang, Elio Ziparo, Christos E. Zois, Teresa Zoladek, Wei Xing Zong, Antonio Zorzano, Susu M. Zughaier, Life Sciences Institute and Department of Molecular, Cellular, and Developmental Biology and Biological Chemistry, University of Michigan [Ann Arbor], University of Michigan System-University of Michigan System, Tokyo Medical University, The Hebrew University of Jerusalem (HUJ), Mammalian Genetics Unit, Medical Research Council Harwell, University of Occupational and Environmental Health School of Medicine, Partenaires INRAE, University of Toronto, Ben-Gurion University of the Negev (BGU), University of Colorado [Boulder], Cell Death Research & Therapy (CDRT) Lab, Université Catholique de Louvain = Catholic University of Louvain (UCL), University of Vienna [Vienna], Conway Institute of Biomolecular and Biomedical Research and School of Chemical and Bioprocess Engineering, University College Dublin [Dublin] (UCD), Georgetown University, Candiolo Cancer Institute (IRCCS), Centro de Investigacion Biomédica en Red sobre Enfermedades Neurodegenerativas (CIBERNED), Instituto de Salud Carlos III [Madrid] (ISC), Ikerbasque - Basque Foundation for Science, Cleveland Clinic, Sidney Kimmel Cancer Center, Jefferson (Philadelphia University + Thomas Jefferson University), Universidad de Buenos Aires (UBA), Department of Clinical Neurosciences, University College of London [London] (UCL)-Institute of Neurology, Thérapie génique, Génomique et Epigénomique (U 1169), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris-Saclay, Consiglio Nazionale delle Ricerche (CNR), Osaka University, Department of Experimental Medicine and Public Health, University of Camerino, University of Barcelona, Institut Universitaire d'Hématologie (IUH), Université Paris Diderot - Paris 7 (UPD7), Génomique Fonctionnelle des Tumeurs Solides (U1162), Université Paris 13 (UP13)-Université Paris Diderot - Paris 7 (UPD7)-Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), Université Paris Descartes - Paris 5 (UPD5), Institut National de la Santé et de la Recherche Médicale (INSERM), Department of Physics, Technical University of Denmark [Lyngby] (DTU), University of Zaragoza - Universidad de Zaragoza [Zaragoza], Department of Pharmaco-Biology, Università della Calabria [Arcavacata di Rende] (Unical), Fondation Universitaire Notre Dame de la Paix (FUNDP), Facultés Universitaires Notre Dame de la Paix (FUNDP), USC Neuromuscular Center, Department of Neurology, University of Southern California (USC), Physiopathologie de la survie et de la mort cellulaire et infection virale, Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-IFR50-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Côte d'Azur (UCA), Giannina Gaslini Institute, Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UR226, Inner Mongolia Agricultural University (IMAU), Politecnico di Milano [Milan] (POLIMI), Department of Civil, Geological, and Mining Engineering, École Polytechnique de Montréal (EPM)-NSERC Industrial Chair on Drinking Water, Institut de Recherche sur le Cancer et le Vieillissement (IRCAN), COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015 - 2019) (COMUE UCA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Côte d'Azur (UCA), Department of Molecular Medicine, Institut Pasteur, Fondation Cenci Bolognetti - Istituto Pasteur Italia, Fondazione Cenci Bolognetti, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Physiopathologie du système nerveux central - Institut François Magendie, Université Bordeaux Segalen - Bordeaux 2-IFR8-Institut National de la Santé et de la Recherche Médicale (INSERM), Laboratory of Experimental Virology - Department of Medical Microbiology [Amsterdam, The Netherlands], Academic Medical Center - Academisch Medisch Centrum [Amsterdam] (AMC), University of Amsterdam [Amsterdam] (UvA)-University of Amsterdam [Amsterdam] (UvA)-Center for Infection and Immunity Amsterdam - CINIMA [Amsterdam, The Netherlands], Centre de résonance magnétique biologique et médicale (CRMBM), Aix Marseille Université (AMU)-Assistance Publique - Hôpitaux de Marseille (APHM)-Centre National de la Recherche Scientifique (CNRS), Dynamique des interactions membranaires normales et pathologiques (DIMNP), Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université Montpellier 1 (UM1), Department of Internal Medicine, Hospital Universitario Infanta Sofía, Celullar and Molecular Medicine, Infection bactérienne, inflammation, et carcinogenèse digestive, University of Edinburgh, Unité de Nutrition Humaine (UNH), Institut National de la Recherche Agronomique (INRA)-Université d'Auvergne - Clermont-Ferrand I (UdA)-Clermont Université, Faculty of Engineering and Natural Sciences, Sabanci University [Istanbul], University of Science and Technology Beijing [Beijing] (USTB), Centre for Computational and Systems Biology (COSBI), Sun Yat-Sen University [Guangzhou] (SYSU), Dynamique Musculaire et Métabolisme (DMEM), Université de Montpellier (UM)-Institut National de la Recherche Agronomique (INRA), CAS Institute of Oceanology (IOCAS), Chinese Academy of Sciences [Beijing] (CAS), Polytechnic University of Marche, Centre de Recherche en Cancérologie de Marseille (CRCM), Aix Marseille Université (AMU)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Cell Biology, Physiology and Immunology, Department of Experimental Oncology and Molecular Medicine, Fondazione IRCCS Istituto Nazionale dei Tumori, University of Pisa - Università di Pisa, Dulbecco Telethon Institute/Department of Biology, Fondation de Recherche Cancer et Sang - Hôpital Kirchberg, China University of Petroleum, Unilever R&D, University of Queensland [Brisbane], University of Minnesota [Twin Cities] (UMN), University of Minnesota System, Laboratoire de Génie des Procédés et Matériaux - EA 4038 (LGPM), CentraleSupélec, Institute for Advanced Study [Tsinghua], Tsinghua University [Beijing] (THU), Nanayang Technological University (NTU), Nanayang Technological University, Institute of Microelectronics [Beijing] (IMETU), Laboratoire de photonique et de nanostructures (LPN), Centre National de la Recherche Scientifique (CNRS), Institut de biologie moléculaire des plantes (IBMP), Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), Northwestern Polytechnical University [Xi'an] (NPU), University of Pennsylvania [Philadelphia], City University of Hong Kong (CityU), Department of Mathematics [Berkeley], University of California [Berkeley], University of California-University of California, ZJU-ENS Joint Laboratory of Medicinal Chemistry, Zhejiang University, University of Cincinnati (UC), Réponses immunes : régulation et développement, Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), The University of New Mexico [Albuquerque], Centre de Recherche de l'Institut du Cerveau et de la Moelle épinière (CRICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Dipartimento di Scienze Biomediche, Università degli Studi di Modena e Reggio Emilia (UNIMORE), Department of Experimental Medicine and Oncology, University of Turin, Institut de Génomique Fonctionnelle (IGF), Université de Montpellier (UM)-Université Montpellier 1 (UM1)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Montpellier 2 - Sciences et Techniques (UM2)-Centre National de la Recherche Scientifique (CNRS), CNV, University of Valparaiso, Université Paris 1 Panthéon-Sorbonne - UFR d'Arts plastiques et sciences de l'art (UP1 UFR04), Université Paris 1 Panthéon-Sorbonne (UP1), Department of General, Visceral and Vascular Surgery [Jena], Friedrich-Schiller-Universität Jena, Récepteurs nucléaires, maladies cardiovasculaires et diabète - U 1011 (RNMCD), Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille)-Institut National de la Santé et de la Recherche Médicale (INSERM), Réseau International des Instituts Pasteur (RIIP), Macrophages et Développement de l’Immunité, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS), Immunobiologie des Cellules Dendritiques, Institut Pasteur [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), Centre d'infectiologie Necker-Pasteur [CHU Necker], Institut Pasteur [Paris]-CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Institut Pasteur [Paris], Trafic membranaire et Division cellulaire - Membrane Traffic and Cell Division, Centre National de la Recherche Scientifique (CNRS)-Institut Pasteur [Paris], Cibles thérapeutiques, formulation et expertise pré-clinique du médicament (CITHEFOR), Université de Lorraine (UL), This work was supported in part by the National Institutes of Health, including Public Health Service grant GM053396 to D.J.K. Due to space and other limitations, it is not possible to include all other sources of financial support., In a rapidly expanding and highly dynamic field such as autophagy, it is possible that some authors who should have been included on this article have been missed. D.J.K. extends his apologies to researchers in the field of autophagy who, due to oversight or any other reason, could not be included on this article. I also note that two of our colleagues on this manuscript have passed away: Arlette Darfeuille-Michaud and Wouter van Doorn., Life Sciences Institute [Ann Arbor, MI, USA], Laboratoire de Biogenèse Membranaire, CNRS UMR 5200, Université de Bordeaux, INRA Bordeaux Aquitaine, Villenave d'Ornon, France., Amelio, Ivano [0000-0002-9126-5391], Beale, Rupert [0000-0002-6705-8560], Floto, Andres [0000-0002-2188-5659], Frezza, Christian [0000-0002-3293-7397], Ktistakis, Nicholas [0000-0001-9397-2914], Melino, Gerry [0000-0001-9428-5972], Narita, Masashi [0000-0001-7764-577X], Rubinsztein, David [0000-0001-5002-5263], Underwood, Benjamin [0000-0003-3427-9487], Whitworth, Alex [0000-0002-1154-6629], Apollo - University of Cambridge Repository, Université Catholique de Louvain, Facultés Universitaires Notre-Dame de la Paix, Institut National de la Santé et de la Recherche Médicale (INSERM)-IFR50-Université Nice Sophia Antipolis (... - 2019) (UNS), Université Côte d'Azur (UCA)-Université Côte d'Azur (UCA), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Nice Sophia Antipolis (... - 2019) (UNS), Department of Clinical and Molecular Medicine, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Università degli Studi di Roma 'La Sapienza' [Rome], Université Montpellier 1 (UM1)-Université Montpellier 2 - Sciences et Techniques (UM2)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Université Côte d'Azur (UCA)-Université Côte d'Azur (UCA)-IFR50-Institut National de la Santé et de la Recherche Médicale (INSERM), Unité de Nutrition Humaine - Clermont Auvergne (UNH), Institut National de la Recherche Agronomique (INRA)-Université Clermont Auvergne (UCA), Sun Yat-Sen University (SYSU), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Aix Marseille Université (AMU), University of Minnesota [Twin Cities], Tsinghua University [Beijing], Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Université Panthéon-Sorbonne - UFR d'Arts plastiques et sciences de l'art (UP1 UFR04), Université Panthéon-Sorbonne (UP1), Récepteurs nucléaires, maladies cardiovasculaires et diabète (EGID), Université de Lille, Droit et Santé-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), CHU Necker - Enfants Malades [AP-HP], Trafic membranaire et Division cellulaire, Institut de Biologie du Développement de Marseille (IBDM), Aix Marseille Université (AMU)-Collège de France (CdF)-Centre National de la Recherche Scientifique (CNRS), Klionsky, D., Abdelmohsen, K., Abe, A., Abedin, M., Abeliovich, H., Acevedo Arozena, A., Adachi, H., Adams, C., Adams, P., Adeli, K., Adhihetty, P., Adler, S., Agam, G., Agarwal, R., Aghi, M., Agnello, M., Agostinis, P., Aguilar, P., Aguirre-Ghiso, J., Airoldi, E., Ait-Si-Ali, S., Akematsu, T., Akporiaye, E., Al-Rubeai, M., Albaiceta, G., Albanese, C., Albani, D., Albert, M., Aldudo, J., Algül, H., Alirezaei, M., Alloza, I., Almasan, A., Almonte-Beceril, M., Alnemri, E., Alonso, C., Altan-Bonnet, N., Altieri, D., Alvarez, S., Alvarez-Erviti, L., Alves, S., Amadoro, G., Amano, A., Amantini, C., Ambrosio, S., Amelio, I., Amer, A., Amessou, M., Amon, A., An, Z., Anania, F., Andersen, S., Andley, U., Andreadi, C., Andrieu-Abadie, N., Anel, A., Ann, D., Anoopkumar-Dukie, S., Antonioli, M., Aoki, H., Apostolova, N., Aquila, S., Aquilano, K., Araki, K., Arama, E., Aranda, A., Araya, J., Arcaro, A., Arias, E., Arimoto, H., Ariosa, A., Armstrong, J., Arnould, T., Arsov, I., Asanuma, K., Askanas, V., Asselin, E., Atarashi, R., Atherton, S., Atkin, J., Attardi, L., Auberger, P., Auburger, G., Aurelian, L., Autelli, R., Avagliano, L., Avantaggiati, M., Avrahami, L., Awale, S., Azad, N., Bachetti, T., Backer, J., Bae, D., Bae, J., Bae, O., Bae, S., Baehrecke, E., Baek, S., Baghdiguian, S., Bagniewska-Zadworna, A., Bai, H., Bai, J., Bai, X., Bailly, Y., Balaji, K., Balduini, W., Ballabio, A., Balzan, R., Banerjee, R., Bánhegyi, G., Bao, H., Barbeau, B., Barrachina, M., Barreiro, E., Bartel, B., Bartolomé, A., Bassham, D., Bassi, M., Bast, R., Basu, A., Batista, M., Batoko, H., Battino, M., Bauckman, K., Baumgarner, B., Bayer, K., Beale, R., Beaulieu, J., Beck, G., Becker, C., Beckham, J., Bédard, P., Bednarski, P., Begley, T., Behl, C., Behrends, C., Behrens, G., Behrns, K., Bejarano, E., Belaid, A., Belleudi, F., Bénard, G., Berchem, G., Bergamaschi, D., Bergami, M., Berkhout, B., Berliocchi, L., Bernard, A., Bernard, M., Bernassola, F., Bertolotti, A., Bess, A., Besteiro, S., Bettuzzi, S., Bhalla, S., Bhattacharyya, S., Bhutia, S., Biagosch, C., Bianchi, M., Biard-Piechaczyk, M., Billes, V., Bincoletto, C., Bingol, B., Bird, S., Bitoun, M., Bjedov, I., Blackstone, C., Blanc, L., Blanco, G., Blomhoff, H., Boada-Romero, E., Böckler, S., Boes, M., Boesze-Battaglia, K., Boise, L., Bolino, A., Boman, A., Bonaldo, P., Bordi, M., Bosch, J., Botana, L., Botti, J., Bou, G., Bouché, M., Bouchecareilh, M., Boucher, M., Boulton, M., Bouret, S., Boya, P., Boyer-Guittaut, M., Bozhkov, P., Brady, N., Braga, V., Brancolini, C., Braus, G., Bravo-San Pedro, J., Brennan, L., Bresnick, E., Brest, P., Bridges, D., Bringer, M., Brini, M., Brito, G., Brodin, B., Brookes, P., Brown, E., Brown, K., Broxmeyer, H., Bruhat, A., Brum, P., Brumell, J., Brunetti-Pierri, N., Bryson-Richardson, R., Buch, S., Buchan, A., Budak, H., Bulavin, D., Bultman, S., Bultynck, G., Bumbasirevic, V., Burelle, Y., Burke, R., Burmeister, M., Bütikofer, P., Caberlotto, L., Cadwell, K., Cahova, M., Cai, D., Cai, J., Cai, Q., Calatayud, S., Camougrand, N., Campanella, M., Campbell, G., Campbell, M., Campello, S., Candau, R., Caniggia, I., Cantoni, L., Cao, L., Caplan, A., Caraglia, M., Cardinali, C., Cardoso, S., Carew, J., Carleton, L., Carlin, C., Carloni, S., Carlsson, S., Carmona-Gutierrez, D., Carneiro, L., Carnevali, O., Carra, S., Carrier, A., Carroll, B., Casas, C., Casas, J., Cassinelli, G., Castets, P., Castro-Obregon, S., Cavallini, G., Ceccherini, I., Cecconi, F., Cederbaum, A., Ceña, V., Cenci, S., Cerella, C., Cervia, D., Cetrullo, S., Chaachouay, H., Chae, H., Chagin, A., Chai, C., Chakrabarti, G., Chamilos, G., Chan, E., Chan, M., Chandra, D., Chandra, P., Chang, C., Chang, R., Chang, T., Chatham, J., Chatterjee, S., Chauhan, S., Che, Y., Cheetham, M., Cheluvappa, R., Chen, C., Chen, G., Chen, H., Chen, J., Chen, M., Chen, P., Chen, Q., Chen, S., Chen, W., Chen, X., Chen, Y., Chen, Z., Cheng, A., Cheng, C., Cheng, H., Cheong, H., Cherry, S., Chesney, J., Cheung, C., Chevet, E., Chi, H., Chi, S., Chiacchiera, F., Chiang, H., Chiarelli, R., Chiariello, M., Chieppa, M., Chin, L., Chiong, M., Chiu, G., Cho, D., Cho, S., Cho, W., Cho, Y., Choi, A., Choi, E., Choi, J., Choi, M., Choi, S., Chou, T., Chouaib, S., Choubey, D., Choubey, V., Chow, K., Chowdhury, K., Chu, C., Chuang, T., Chun, T., Chung, H., Chung, T., Chung, Y., Chwae, Y., Cianfanelli, V., Ciarcia, R., Ciechomska, I., Ciriolo, M., Cirone, M., Claerhout, S., Clague, M., Clària, J., Clarke, P., Clarke, R., Clementi, E., Cleyrat, C., Cnop, M., Coccia, E., Cocco, T., Codogno, P., Coers, J., Cohen, E., Colecchia, D., Coletto, L., Coll, N., Colucci-Guyon, E., Comincini, S., Condello, M., Cook, K., Coombs, G., Cooper, C., Cooper, J., Coppens, I., Corasaniti, M., Corazzari, M., Corbalan, R., Corcelle-Termeau, E., Cordero, M., Corral-Ramos, C., Corti, O., Cossarizza, A., Costelli, P., Costes, S., Cotman, S., Coto-Montes, A., Cottet, S., Couve, E., Covey, L., Cowart, L., Cox, J., Coxon, F., Coyne, C., Cragg, M., Craven, R., Crepaldi, T., Crespo, J., Criollo, A., Crippa, V., Cruz, M., Cuervo, A., Cuezva, J., Cui, T., Cutillas, P., Czaja, M., Czyzyk-Krzeska, M., Dagda, R., Dahmen, U., Dai, C., Dai, W., Dai, Y., Dalby, K., Dalla Valle, L., Dalmasso, G., D'Amelio, M., Damme, M., Darfeuille-Michaud, A., Dargemont, C., Darley-Usmar, V., Dasarathy, S., Dasgupta, B., Dash, S., Dass, C., Davey, H., Davids, L., Dávila, D., Davis, R., Dawson, T., Dawson, V., Daza, P., de Belleroche, J., de Figueiredo, P., de Figueiredo, R., de la Fuente, J., De Martino, L., De Matteis, A., De Meyer, G., De Milito, A., De Santi, M., de Souza, W., De Tata, V., De Zio, D., Debnath, J., Dechant, R., Decuypere, J., Deegan, S., Dehay, B., Del Bello, B., Del Re, D., Delage-Mourroux, R., Delbridge, L., Deldicque, L., Delorme-Axford, E., Deng, Y., Dengjel, J., Denizot, M., Dent, P., Der, C., Deretic, V., Derrien, B., Deutsch, E., Devarenne, T., Devenish, R., Di Bartolomeo, S., Di Daniele, N., Di Domenico, F., Di Nardo, A., Di Paola, S., Di Pietro, A., Di Renzo, L., Diantonio, A., Díaz-Araya, G., Díaz-Laviada, I., Diaz-Meco, M., Diaz-Nido, J., Dickey, C., Dickson, R., Diederich, M., Digard, P., Dikic, I., Dinesh-Kumar, S., Ding, C., Ding, W., Ding, Z., Dini, L., Distler, J., Diwan, A., Djavaheri-Mergny, M., Dmytruk, K., Dobson, R., Doetsch, V., Dokladny, K., Dokudovskaya, S., Donadelli, M., Dong, X., Dong, Z., Donohue, T., Doran, K., D'Orazi, G., Dorn, G., Dosenko, V., Dridi, S., Drucker, L., Du, J., Du, L., du Toit, A., Dua, P., Duan, L., Duann, P., Dubey, V., Duchen, M., Duchosal, M., Duez, H., Dugail, I., Dumit, V., Duncan, M., Dunlop, E., Dunn, W., Dupont, 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Berghe, G, Van Den Bosch, L, van den Brink, Gr, van der Goot, Fg, van der Klei, Ij, van der Laan, Lj, van Doorn, Wg, van Egmond, M, van Golen, Kl, Van Kaer, L, van Lookeren Campagne, M, Vandenabeele, P, Vandenberghe, W, Vanhorebeek, I, Varela Nieto, I, Vasconcelos, Mh, Vasko, R, Vavvas, Dg, Vega Naredo, I, Velasco, G, Velentzas, Ad, Velentzas, Pd, Vellai, T, Vellenga, E, Vendelbo, Mh, Venkatachalam, K, Ventura, N, Ventura, S, Veras, P, Verdier, M, Vertessy, Bg, Viale, A, Vidal, M, Vieira, H, Vierstra, Rd, Vigneswaran, N, Vij, N, Vila, M, Villar, M, Villar, Vh, Villarroya, J, Vindis, C, Viola, G, Viscomi, Mt, Vitale, G, Vogl, Dt, Voitsekhovskaja, Ov, von Haefen, C, von Schwarzenberg, K, Voth, De, Vouret Craviari, V, Vuori, K, Vyas, Jm, Waeber, C, Walker, Cl, Walker, Mj, Walter, J, Wan, L, Wan, X, Wang, B, Wang, C, Wang, Cy, Wang, D, Wang, F, Wang, G, Wang, Hj, Wang, H, Wang, Hg, Wang, Hd, Wang, J, Wang, M, Wang, Mq, Wang, Py, Wang, P, Wang, Rc, Wang, S, Wang, Tf, Wang, X, Wang, Xj, 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Yang, W, Yang, Wy, Yang, X, Yang, Y, Yang, Z, Yao, Mc, Yao, Pj, Yao, X, Yao, Z, Yasui, L, Ye, M, Yedvobnick, B, Yeganeh, B, Yeh, E, Yeyati, Pl, Yi, F, Yi, L, Yin, Xm, Yip, Ck, Yoo, Ym, Yoo, Yh, Yoon, Sy, Yoshida, Ki, Yoshimori, T, Young, Kh, Yu, H, Yu, Jj, Yu, Jt, Yu, J, Yu, L, Yu, Wh, Yu, Xf, Yu, Z, Yuan, J, Yuan, Zm, Yue, By, Yue, J, Yue, Z, Zacks, Dn, Zacksenhaus, E, Zaffaroni, N, Zaglia, T, Zakeri, Z, Zecchini, V, Zeng, J, Zeng, M, Zeng, Q, Zervos, A, Zhang, Dd, Zhang, F, Zhang, G, Zhang, Gc, Zhang, H, Zhang, J, Zhang, Jp, Zhang, L, Zhang, My, Zhang, X, Zhang, Xd, Zhang, Y, Zhao, M, Zhao, Wl, Zhao, X, Zhao, Yg, Zhao, Y, Zhao, Yx, Zhao, Z, Zhao, Zj, Zheng, D, Zheng, Xl, Zheng, X, Zhivotovsky, B, Zhong, Q, Zhou, Gz, Zhou, G, Zhou, H, Zhou, Sf, Zhou, Xj, Zhu, H, Zhu, Wg, Zhu, W, Zhu, Xf, Zhu, Y, Zhuang, Sm, Zhuang, X, Ziparo, E, Zois, Ce, Zoladek, T, Zong, Wx, Zorzano, A, Zughaier, Sm, AII - Amsterdam institute for Infection and Immunity, Medical Microbiology and Infection Prevention, Other departments, CCA -Cancer Center Amsterdam, Center of Experimental and Molecular Medicine, Radiotherapy, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, Medical Biochemistry, ANS - Cellular & Molecular Mechanisms, Cell Biology and Histology, Gastroenterology and Hepatology, Tytgat Institute for Liver and Intestinal Research, Daniel J Klionsky, Kotb Abdelmohsen, Akihisa Abe, Md Joynal Abedin, Hagai Abeliovich, Abraham Acevedo Arozena, Hiroaki Adachi, Christopher M Adam, Peter D Adam, Khosrow Adeli, Peter J Adhihetty, Sharon G Adler, Galila Agam, Rajesh Agarwal, Manish K Aghi, Maria Agnello, Patrizia Agostini, Patricia V Aguilar, Julio Aguirre-Ghiso, Edoardo M Airoldi, Slimane Ait-Si-Ali, Takahiko Akematsu, Emmanuel T Akporiaye, Mohamed Al-Rubeai, Guillermo M Albaiceta, Chris Albanese, Diego Albani, Matthew L Albert, Jesus Aldudo, Hana Algül, Mehrdad Alirezaei, Iraide Alloza, Alexandru Almasan, Maylin Almonte-Beceril, Emad S Alnemri, Covadonga Alonso, Nihal Altan-Bonnet, Dario C Altieri, Silvia Alvarez, Lydia Alvarez- Erviti, Sandro Alve, Giuseppina Amadoro, Atsuo Amano, Consuelo Amantini, Santiago Ambrosio, Ivano Amelio, Amal O Amer, Mohamed Amessou, Angelika Amon, Zhenyi An, Frank A Anania, Stig U Andersen, Usha P Andley, Catherine K Andreadi, Nathalie Andrieu- Abadie, Alberto Anel, David K Ann, Shailendra Anoopkumar-Dukie, Manuela Antonioli, Hiroshi Aoki, Nadezda Apostolova, Saveria Aquila, Katia Aquilano, Koichi Araki, Eli Arama, Agustin Aranda, Jun Araya, Alexandre Arcaro, Esperanza Aria, Hirokazu Arimoto, Aileen R Ariosa, Jane L Armstrong, Thierry Arnould, Ivica Arsov, Katsuhiko Asanuma, Valerie Askana, Eric Asselin, Ryuichiro Atarashi, Sally S Atherton, Julie D Atkin, Laura D Attardi, Patrick Auberger, Georg Auburger, Laure Aurelian, Riccardo Autelli, Laura Avagliano, Maria Laura Avantaggiati, Limor Avrahami, Suresh Awale, Neelam Azad, Tiziana Bachetti, Jonathan M Backer, Dong- Hun Bae, Jae-sung Bae, Ok-Nam Bae, Soo Han Bae, Eric H Baehrecke, Seung-Hoon Baek, Stephen Baghdiguian, Agnieszka Bagniewska-Zadworna, Hua Bai, Jie Bai, Xue-Yuan Bai, Yannick Bailly, Kithiganahalli Narayanaswamy Balaji, Walter Balduini, Andrea Ballabio, Rena Balzan, Rajkumar Banerjee, Gábor Bánhegyi, Haijun Bao, Benoit Barbeau, Maria D Barrachina, Esther Barreiro, Bonnie Bartel, Alberto Bartolomé, Diane C Bassham, Maria Teresa Bassi, Robert C Bast Jr, Alakananda Basu, Maria Teresa Batista, Henri Batoko, Maurizio Battino, Kyle Bauckman, Bradley L Baumgarner, K Ulrich Bayer, Rupert Beale, Jean-François Beaulieu, George R. Beck Jr, Christoph Becker, J David Beckham, Pierre-André Bédard, Patrick J Bednarski, Thomas J Begley, Christian Behl, Christian Behrend, Georg MN Behren, Kevin E Behrn, Eloy Bejarano, Amine Belaid, Francesca Belleudi, Giovanni Bénard, Guy Berchem, Daniele Bergamaschi, Matteo Bergami, Ben Berkhout, Laura Berliocchi, Amélie Bernard, Monique Bernard, Francesca Bernassola, Anne Bertolotti, Amanda S Be, Sébastien Besteiro, Saverio Bettuzzi, Savita Bhalla, Shalmoli Bhattacharyya, Sujit K Bhutia, Caroline Biagosch, Michele Wolfe Bianchi, Martine Biard-Piechaczyk, Viktor Bille, Claudia Bincoletto, Baris Bingol, Sara W Bird, Marc Bitoun, Ivana Bjedov, Craig Blackstone, Lionel Blanc, Guillermo A Blanco, Heidi Kiil Blomhoff, Emilio Boada-Romero, Stefan Böckler, Marianne Boe, Kathleen Boesze-Battaglia, Lawrence H Boise, Alessandra Bolino, Andrea Boman, Paolo Bonaldo, Matteo Bordi, Jürgen Bosch, Luis M Botana, Joelle Botti, German Bou, Marina Bouché, Marion Bouchecareilh, Marie- Josée Boucher, Michael E Boulton, Sebastien G Bouret, Patricia Boya, Michaël Boyer-Guittaut, Peter V Bozhkov, Nathan Brady, Vania MM Braga, Claudio Brancolini, Gerhard H Brau, José M Bravo-San Pedro, Lisa A Brennan, Emery H Bresnick, Patrick Brest, Dave Bridge, MarieAgnès Bringer, Marisa Brini, Glauber C Brito, Bertha Brodin, Paul S Brooke, Eric J Brown, Karen Brown, Hal E Broxmeyer, Alain Bruhat, Patricia Chakur Brum, John H Brumell, Nicola Brunetti-Pierri, Robert J Bryson-Richardson, Shilpa Buch, Alastair M Buchan, Hikmet Budak, Dmitry V Bulavin, Scott J Bultman, Geert Bultynck, Vladimir Bumbasirevic, Yan Burelle, Robert E Burke, Margit Burmeister, Peter Bütikofer, Laura Caberlotto, Ken Cadwell, Monika Cahova, Dongsheng Cai, Jingjing Cai, Qian Cai, Sara Calatayud, Nadine Camougrand, Michelangelo Campanella, Grant R Campbell, Matthew Campbell, Silvia Campello, Robin Candau, Isabella Caniggia, Lavinia Cantoni, Lizhi Cao, Allan B Caplan, Michele Caraglia, Claudio Cardinali, Sandra Morais Cardoso, Jennifer S Carew, Laura A Carleton, Cathleen R Carlin, Silvia Carloni, Sven R Carlsson, Didac Carmona-Gutierrez, Leticia AM Carneiro, Oliana Carnevali, Serena Carra, Alice Carrier, Bernadette Carroll, Caty Casa, Josefina Casa, Giuliana Cassinelli, Perrine Castet, Susana Castro-Obregon, Gabriella Cavallini, Isabella Ceccherini, Francesco Cecconi, Arthur I Cederbaum, Valentín Ceña, Simone Cenci, Claudia Cerella, Davide Cervia, Silvia Cetrullo, Hassan Chaachouay, Han-Jung Chae, Andrei S Chagin, Chee-Yin Chai, Gopal Chakrabarti, Georgios Chamilo, Edmond YW Chan, Matthew TV Chan, Dhyan Chandra, Pallavi Chandra, Chih-Peng Chang, Raymond Chuen-Chung Chang, Ta Yuan Chang, John C Chatham, Saurabh Chatterjee, Santosh Chauhan, Yongsheng Che, Michael E Cheetham, Rajkumar Cheluvappa, Chun-Jung Chen, Gang Chen, Guang-Chao Chen, Guoqiang Chen, Hongzhuan Chen, Jeff W Chen, Jian-Kang Chen, Min Chen, Mingzhou Chen, Peiwen Chen, Qi Chen, Quan Chen, Shang- Der Chen, Si Chen, Steve S-L Chen, Wei Chen, Wei-Jung Chen, Wen Qiang Chen, Wenli Chen, Xiangmei Chen, Yau-Hung Chen, Ye-Guang Chen, Yin Chen, Yingyu Chen, Yongshun Chen, Yu- Jen Chen, Yue-Qin Chen, Yujie Chen, Zhen Chen, Zhong Chen, Alan Cheng, Christopher HK Cheng, Hua Cheng, Heesun Cheong, Sara Cherry, Jason Chesney, Chun Hei Antonio Cheung, Eric Chevet, Hsiang Cheng Chi, Sung-Gil Chi, Fulvio Chiacchiera, Hui-Ling Chiang, Roberto Chiarelli, Mario Chiariello, Marcello Chieppa, Lih-Shen Chin, Mario Chiong, Gigi NC Chiu, Dong-Hyung Cho, Ssang-Goo Cho, William C Cho, Yong-Yeon Cho, Young-Seok Cho, Augustine MK Choi, Eui-Ju Choi, Eun-Kyoung Choi, Jayoung Choi, Mary E Choi, Seung-Il Choi, Tsui-Fen Chou, Salem Chouaib, Divaker Choubey, Vinay Choubey, Kuan-Chih Chow, Kamal Chowdhury, Charleen T Chu, Tsung-Hsien Chuang, Taehoon Chun, Hyewon Chung, Taijoon Chung, Yuen-Li Chung, Yong-Joon Chwae, Valentina Cianfanelli, Roberto Ciarcia, Iwona A Ciechomska, Maria Rosa Ciriolo, Mara Cirone, Sofie Claerhout, Michael J Clague, Joan Clària, 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Leopold Eckhart, Charles L Edelstein, Aimee L Edinger, Ludwig Eichinger, Tobias Eisenberg, Avital Eisenberg-Lerner, N Tony Eissa, Wafik S El-Deiry, Victoria El-Khoury, Zvulun Elazar, Hagit Eldar-Finkelman, Chris JH Elliott, Enzo Emanuele, Urban Emmenegger, Nikolai Engedal, Anna-Mart Engelbrecht, Simone Engelender, Jorrit M Enserink, Ralf Erdmann, Jekaterina Erenpreisa, Rajaraman Eri, Jason L Eriksen, Andreja Erman, Ricardo Escalante, Eeva- Liisa Eskelinen, Lucile Espert, Lorena Esteban-Martínez, Thomas J Evan, Mario Fabri, Gemma Fabria, Cinzia Fabrizi, Antonio Facchiano, Nils J Færgeman, Alberto Faggioni, W Douglas Fairlie, Chunhai Fan, Daping Fan, Jie Fan, Shengyun Fang, Manolis Fanto, Alessandro Fanzani, Thomas Farka, Mathias Faure, Francois B Favier, Howard Fearnhead, Massimo Federici, Erkang Fei, Tania C Felizardo, Hua Feng, Yibin Feng, Yuchen Feng, Thomas A Ferguson, Álvaro F Fernández, Maite G Fernandez-Barrena, Jose C Fernandez-Checa, Arsenio Fernández-López, Martin E 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Or Kakhlon, Manjula Kalia, Dhan V Kalvakolanu, Yoshiaki Kamada, Konstantinos Kamba, Vitaliy O Kaminskyy, Harm H Kampinga, Mustapha Kandouz, Chanhee Kang, Rui Kang, Tae-Cheon Kang, Tomotake Kanki, Thirumala- Devi Kanneganti, Haruo Kanno, Anumantha G Kanthasamy, Marc Kantorow, Maria Kaparakis- Liasko, Orsolya Kapuy, Vassiliki Karantza, Md Razaul Karim, Parimal Karmakar, Arthur Kaser, Susmita Kaushik, Thomas Kawula, A Murat Kaynar, Po-Yuan Ke, Zun-Ji Ke, John H Kehrl, Kate E Keller, Jongsook Kim Kemper, Anne K Kenworthy, Oliver Kepp, Andreas Kern, Santosh Kesari, David Kessel, Robin Ketteler, Isis do Carmo Kettelhut, Bilon Khambu, Muzamil Majid Khan, Vinoth KM Khandelwal, Sangeeta Khare, Juliann G Kiang, Amy A Kiger, Akio Kihara, Arianna L Kim, Cheol Hyeon Kim, Deok Ryong Kim, Do-Hyung Kim, Eung Kweon Kim, Hye Young Kim, Hyung-Ryong Kim, Jae-Sung Kim, Jeong Hun Kim, Jin Cheon Kim, Jin Hyoung Kim, Kwang Woon Kim, Michael D Kim, Moon-Moo Kim, Peter K Kim, Seong Who Kim, Soo-Youl Kim, 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Moscat, Pope L Moseley, Serge Mostowy, Elisa Motori, Denis Mottet, Jeremy C Mottram, Charbel E-H Moussa, Vassiliki E Mpakou, Hasan Mukhtar, Jean M Mulcahy Levy, Sylviane Muller, Raquel Muñoz-Moreno, Cristina Muñoz-Pinedo, Christian Münz, Maureen E Murphy, James T Murray, Aditya Murthy, Indira U Mysorekar, Ivan R Nabi, Massimo Nabissi, Gustavo A Nader, Yukitoshi Nagahara, Yoshitaka Nagai, Kazuhiro Nagata, Anika Nagelkerke, Péter Nagy, Samisubbu R Naidu, Sreejayan Nair, Hiroyasu Nakano, Hitoshi Nakatogawa, Meera Nanjundan, Gennaro Napolitano, Naweed I Naqvi, Roberta Nardacci, Derek P Narendra, Masashi Narita, Anna Chiara Nascimbeni, Ramesh Natarajan, Luiz C Navegante, Steffan T Nawrocki, Taras Y Nazarko, Volodymyr Y Nazarko, Thomas Neill, Luca M Neri, Mihai G Netea, Romana T Netea-Maier, Bruno M Neve, Paul A Ney, Ioannis P Nezi, Hang TT Nguyen, Huu Phuc Nguyen, Anne-Sophie Nicot, Hilde Nilsen, Per Nilsson, Mikio Nishimura, Ichizo Nishino, Mireia Niso-Santano, Hua Niu, Ralph A Nixon, Vincent CO Njar, Takeshi Noda, Angelika A Noegel, Elsie Magdalena Nolte, Erik Norberg, Koenraad K Norga, Sakineh Kazemi Noureini, Shoji Notomi, Lucia Notterpek, Karin Nowikovsky, Nobuyuki Nukina, Thorsten Nürnberger, Valerie B O'Donnell, Tracey O'Donovan, Peter J O'Dwyer, Ina Oehme, Clara L Oeste, Michinaga Ogawa, Besim Ogretmen, Yuji Ogura, Young J Oh, Masaki Ohmuraya, Takayuki Ohshima, Rani Ojha, Koji Okamoto, Toshiro Okazaki, F Javier Oliver, Karin Ollinger, Stefan Olsson, Daniel P Orban, Paulina Ordonez, Idil Orhon, Laszlo Orosz, Eyleen J O'Rourke, Helena Orozco, Angel L Ortega, Elena Ortona, Laura D Osellame, Junko Oshima, Shigeru Oshima, Heinz D Osiewacz, Takanobu Otomo, Kinya Otsu, Jing-hsiung James Ou, Tiago F Outeiro, Dong-yun Ouyang, Hongjiao Ouyang, Michael Overholtzer, Michelle A Ozbun, P Hande Ozdinler, Bulent Ozpolat, Consiglia Pacelli, Paolo Paganetti, Guylène Page, Gilles Page, Ugo Pagnini, Beata Pajak, Stephen C Pak, Karolina Pakos-Zebrucka, Nazzy Pakpour, Zdena Palková, Francesca Palladino, Kathrin Pallauf, Nicolas Pallet, Marta Palmieri, Søren R Paludan, Camilla Palumbo, Silvia Palumbo, Olatz Pampliega, Hongming Pan, Wei Pan, Theocharis Panaretaki, Aseem Pandey, Areti Pantazopoulou, Zuzana Papackova, Daniela L Papademetrio, Issidora Papassideri, Alessio Papini, Nirmala Parajuli, Julian Pardo, Vrajesh V Parekh, Giancarlo Parenti, Jong-In Park, Junsoo Park, Ohkmae K Park, Roy Parker, Rosanna Parlato, Jan B Pary, Katherine R Parzych, Jean-Max Pasquet, Benoit Pasquier, Kishore BS Pasumarthi, Daniel Patschan, Cam Patterson, Sophie Pattingre, Scott Pattison, Arnim Pause, Hermann Pavenstädt, Flaminia Pavone, Zully Pedrozo, Fernando J Peña, Miguel A Peñalva, Mario Pende, Jianxin Peng, Fabio Penna, Josef M Penninger, Anna Pensalfini, Salvatore Pepe, Gustavo JS Pereira, Paulo C Pereira, Verónica Pérez-de la Cruz, María Esther Pérez-Pérez, Diego Pérez-Rodríguez, Dolores Pérez-Sala, Celine Perier, Andras Perl, David H Perlmutter, Ida Perrotta, Shazib Pervaiz, Maija Pesonen, Jeffrey E Pessin, Godefridus J Peter, Morten Petersen, Irina Petrache, Basil J Petrof, Goran Petrovski, James M Phang, Mauro Piacentini, Marina Pierdominici, Philippe Pierre, Valérie Pierrefite-Carle, Federico Pietrocola, Felipe X Pimentel-Muiño, Mario Pinar, Benjamin Pineda, Ronit Pinkas-Kramarski, Marcello Pinti, Paolo Pinton, Bilal Piperdi, James M Piret, Leonidas C Platania, Harald W Platta, Edward D Plowey, Stefanie Pöggeler, Marc Poirot, Peter Polčic, Angelo Poletti, Audrey H Poon, Hana Popelka, Blagovesta Popova, Izabela Poprawa, Shibu M Poulose, Joanna Poulton, Scott K Power, Ted Power, Mercedes Pozuelo- Rubio, Krisna Prak, Reinhild Prange, Mark Prescott, Muriel Priault, Sharon Prince, Richard L Proia, Tassula Proikas-Cezanne, Holger Prokisch, Vasilis J Prompona, Karin Przyklenk, Rosa Puertollano, Subbiah Pugazhenthi, Luigi Puglielli, Aurora Pujol, Julien Puyal, Dohun Pyeon, Xin Qi, Wen-bin Qian, Zheng-Hong Qin, Yu Qiu, Ziwei Qu, Joe Quadrilatero, Frederick Quinn, Nina Raben, Hannah Rabinowich, Flavia Radogna, Michael J Ragusa, Mohamed Rahmani, Komal Raina, Sasanka Ramanadham, Rajagopal Ramesh, Abdelhaq Rami, Sarron Randall- Demllo, Felix Randow, Hai Rao, V Ashutosh Rao, Blake B Rasmussen, Tobias M Rasse, Edward A Ratovitski, Pierre-Emmanuel Rautou, Swapan K Ray, Babak Razani, Bruce H Reed, Fulvio Reggiori, Markus Rehm, Andreas S Reichert, Theo Rein, David J Reiner, Eric Reit, Jun Ren, Xingcong Ren, Maurizio Renna, Jane EB Reusch, Jose L Revuelta, Leticia Reye, Alireza R Rezaie, Robert I Richard, Des R Richardson, Clémence Richetta, Michael A Riehle, Bertrand H Rihn, Yasuko Rikihisa, Brigit E Riley, Gerald Rimbach, Maria Rita Rippo, Konstantinos Riti, Federica Rizzi, Elizete Rizzo, Peter J Roach, Jeffrey Robbin, Michel Roberge, Gabriela Roca, Maria Carmela Roccheri, Sonia Rocha, Cecilia MP Rodrigue, Clara I Rodríguez, Santiago Rodriguez de Cordoba, Natalia Rodriguez-Muela, Jeroen Roelof, Vladimir V Rogov, Troy T Rohn, Bärbel Rohrer, Davide Romanelli, Luigina Romani, Patricia Silvia Romano, M Isabel G Roncero, Jose Luis Rosa, Alicia Rosello, Kirill V Rosen, Philip Rosenstiel, Magdalena Rost-Roszkowska, Kevin A Roth, Gael Roué, Mustapha Roui, Kasper M Rouschop, Daniel T Ruan, Diego Ruano, David C Rubinsztein, Edmund B Rucker III, Assaf Rudich, Emil Rudolf, Ruediger Rudolf, Markus A Ruegg, Carmen Ruiz-Roldan, Avnika Ashok Ruparelia, Paola Rusmini, David W Ru, Gian Luigi Russo, Giuseppe Russo, Rossella Russo, Tor Erik Rusten, Victoria Ryabovol, Kevin M Ryan, Stefan W Ryter, David M Sabatini, Michael Sacher, Carsten Sachse, Michael N Sack, Junichi Sadoshima, Paul Saftig, Ronit Sagi-Eisenberg, Sumit Sahni, Pothana Saikumar, Tsunenori Saito, Tatsuya Saitoh, Koichi Sakakura, Machiko Sakoh-Nakatogawa, Yasuhito Sakuraba, María Salazar-Roa, Paolo Salomoni, Ashok K Saluja, Paul M Salvaterra, Rosa Salvioli, Afshin Samali, Anthony MJ Sanchez, José A Sánchez-Alcázar, Ricardo Sanchez-Prieto, Marco Sandri, Miguel A Sanjuan, Stefano Santaguida, Laura Santambrogio, Giorgio Santoni, Claudia Nunes dos Santo, Shweta Saran, Marco Sardiello, Graeme Sargent, Pallabi Sarkar, Sovan Sarkar, Maria Rosa Sarria, Minnie M Sarwal, Chihiro Sasakawa, Motoko Sasaki, Miklos Sa, Ken Sato, Miyuki Sato, Joseph Satriano, Niramol Savaraj, Svetlana Saveljeva, Liliana Schaefer, Ulrich E Schaible, Michael Scharl, Hermann M Schatzl, Randy Schekman, Wiep Scheper, Alfonso Schiavi, Hyman M Schipper, Hana Schmeisser, Jens Schmidt, Ingo Schmitz, Bianca E Schneider, E Marion Schneider, Jaime L Schneider, Eric A Schon, Miriam J Schönenberger, Axel H Schönthal, Daniel F Schorderet, Bernd Schröder, Sebastian Schuck, Ryan J Schulze, Melanie Schwarten, Thomas L Schwarz, Sebastiano Sciarretta, Kathleen Scotto, A Ivana Scovassi, Robert A Screaton, Mark Screen, Hugo Seca, Simon Sedej, Laura Segatori, Nava Segev, Per O Seglen, Jose M Seguí- Simarro, Juan Segura-Aguilar, Ekihiro Seki, Iban Seiliez, Christian Sell, Clay F Semenkovich, Gregg L Semenza, Utpal Sen, Andreas L Serra, Ana Serrano-Puebla, Hiromi Sesaki, Takao Setoguchi, Carmine Settembre, John J Shacka, Ayesha N Shajahan-Haq, Irving M Shapiro, Shweta Sharma, Hua She, C-K James Shen, Chiung-Chyi Shen, Han-Ming Shen, Sanbing Shen, Weili Shen, Rui Sheng, Xianyong Sheng, Zu-Hang Sheng, Trevor G Shepherd, Junyan Shi, Qiang Shi, Qinghua Shi, Yuguang Shi, Shusaku Shibutani, Kenichi Shibuya, Yoshihiro Shidoji, Jeng- Jer Shieh, Chwen-Ming Shih, Yohta Shimada, Shigeomi Shimizu, Dong Wook Shin, Mari L Shinohara, Michiko Shintani, Takahiro Shintani, Tetsuo Shioi, Ken Shirabe, Ronit Shiri-Sverdlov, Orian Shirihai, Gordon C Shore, Chih-Wen Shu, Deepak Shukla, Andriy A Sibirny, Valentina Sica, Christina J Sigurdson, Einar M Sigurdsson, Puran Singh Sijwali, Beata Sikorska, Wilian A Silveira, Sandrine Silvente-Poirot, Gary A Silverman, Jan Simak, Thomas Simmet, Anna Katharina Simon, Hans-Uwe Simon, Cristiano Simone, Matias Simon, Anne Simonsen, Rajat Singh, Shivendra V Singh, Shrawan K Singh, Debasish Sinha, Sangita Sinha, Frank A Sinicrope, Agnieszka Sirko, Kapil Sirohi, Balindiwe JN Sishi, Annie Sittler, Parco M Siu, Efthimios Sivridi, Anna Skwarska, Ruth Slack, Iva Slaninová, Nikolai Slavov, Soraya S Smaili, Keiran SM Smalley, Duncan R Smith, Stefaan J Soenen, Scott A Soleimanpour, Anita Solhaug, Kumaravel Somasundaram, Jin H Son, Avinash Sonawane, Chunjuan Song, Fuyong Song, Hyun Kyu Song, Ju-Xian Song, Wei Song, Kai Y Soo, Anil K Sood, Tuck Wah Soong, Virawudh Soontornniyomkij, Maurizio Sorice, Federica Sotgia, David R Soto-Pantoja, Areechun Sotthibundhu, Maria João Sousa, Herman P Spaink, Paul N Span, Anne Spang, Janet D Spark, Peter G Speck, Stephen A Spector, Claudia D Spie, Wolfdieter Springer, Daret St Clair, Alessandra Stacchiotti, Bart Stael, Michael T Stang, Daniel T Starczynowski, Petro Starokadomskyy, Clemens Steegborn, John W Steele, Leonidas Stefani, Joan Steffan, Christine M Stellrecht, Harald Stenmark, Tomasz M Stepkowski, Stęphan T Stern, Craig Steven, Brent R Stockwell, Veronika Stoka, Zuzana Storchova, Björn Stork, Vassilis Stratoulia, Dimitrios J Stravopodi, Pavel Strnad, Anne Marie Strohecker, Anna- Lena Ström, Per Stromhaug, Jiri Stulik, Yu-Xiong Su, Zhaoliang Su, Carlos S Subauste, Srinivasa Subramaniam, Carolyn M Sue, Sang Won Suh, Xinbing Sui, Supawadee Sukseree, David Sulzer, Fang-Lin Sun, Jiaren Sun, Jun Sun, Shi-Yong Sun, Yang Sun, Yi Sun, Yingjie Sun, Vinod Sundaramoorthy, Joseph Sung, Hidekazu Suzuki, Kuninori Suzuki, Naoki Suzuki, Tadashi Suzuki, Yuichiro J Suzuki, Michele S Swanson, Charles Swanton, Karl Swärd, Ghanshyam Swarup, Sean T Sweeney, Paul W Sylvester, Zsuzsanna Szatmari, Eva Szegezdi, Peter W Szlosarek, Heinrich Taegtmeyer, Marco Tafani, Emmanuel Taillebourg, Stephen WG Tait, Krisztina Takacs-Vellai, Yoshinori Takahashi, Szabolcs Takát, Genzou Takemura, Nagio Takigawa, Nicholas J Talbot, Elena Tamagno, Jerome Tamburini, Cai-Ping Tan, Lan Tan, Mei Lan Tan, Ming Tan, Yee-Joo Tan, Keiji Tanaka, Masaki Tanaka, Daolin Tang, Dingzhong Tang, Guomei Tang, Isei Tanida, Kunikazu Tanji, Bakhos A Tannou, Jose A Tapia, Inmaculada Tasset-Cueva, Marc Tatar, Iman Tavassoly, Nektarios Tavernaraki, Allen Taylor, Graham S Taylor, Gregory A Taylor, J Paul Taylor, Mark J Taylor, Elena V Tchetina, Andrew R Tee, Fatima Teixeira-Clerc, Sucheta Telang, Tewin Tencomnao, Ba-Bie Teng, Ru-Jeng Teng, Faraj Terro, Gianluca Tettamanti, Arianne L Thei, Anne E Theron, Kelly Jean Thoma, Marcos P Thomé, Paul G Thome, Andrew Thorburn, Jeremy Thorner, Thomas Thum, Michael Thumm, Teresa LM Thurston, Ling Tian, Andreas Till, Jenny Pan-yun Ting, Vladimir I Titorenko, Lilach Toker, Stefano Toldo, Sharon A Tooze, Ivan Topisirovic, Maria Lyngaas Torgersen, Liliana Torosantucci, Alicia Torriglia, Maria Rosaria Torrisi, Cathy Tournier, Roberto Town, Vladimir Trajkovic, Leonardo H Travasso, Gemma Triola, Durga Nand Tripathi, Daniela Trisciuoglio, Rodrigo Troncoso, Ioannis P Trougako, Anita C Truttmann, Kuen-Jer Tsai, Mario P Tschan, Yi-Hsin Tseng, Takayuki Tsukuba, Allan Tsung, Andrey S Tsvetkov, Shuiping Tu, Hsing-Yu Tuan, Marco Tucci, David A Tumbarello, Boris Turk, Vito Turk, Robin FB Turner, Anders A Tveita, Suresh C Tyagi, Makoto Ubukata, Yasuo Uchiyama, Andrej Udelnow, Takashi Ueno, Midori Umekawa, Rika Umemiya-Shirafuji, Benjamin R Underwood, Christian Ungermann, Rodrigo P. Ureshino, Ryo Ushioda, Vladimir N Uversky, Néstor L Uzcátegui, Thomas Vaccari, Maria I Vaccaro, Libuše Váchová, Helin Vakifahmetoglu-Norberg, Rut Valdor, Enza Maria Valente, Francois Vallette, Angela M Valverde, Greet Van den Berghe, Ludo Van Den Bosch, Gijs R van den Brink, F Gisou van der Goot, Ida J van der Klei, Luc JW van der Laan, Wouter G van Doorn, Marjolein van Egmond, Kenneth L van Golen, Luc Van Kaer, Menno van Lookeren Campagne, Peter Vandenabeele, Wim Vandenberghe, Ilse Vanhorebeek, Isabel Varela-Nieto, M Helena Vasconcelo, Radovan Vasko, Demetrios G Vavva, Ignacio Vega- Naredo, Guillermo Velasco, Athanassios D Velentza, Panagiotis D Velentza, Tibor Vellai, Edo Vellenga, Mikkel Holm Vendelbo, Kartik Venkatachalam, Natascia Ventura, Salvador Ventura, Patrícia ST Vera, Mireille Verdier, Beata G Vertessy, Andrea Viale, Michel Vidal, Helena LA Vieira, Richard D Vierstra, Nadarajah Vigneswaran, Neeraj Vij, Miquel Vila, Margarita Villar, Victor H Villar, Joan Villarroya, Cécile Vindi, Giampietro Viola, Maria Teresa Viscomi, Giovanni Vitale, Dan T Vogl, Olga V Voitsekhovskaja, Clarissa von Haefen, Karin von Schwarzenberg, Daniel E Voth, Valérie Vouret-Craviari, Kristina Vuori, Jatin M Vya, Christian Waeber, Cheryl Lyn Walker, Mark J Walker, Jochen Walter, Lei Wan, Xiangbo Wan, Bo Wang, Caihong Wang, Chao-Yung Wang, Chengshu Wang, Chenran Wang, Chuangui Wang, Dong Wang, Fen Wang, Fuxin Wang, Guanghui Wang, Hai-jie Wang, Haichao Wang, Hong-Gang Wang, Hongmin Wang, Horng-Dar Wang, Jing Wang, Junjun Wang, Mei Wang, Mei-Qing Wang, Pei-Yu Wang, Peng Wang, Richard C Wang, Shuo Wang, Ting-Fang Wang, Xian Wang, Xiao-jia Wang, Xiao-Wei Wang, Xin Wang, Xuejun Wang, Yan Wang, Yanming Wang, Ying Wang, Ying-Jan Wang, Yipeng Wang, Yu Wang, Yu Tian Wang, Yuqing Wang, Zhi-Nong Wang, Pablo Wappner, Carl Ward, Diane McVey Ward, Gary Warne, Hirotaka Watada, Yoshihisa Watanabe, Kei Watase, Timothy E Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=kaup20 Download by: [Alma Mater Studiorum - Università di Bologna] Date: 23 September 2016, At: 06:43 Weaver, Colin D Weeke, Jiwu Wei, Thomas Weide, Conrad C Weihl, Günther Weindl, Simone Nardin Wei, Longping Wen, Xin Wen, Yunfei Wen, Benedikt Westermann, Cornelia M Weyand, Anthony R White, Eileen White, J Lindsay Whitton, Alexander J Whitworth, Joëlle Wiel, Franziska Wild, Manon E Wildenberg, Tom Wileman, Deepti Srinivas Wilkinson, Simon Wilkinson, Dieter Willbold, Chris William, Katherine William, Peter R Williamson, Konstanze F Winklhofer, Steven S Witkin, Stephanie E Wohlgemuth, Thomas Wollert, Ernst J Wolvetang, Esther Wong, G William Wong, Richard W Wong, Vincent Kam Wai Wong, Elizabeth A Woodcock, Karen L Wright, Chunlai Wu, Defeng Wu, Gen Sheng Wu, Jian Wu, Junfang Wu, Mian Wu, Min Wu, Shengzhou Wu, William KK Wu, Yaohua Wu, Zhenlong Wu, Cristina PR Xavier, Ramnik J Xavier, Gui-Xian Xia, Tian Xia, Weiliang Xia, Yong Xia, Hengyi Xiao, Jian Xiao, Shi Xiao, Wuhan Xiao, Chuan-Ming Xie, Zhiping Xie, Zhonglin Xie, Maria Xilouri, Yuyan Xiong, Chuanshan Xu, Congfeng Xu, Feng Xu, Haoxing Xu, Hongwei Xu, Jian Xu, Jianzhen Xu, Jinxian Xu, Liang Xu, Xiaolei Xu, Yangqing Xu, Ye Xu, Zhi-Xiang Xu, Ziheng Xu, Yu Xue, Takahiro Yamada, Ai Yamamoto, Koji Yamanaka, Shunhei Yamashina, Shigeko Yamashiro, Bing Yan, Bo Yan, Xianghua Yan, Zhen Yan, Yasuo Yanagi, Dun-Sheng Yang, Jin-Ming Yang, Liu Yang, Minghua Yang, Pei-Ming Yang, Peixin Yang, Qian Yang, Wannian Yang, Wei Yuan Yang, Xuesong Yang, Yi Yang, Ying Yang, Zhifen Yang, Zhihong Yang, Meng-Chao Yao, Pamela J Yao, Xiaofeng Yao, Zhenyu Yao, Zhiyuan Yao, Linda S Yasui, Mingxiang Ye, Barry Yedvobnick, Behzad Yeganeh, Elizabeth S Yeh, Patricia L Yeyati, Fan Yi, Long Yi, Xiao-Ming Yin, Calvin K Yip, Yeong-Min Yoo, Young Hyun Yoo, Seung-Yong Yoon, Ken-Ichi Yoshida, Tamotsu Yoshimori, Ken H Young, Huixin Yu, Jane J Yu, Jin-Tai Yu, Jun Yu, Li Yu, W Haung Yu, Xiao-Fang Yu, Zhengping Yu, Junying Yuan, Zhi-Min Yuan, Beatrice YJT Yue, Jianbo Yue, Zhenyu Yue, David N Zack, Eldad Zacksenhau, Nadia Zaffaroni, Tania Zaglia, Zahra Zakeri, Vincent Zecchini, Jinsheng Zeng, Min Zeng, Qi Zeng, Antonis S Zervo, Donna D Zhang, Fan Zhang, Guo Zhang, Guo-Chang Zhang, Hao Zhang, Hong Zhang, Hongbing Zhang, Jian Zhang, Jiangwei Zhang, Jianhua Zhang, Jing-pu Zhang, Li Zhang, Lin Zhang, Long Zhang, Ming-Yong Zhang, Xiangnan Zhang, Xu Dong Zhang, Yan Zhang, Yang Zhang, Yanjin Zhang, Yingmei Zhang, Yunjiao Zhang, Mei Zhao, Wei-Li Zhao, Xiaonan Zhao, Yan G Zhao, Ying Zhao, Yongchao Zhao, Yu-xia Zhao, Zhendong Zhao, Zhizhuang J Zhao, Dexian Zheng, Xi-Long Zheng, Xiaoxiang Zheng, Boris Zhivotovsky, Qing Zhong, Guang-Zhou Zhou, Guofei Zhou, Huiping Zhou, Shu-Feng Zhou, Xu-jie Zhou, Hongxin Zhu, Hua Zhu, Wei- Guo Zhu, Wenhua Zhu, Xiao-Feng Zhu, Yuhua Zhu, Shi-Mei Zhuang, Xiaohong Zhuang, Elio Ziparo, Christos E Zoi, Teresa Zoladek, Wei-Xing Zong, and Antonio Zorzano & Susu M Zughaier
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[SDV]Life Sciences [q-bio] ,autophagosome ,Review Article ,ddc:616.07 ,stress ,stre ,LC3 ,MESH: Animals ,Settore MED/49 - Scienze Tecniche Dietetiche Applicate ,Settore BIO/06 - Anatomia Comparata E Citologia ,chaperone-mediated autophagy ,ComputingMilieux_MISCELLANEOUS ,Settore BIO/11 ,Pharmacology. Therapy ,Settore BIO/13 ,standards [Biological Assay] ,autolysosome ,MESH: Autophagy*/physiology ,lysosome ,methods [Biological Assay] ,Biological Assay ,Settore BIO/17 - ISTOLOGIA ,Erratum ,Human ,Biochemistry & Molecular Biology ,Settore BIO/06 ,physiology [Autophagy] ,Chaperonemediated autophagy ,[SDV.BC]Life Sciences [q-bio]/Cellular Biology ,NO ,autophagy, guidelines, molecular biology, ultrastructure ,flux ,macroautophagy ,phagophore ,vacuole ,MESH: Biological Assay/methods ,MESH: Computer Simulation ,ddc:570 ,Autolysosome, Autophagosome, Chaperonemediated autophagy, Flux, LC3, Lysosome, Macroautophagy, Phagophore, Stress, Vacuole ,Autophagy ,Animals ,Humans ,Computer Simulation ,Settore BIO/10 ,ddc:612 ,Biology ,MESH: Humans ,Animal ,0601 Biochemistry And Cell Biology ,MESH: Biological Assay/standards ,Human medicine - Abstract
Seuls les 100 premiers auteurs dont les auteurs INRA ont été entrés dans la notice. La liste complète des auteurs et de leurs affiliations est accessible sur la publication.; International audience; In 2008 we published the first set of guidelines for standardizing research in autophagy. Since then, research on this topic has continued to accelerate, and many new scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Accordingly, it is important to update these guidelines for monitoring autophagy in different organisms. Various reviews have described the range of assays that have been used for this purpose. Nevertheless, there continues to be confusion regarding acceptable methods to measure autophagy, especially in multicellular eukaryotes.For example, a key point that needs to be emphasized is that there is a difference between measurements that monitor the numbers or volume of autophagic elements (e.g., autophagosomes or autolysosomes) at any stage of the autophagic process versus those that measure flux through the autophagy pathway (i.e., the complete process including the amount and rate of cargo sequestered and degraded). In particular, a block in macroautophagy that results in autophagosome accumulation must be differentiated from stimuli that increase autophagic activity, defined as increased autophagy induction coupled with increased delivery to, and degradation within, lysosomes (in most higher eukaryotes and some protists such as Dictyostelium) or the vacuole (in plants and fungi). In other words, it is especially important that investigators new to the field understand that the appearance of more autophagosomes does not necessarily equate with more autophagy. In fact, in many cases, autophagosomes accumulate because of a block in trafficking to lysosomes without a concomitant change in autophagosome biogenesis, whereas an increase in autolysosomes may reflect a reduction in degradative activity. It is worth emphasizing here that lysosomal digestion is a stage of autophagy and evaluating its competence is a crucial part of the evaluation of autophagic flux, or complete autophagy.Here, we present a set of guidelines for the selection and interpretation of methods for use by investigators who aim to examine macroautophagy and related processes, as well as for reviewers who need to provide realistic and reasonable critiques of papers that are focused on these processes. These guidelines are not meant to be a formulaic set of rules, because the appropriate assays depend in part on the question being asked and the system being used. In addition, we emphasize that no individual assay is guaranteed to be the most appropriate one in every situation, and we strongly recommend the use of multiple assays to monitor autophagy. Along these lines, because of the potential for pleiotropic effects due to blocking autophagy through genetic manipulation, it is imperative to target by gene knockout or RNA interference more than one autophagy-related protein. In addition, some individual Atg proteins, or groups of proteins, are involved in other cellular pathways implying that not all Atg proteins can be used as a specific marker for an autophagic process. In these guidelines, we consider these various methods of assessing autophagy and what information can, or cannot, be obtained from them. Finally, by discussing the merits and limits of particular assays, we hope to encourage technical innovation in the field.
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- 2016
47. Mice lacking NOX2 are hyperphagic and store fat preferentially in the liver
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John H. Brumell, Liane J. Bailey, Minna Woo, Amira Klip, Jason Castro-Alves, Denise D. Belsham, Sheila R. Costford, and Kenny L. Chan
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Male ,medicine.medical_specialty ,Mice, 129 Strain ,Physiology ,Adipose Tissue, White ,Endocrinology, Diabetes and Metabolism ,Inflammation ,White adipose tissue ,Hyperphagia ,Diet, High-Fat ,Mice ,Insulin resistance ,Immune system ,Non-alcoholic Fatty Liver Disease ,Physiology (medical) ,Internal medicine ,medicine ,Animals ,Obesity ,Cells, Cultured ,Mice, Knockout ,Appetitive Behavior ,Membrane Glycoproteins ,NADPH oxidase ,Behavior, Animal ,biology ,Appetite Regulation ,Macrophages ,Fatty liver ,NADPH Oxidases ,Lipid metabolism ,Lipid Metabolism ,medicine.disease ,Fatty Liver ,Mice, Inbred C57BL ,Endocrinology ,Diabetes Mellitus, Type 2 ,Liver ,NADPH Oxidase 2 ,biology.protein ,Insulin Resistance ,Steatosis ,medicine.symptom - Abstract
Chronic low-grade inflammation is an important contributor to the development of insulin resistance, a hallmark of type 2 diabetes mellitus (T2DM). Obesity and high-fat feeding lead to infiltration of immune cells into metabolic tissues, promoting inflammation and insulin resistance. We hypothesized that macrophages from mice lacking NOX2 ( Cybb), an essential component of the NADPH oxidase complex highly expressed in immune cells and associated with their inflammatory response, would be less inflammatory and that these mice would be protected from the development of high-fat-induced insulin resistance. Bone marrow-derived macrophages from NOX2 knockout (NOX2-KO) mice expressed lower levels of inflammatory markers ( Nos2, Il6); however, NOX2-KO mice were hyperphagic and gained more weight than wild-type (WT) mice when fed either a chow or a high-fat (HF) diet. Surprisingly, NOX2-KO mice stored less lipid in epididymal white adipose tissue but more lipid in liver and had higher indexes of liver inflammation and macrophage infiltration than WT mice. Contrary to our hypothesis, HF-fed NOX2-KO mice were hyperinsulinemic and more insulin resistant than HF-fed WT mice, likely as a result of their higher hepatic steatosis and inflammation. In summary, NOX2 depletion promoted hyperphagia, hepatic steatosis, and inflammation with either normal or high-fat feeding, exacerbating insulin resistance. We propose that NOX2 participates in food intake control and lipid distribution in mice.
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- 2014
48. Bacterial subversion of host cytoskeletal machinery: Hijacking formins and the Arp2/3 complex
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Dorothy Truong, John W. Copeland, and John H. Brumell
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Effector ,Host (biology) ,Formins ,biology.protein ,Arp2/3 complex ,Motility ,macromolecular substances ,Biology ,Cytoskeleton ,General Biochemistry, Genetics and Molecular Biology ,Actin ,Actin nucleation ,Cell biology - Abstract
The host actin nucleation machinery is subverted by many bacterial pathogens to facilitate their entry, motility, replication, and survival. The majority of research conducted in the past primarily focused on exploitation of a host actin nucleator, the Arp2/3 complex, by bacterial pathogens. Recently, new studies have begun to explore the role of formins, another family of host actin nucleators, in bacterial pathogenesis. This review provides an overview of recent advances in the study of the exploitation of the Arp2/3 complex and formins by bacterial pathogens. Secreted bacterial effector proteins seem to manipulate the regulation of these actin nucleators or functionally mimic them to drive bacterial entry, motility and survival within host cells. An enhanced understanding of how formins are exploited will provide us with greater insight into how a fundamental eurkaryotic cellular process is utilized by bacteria and will also advance our knowledge of host-pathogen interactions.
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- 2014
49. Bacteria–autophagy interplay: a battle for survival
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Ju Huang and John H. Brumell
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Bacterial immune evasion ,Programmed cell death ,Biology ,medicine.disease_cause ,BAG3 ,Microbiology ,Article ,Phagocytosis ,Phagosomes ,Autophagy ,medicine ,Xenophagy ,ATG16L1 ,Bacteria ,General Immunology and Microbiology ,Cellular process ,Pathogenic bacteria ,Bacterial pathogenesis ,biology.organism_classification ,Bacterial host response ,3. Good health ,Cell biology ,Infectious Diseases ,Host-Pathogen Interactions ,Lysosomes - Abstract
Key Points Autophagy is used by the cell to degrade various substrates; this is achieved either through the canonical, non-selective autophagy pathway or through selective autophagy. Both pathways proceed via distinct key steps and use specific molecular mechanisms.The canonical autophagy pathway has been studied in detail in mammalian cells and in model organisms, such as yeast. The molecular mechanisms underlying non-canonical autophagy, in addition to alternative pathways that are independent of some of the key autophagy machinery, are beginning to become clear.Besides degradation of cellular proteins, autophagy proteins are also involved in many other functions, some of which are important during bacterial infections.Autophagy functions as an antibacterial mechanism. The induction and recognition mechanisms for several bacterial species have been elucidated.Bacteria can escape killing by autophagy and some can even use autophagy to promote infection of host cells, through the interaction between bacterial effector proteins and autophagy components.The knowledge about bacteria–autophagy interactions will inform the design of new drugs and treatments against bacterial infections. Supplementary information The online version of this article (doi:10.1038/nrmicro3160) contains supplementary material, which is available to authorized users., Autophagy not only degrades components of host cells but can also target intracellular bacteria and thus contribute to host defences. Here, Huang and Brumell discuss the canonical and selective pathways of antibacterial autophagy, as well as the ways in which bacteria can escape from them and sometimes even use them to promote infection. Supplementary information The online version of this article (doi:10.1038/nrmicro3160) contains supplementary material, which is available to authorized users., Autophagy is a cellular process that targets proteins, lipids and organelles to lysosomes for degradation, but it has also been shown to combat infection with various pathogenic bacteria. In turn, bacteria have developed diverse strategies to avoid autophagy by interfering with autophagy signalling or the autophagy machinery and, in some cases, they even exploit autophagy for their growth. In this Review, we discuss canonical and non-canonical autophagy pathways and our current knowledge of antibacterial autophagy, with a focus on the interplay between bacterial factors and autophagy components. Supplementary information The online version of this article (doi:10.1038/nrmicro3160) contains supplementary material, which is available to authorized users.
- Published
- 2014
50. Formin-mediated actin polymerization promotesSalmonellainvasion
- Author
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Won Do Heo, Mikhail Bashkurov, Dorothy Truong, Laurence Pelletier, Tobias Meyer, John H. Brumell, John W. Copeland, Danielle Brabant, Leo C. K. Wan, and Virginie Braun
- Subjects
Salmonella ,biology ,Effector ,Immunology ,Cell ,Arp2/3 complex ,macromolecular substances ,medicine.disease_cause ,Microbiology ,Cell biology ,medicine.anatomical_structure ,Polymerization ,Virology ,Formins ,biology.protein ,medicine ,Phosphorylation ,Actin - Abstract
Summary Salmonella invade host cells using Type 3 secreted effectors, which modulate host cellular targets to promote actin rearrangements at the cell surface that drive bacterial uptake. The Arp2/3 complex contributes to Salmonella inva- sion but is not essential, indicating other actin regulatory factors are involved. Here, we show a novel role for FHOD1, a formin family member, in Salmonella invasion. FHOD1 and Arp2/3 occupy distinct microdomains at the invasion site and control distinct aspects of membrane protrusion formation. FHOD1 is phosphorylated during infec- tion and this modification is required for promot- ing bacterial uptake by host cells. ROCK II, but not ROCK I, is recruited to the invasion site and is required for FHOD1 phosphorylation and for Salmonella invasion. Together, our studies reveal an important phospho-dependent FHOD1 actin polymerization pathway in Salmonella invasion.
- Published
- 2013
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