Author: "Takeshi Noda" / Topic: autophagy - Searchworks@Jio Institute Digital Library Search Results

103 results on '"Takeshi Noda"'

1. Capsule-deficient group A Streptococcus evades autophagy-mediated killing in macrophages

Author: Yong-An Shi, Shiou-Ling Lu, Takeshi Noda, Cheng-Hsun Chiu, and Chuan Chiang-Ni
Subjects: hyaluronic acid capsule, autophagy, macrophages, group A Streptococcus, Microbiology, QR1-502
Abstract: ABSTRACT The hyaluronic acid capsule is crucial in protecting group A Streptococcus (GAS) against phagocytic killing. However, there have been reported outbreaks caused by capsule-deficient GAS strains, and the mechanisms underlying their evasion of immune clearance remain unclear. This study demonstrated that the capsule-deficient mutant [Cap(−)] of the emm1 strain increased survival within phagocytic cells compared to the wild-type strain [Cap(+)]. Although both Cap(+) and Cap(–) strains exhibited similar abilities to disrupt the phagosome, only the Cap(+) strain was colocalized with lysosomes and acidified compartments in phagocytic cells, indicating its susceptibility to autophagosome elimination. In contrast, the Cap(–) mutant evaded the recognition of galectin-8 and ubiquitin, impairing selective autophagy-mediated elimination. These findings suggest that a deficiency in the capsule could impair the intracellular elimination of GAS in macrophages, revealing previously unknown aspects of the host’s recognition of the GAS capsule in macrophages.IMPORTANCEGroup A Streptococcus (GAS) is a Gram-positive bacterium that causes diseases ranging from mild pharyngitis to severe necrotizing fasciitis. Phagocytic cells serve as the primary defense against bacterial infections, exhibiting remarkable efficiency in eliminating intracellular pathogens. The hyaluronic acid capsule is a critical virulence factor that contributes to the resistance of phagocytosis in GAS. Nevertheless, the outbreaks caused by GAS strains that lack the hyaluronic acid capsule have been reported, and the selective advantage of capsule-deficient strains during infection is not fully understood. This study showed that the autophagic adaptor proteins recognize the capsulated GAS strain but not the capsule-deficient mutant, indicating that the hyaluronic acid capsule could be the autophagic target in macrophages. These findings imply that the hyaluronic acid capsule of GAS actually enhances its elimination within phagocytic cells, subverting the understanding of the capsule in GAS pathogenesis.
Published: 2024
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2. Autophagosome formation in relation to the endoplasmic reticulum

Author: Yo-hei Yamamoto and Takeshi Noda
Subjects: Autophagy, Autophagosome, Endoplasmic reticulum, ERdj8/DNAJC16, Atg2, VMP1, Medicine
Abstract: Abstract Autophagy is a process in which a myriad membrane structures called autophagosomes are formed de novo in a single cell, which deliver the engulfed substrates into lysosomes for degradation. The size of the autophagosomes is relatively uniform in non-selective autophagy and variable in selective autophagy. It has been recently established that autophagosome formation occurs near the endoplasmic reticulum (ER). In this review, we have discussed recent advances in the relationship between autophagosome formation and endoplasmic reticulum. Autophagosome formation occurs near the ER subdomain enriched with phospholipid synthesizing enzymes like phosphatidylinositol synthase (PIS)/CDP-diacylglycerol-inositol 3-phosphatidyltransferase (CDIPT) and choline/ethanolamine phosphotransferase 1 (CEPT1). Autophagy-related protein 2 (Atg2), which is involved in autophagosome formation has a lipid transfer capacity and is proposed to directly transfer the lipid molecules from the ER to form autophagosomes. Vacuole membrane protein 1 (VMP1) and transmembrane protein 41b (TMEM41b) are ER membrane proteins that are associated with the formation of the subdomain. Recently, we have reported that an uncharacterized ER membrane protein possessing the DNAJ domain, called ERdj8/DNAJC16, is associated with the regulation of the size of autophagosomes. The localization of ERdj8/DNAJC16 partially overlaps with the PIS-enriched ER subdomain, thereby implying its association with autophagosome size determination.
Published: 2020
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3. Ole1, fatty acid desaturase, is required for Atg9 delivery and isolation membrane expansion during autophagy in Saccharomyces cerevisiae

Author: Yuta Ogasawara, Shintaro Kira, Yukio Mukai, Takeshi Noda, and Akitsugu Yamamoto
Subjects: Autophagy, Unsaturated fatty acid, OLE1, Fatty acid monodesaturation, Science, Biology (General), QH301-705.5
Abstract: Macroautophagy, a major degradation pathway of cytoplasmic components, is carried out through formation of a double-membrane structure, the autophagosome. Although the involvement of specific lipid species in the formation process remains largely obscure, we recently showed that mono-unsaturated fatty acids (MUFA) generated by stearoyl-CoA desaturase 1 (SCD1) are required for autophagosome formation in mammalian cells. To obtain further insight into the role of MUFA in autophagy, in this study we analyzed the autophagic phenotypes of the yeast mutant of OLE1, an orthologue of SCD1. Δole1 cells were defective in nitrogen starvation-induced autophagy, and the Cvt pathway, when oleic acid was not supplied. Defects in elongation of the isolation membrane led to a defect in autophagosome formation. In the absence of Ole1, the transmembrane protein Atg9 was not able to reach the pre-autophagosomal structure (PAS), the site of autophagosome formation. Thus, autophagosome formation requires Ole1 during the delivery of Atg9 to the PAS/autophagosome from its cellular reservoir.
Published: 2017
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4. Regulation of Autophagy through TORC1 and mTORC1

Author: Takeshi Noda
Subjects: autophagy, TORC1, Atg13, Atg1, Atg9, Atg8, PAS, Gln3, TFEB, Microbiology, QR1-502
Abstract: Autophagy is an intracellular protein-degradation process that is conserved across eukaryotes including yeast and humans. Under nutrient starvation conditions, intracellular proteins are transported to lysosomes and vacuoles via membranous structures known as autophagosomes, and are degraded. The various steps of autophagy are regulated by the target of rapamycin complex 1 (TORC1/mTORC1). In this review, a history of this regulation and recent advances in such regulation both in yeast and mammals will be discussed. Recently, the mechanism of autophagy initiation in yeast has been deduced. The autophagy-related gene 13 (Atg13) and the unc-51 like autophagy activating kinase 1 (Ulk1) are the most crucial substrates of TORC1 in autophagy, and by its dephosphorylation, autophagosome formation is initiated. Phosphorylation/dephosphorylation of Atg13 is regulated spatially inside the cell. Another TORC1-dependent regulation lies in the expression of autophagy genes and vacuolar/lysosomal hydrolases. Several transcriptional and post-transcriptional regulations are controlled by TORC1, which affects autophagy activity in yeast and mammals.
Published: 2017
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5. VEGF-Mediated Augmentation of Autophagic and Lysosomal Activity in Endothelial Cells Defends against Intracellular Streptococcus pyogenes

Author: Shiou-Ling Lu, Hiroko Omori, Yi Zhou, Yee-Shin Lin, Ching-Chuan Liu, Jiunn-Jong Wu, and Takeshi Noda
Subjects: Vascular Endothelial Growth Factor A, Mice, Streptococcus pyogenes, Vascular Endothelial Growth Factors, Sepsis, Virology, Autophagy, Animals, Endothelial Cells, Humans, Lysosomes, Microbiology
Abstract: Group A Streptococcus (GAS), a deleterious human-pathogenic bacterium, causes life-threatening diseases such as sepsis and necrotic fasciitis. We recently reported that GAS survives and replicates within blood vessel endothelial cells because these cells are intrinsically defective in xenophagy. Because blood vessel endothelial cells are relatively germfree environments, specific stimulation may be required to sufficiently induce xenophagy. Here, we explored how vascular endothelial growth factor (VEGF) promoted xenophagy and lysosomal activity in endothelial cells. These effects were achieved by amplifying the activation of TFEB, a transcriptional factor crucial for lysosome/autophagy biogenesis, via cAMP-mediated calcium release. In a mouse model of local infection with GAS, the VEGF level was significantly elevated at the infection site. Interestingly, low serum VEGF levels were found in a mouse model of invasive bacteremia and in patients with severe GAS-induced sepsis. Moreover, the administration of VEGF improved the survival of GAS-infected mice. We propose a novel theory regarding GAS infection in endothelial cells, wherein VEGF concentrations in the systemic circulation play a critical role.
Published: 2022

6. STEEP mediates STING ER exit and activation of signaling

Author: Chiranjeevi Bodda, Søren B. Jensen, Carsten Scavenius, Anne Troldborg, Christine Doucet, Cheng long Sun, Ramya Nandakumar, Anders Laustsen, Thaneas Prabakaran, Zong liang Gao, Samuel J. Windross, Harald Stenmark, Zheng Guo, Line S. Reinert, Sonia Assil, Rune Hartmann, Søren R. Paludan, Jinrong Huang, Martin K. Thomsen, Yan Zhang, Ryo Narita, Jan J. Enghild, Bao cun Zhang, Zhijian J. Chen, Raphaela Goldbach-Mansky, Takeshi Noda, David Olagnier, Rasmus O. Bak, Cong gang Zhang, Martin F. Berthelsen, Yujia Cai, Department of Biomedicine Aarhus, Department of Clinical Medicine (Aarhus University), Department of Chemistry and Interdisciplinary Nanoscience Center, Aarhus University, Department of Molecular Biology, University of Aarhus, Institute for Cancer Research [Oslo], Oslo University Hospital [Oslo], Centre de Biochimie Structurale [Montpellier] (CBS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Graduate School of Frontier Biosciences [Osaka], Osaka University [Osaka], National Institute of Allergy and Infectious Diseases [Bethesda] (NIAID-NIH), National Institutes of Health [Bethesda] (NIH), The Novo Nordisk Foundation (NNF18OC0030274) and the Lundbeck Foundation (R198-2015-171, R268-2016-3927), B.-c.Z. is funded by a postdoctoral grant from the Danish Council for Independent Research, Medical Sciences (5053-00083B), the postdoctoral salary to S.A. was funded by the European Union under the Horizon 2020 Research and Innovation Program and Marie Skłodowska-Curie Actions (MSCA) – international fellowship (PathAutoBio 796840), the PhD scholarship to S.J.W. was funded by the European Union under the Horizon 2020 Research and Innovation Program and the MSCA-Innovative Training Networks Programme MSCA-ITN (EDGE, 675278), the postdoctoral grant to A.T. was funded by the Lundbeck Foundation (R264-2017-3344)., and European Project: 786602,ENVISION
Subjects: 0301 basic medicine, cGAS-STING pathway, [SDV]Life Sciences [q-bio], Regulator, DNA VIRUSES, Stimulation, Endoplasmic Reticulum, ADAPTER, Mice, 0302 clinical medicine, Gene expression, Lupus Erythematosus, Systemic, Immunology and Allergy, SYNTHASE, PHOSPHORYLATION, Chemistry, Nuclear Proteins, 3. Good health, Cell biology, TRANSLOCATION, Protein Transport, Membrane curvature, symbols, 2ND-MESSENGER, AUTOPHAGY, Innate immunology, medicine.symptom, Signal Transduction, DNA sensing, intracellular trafficking, Immunology, Nerve Tissue Proteins, Inflammation, Article, 03 medical and health sciences, symbols.namesake, medicine, Animals, Humans, Endoplasmic reticulum, Membrane Proteins, CYCLIC GMP-AMP, Golgi apparatus, eye diseases, Sting, 030104 developmental biology, SAVI, Gene Expression Regulation, INNATE IMMUNITY, 030215 immunology
Abstract: STING is essential for control of infections and for tumor immunosurveillance, but it can also drive pathological inflammation. STING resides on the endoplasmic reticulum (ER) and traffics following stimulation to the ERGIC/Golgi, where signaling occurs. Although STING ER exit is the rate-limiting step in STING signaling, the mechanism that drives this process is not understood. Here we identify STEEP as a positive regulator of STING signaling. STEEP was associated with STING and promoted trafficking from the ER. This was mediated through stimulation of phosphatidylinositol-3-phosphate (PtdIns(3)P) production and ER membrane curvature formation, thus inducing COPII-mediated ER-to-Golgi trafficking of STING. Depletion of STEEP impaired STING-driven gene expression in response to virus infection in brain tissue and in cells from patients with STING-associated diseases. Interestingly, STING gain-of-function mutants from patients interacted strongly with STEEP, leading to increased ER PtdIns(3)P levels and membrane curvature. Thus, STEEP enables STING signaling by promoting ER exit. STING ER exit is the rate-limiting step in STING signaling, but the mechanism that drives this process is not understood. Paludan and colleagues identify CxORF56, called STEEP here, as a positive regulator of STING signaling.
Published: 2020

7. Quercetin in Tartary Buckwheat Induces Autophagy against Protein Aggregations

Author: Yuancai Liu, Shiou-Ling Lu, Guoqiang Tong, Lu Shiguang, Sumiko Ikari, Takeshi Noda, Feike Hao, and Qiang Yang
Subjects: 0301 basic medicine, Antioxidant, Physiology, medicine.medical_treatment, Clinical Biochemistry, Aggrephagy, P70-S6 Kinase 1, mTORC1, RM1-950, Biochemistry, Article, Dephosphorylation, HeLa, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, aggrephagy, Molecular Biology, biology, Chemistry, Autophagy, Cell Biology, biology.organism_classification, 030104 developmental biology, Therapeutics. Pharmacology, Quercetin, 030217 neurology & neurosurgery, tartary buckwheat
Abstract: Tartary buckwheat is used as an ingredient in flour and tea, as well as in traditional Chinese medicine for its antioxidant effects. Here, we found that an ethanol extract of tartary buckwheat (TBE) potently induced autophagy flux in HeLa cells by suppressing mTORC1 activity, as revealed by dephosphorylation of the mTORC1 substrates Ulk1, S6K, and 4EBP, as well as by the nuclear translocation of transcriptional factor EB. In addition to non-selective bulk autophagy, TBE also induced aggrephagy, which is defined as autophagy against aggregated proteins. Quercetin is a flavonol found at high levels in TBE. We showed that quercetin induced both non-selective bulk autophagy and aggrephagy. These effects were also observed in Huh-7 cells derived from hepatocytes. Thus, aggrephagy induction by TBE and quercetin may relieve alcoholic hepatitis, which is closely linked to the accumulation of protein aggregations called Mallory–Denk bodies.
Published: 2021

8. Vacuolar protein Tag1 and Atg1–Atg13 regulate autophagy termination during persistent starvation in S. cerevisiae

Author: Shintaro Kira, Yu Oikawa, Aiko Miyahara, Tamotsu Yoshimori, Masafumi Noguchi, Yasuhiro Araki, and Takeshi Noda
Subjects: Atg1, biology, Autophagy, Phosphatase, Saccharomyces cerevisiae, Mutant, Cell Biology, Microautophagy, Autophagy-related protein 13, Protein kinase A, biology.organism_classification, Cell biology
Abstract: Under starvation conditions, cells degrade their own components via autophagy in order to provide sufficient nutrients to ensure their survival. However, even if starvation persists, the cell is not completely degraded through autophagy, implying the existence of some kind of termination mechanism. In the yeast Saccharomyces cerevisiae, autophagy is terminated after 10–12 h of nitrogen starvation. In this study, we found that termination is mediated by re-phosphorylation of Atg13 by the Atg1 protein kinase, which is also affected by PP2C phosphatases, and the eventual dispersion of the pre-autophagosomal structure, also known as the phagophore assembly site (PAS). In a genetic screen, we identified an uncharacterized vacuolar membrane protein, Tag1, as a factor responsible for the termination of autophagy. Re-phosphorylation of Atg13 and eventual PAS dispersal were defective in the Δtag1 mutant. The vacuolar luminal domain of Tag1 and autophagic progression are important for the behaviors of Tag1. Together, our findings reveal the mechanism and factors responsible for termination of autophagy in yeast.
Published: 2021

9. Vacuolar protein Tag1 and Atg1-Atg13 regulate autophagy termination during persistent starvation in

Author: Shintaro, Kira, Masafumi, Noguchi, Yasuhiro, Araki, Yu, Oikawa, Tamotsu, Yoshimori, Aiko, Miyahara, and Takeshi, Noda
Subjects: Saccharomyces cerevisiae Proteins, Autophagy, Autophagy-Related Proteins, Saccharomyces cerevisiae, Protein Kinases, Adaptor Proteins, Signal Transducing
Abstract: Under starvation conditions, cells degrade their own components via autophagy in order to provide sufficient nutrients to ensure their survival. However, even if starvation persists, the cell is not completely degraded through autophagy, implying the existence of some kind of termination mechanism. In the yeast
Published: 2020

10. Autophagosome formation in relation to the endoplasmic reticulum

Author: Yohei Yamamoto and Takeshi Noda
Subjects: 0301 basic medicine, Autophagosome, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Cell, Phospholipid, lcsh:Medicine, Autophagy-Related Proteins, Review, Endoplasmic Reticulum, Phosphotransferase, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Autophagy, Animals, Humans, COPII, Pharmacology (medical), VMP1, Molecular Biology, CDIPT, Chemistry, Endoplasmic reticulum, Biochemistry (medical), lcsh:R, Autophagosomes, TMEM41b, Cell Biology, General Medicine, Transmembrane protein, Cell biology, 030104 developmental biology, medicine.anatomical_structure, PIS, Atg2, 030217 neurology & neurosurgery, ERdj8/DNAJC16, ATG9
Abstract: Autophagy is a process in which a myriad membrane structures called autophagosomes are formed de novo in a single cell, which deliver the engulfed substrates into lysosomes for degradation. The size of the autophagosomes is relatively uniform in non-selective autophagy and variable in selective autophagy. It has been recently established that autophagosome formation occurs near the endoplasmic reticulum (ER). In this review, we have discussed recent advances in the relationship between autophagosome formation and endoplasmic reticulum. Autophagosome formation occurs near the ER subdomain enriched with phospholipid synthesizing enzymes like phosphatidylinositol synthase (PIS)/CDP-diacylglycerol-inositol 3-phosphatidyltransferase (CDIPT) and choline/ethanolamine phosphotransferase 1 (CEPT1). Autophagy-related protein 2 (Atg2), which is involved in autophagosome formation has a lipid transfer capacity and is proposed to directly transfer the lipid molecules from the ER to form autophagosomes. Vacuole membrane protein 1 (VMP1) and transmembrane protein 41b (TMEM41b) are ER membrane proteins that are associated with the formation of the subdomain. Recently, we have reported that an uncharacterized ER membrane protein possessing the DNAJ domain, called ERdj8/DNAJC16, is associated with the regulation of the size of autophagosomes. The localization of ERdj8/DNAJC16 partially overlaps with the PIS-enriched ER subdomain, thereby implying its association with autophagosome size determination.
Published: 2020

11. Starvation-induced autophagy via calcium-dependent TFEB dephosphorylation is suppressed by Shigyakusan

Author: Yasuhiro Araki, Kenta Imai, Feike Hao, Takeshi Noda, Yumi Nishiyama, Shiou-Ling Lu, Chao-Yuan Tsai, Takanobu Otomo, Nobukazu Shitan, Tamotsu Yoshimori, Yohei Yamamoto, and Sumiko Ikari
Subjects: 0301 basic medicine, Kampo, Cultured tumor cells, 0302 clinical medicine, Fluorescence Microscopy, Cell Signaling, Medicine and Health Sciences, Phosphorylation, Microscopy, Multidisciplinary, Cell Death, Chemistry, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Calcineurin, Light Microscopy, Cell biology, Cell Processes, 030220 oncology & carcinogenesis, Cell lines, Medicine, Cellular Structures and Organelles, Biological cultures, Research Article, Signal Transduction, Cell signaling, Imaging Techniques, Autophagic Cell Death, Science, Cell Enumeration Techniques, Mechanistic Target of Rapamycin Complex 1, Dephosphorylation, 03 medical and health sciences, Complementary and Alternative Medicine, Fluorescence Imaging, Autophagy, Animals, Humans, HeLa cells, Biology and Life Sciences, Cell Biology, ULK1, Cell cultures, Traditional Medicine, Research and analysis methods, 030104 developmental biology, Starvation, TFEB, Calcium, Lysosomes, Drugs, Chinese Herbal
Abstract: Kampo, a system of traditional Japanese therapy utilizing mixtures of herbal medicine, is widely accepted in the Japanese medical system. Kampo originated from traditional Chinese medicine, and was gradually adopted into a Japanese style. Although its effects on a variety of diseases are appreciated, the underlying mechanisms remain mostly unclear. Using a quantitative tf-LC3 system, we conducted a high-throughput screen of 128 kinds of Kampo to evaluate the effects on autophagy. The results revealed a suppressive effect of Shigyakusan/TJ-35 on autophagic activity. TJ-35 specifically suppressed dephosphorylation of ULK1 and TFEB, among several TORC1 substrates, in response to nutrient deprivation. TFEB was dephosphorylated by calcineurin in a Ca2+ dependent manner. Cytosolic Ca2+ concentration was increased in response to nutrient starvation, and TJ-35 suppressed this increase. Thus, TJ-35 prevents the starvation-induced Ca2+ increase, thereby suppressing induction of autophagy.
Published: 2020

12. Ole1, fatty acid desaturase, is required for Atg9 delivery and isolation membrane expansion during autophagy in Saccharomyces cerevisiae

Author: Yukio Mukai, Shintaro Kira, Yuta Ogasawara, Takeshi Noda, and Akitsugu Yamamoto
Subjects: 0301 basic medicine, Autophagosome, QH301-705.5, OLE1, Science, Mutant, Saccharomyces cerevisiae, CVT pathway, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Autophagy, Biology (General), Unsaturated fatty acid, biology, Fatty acid monodesaturation, biology.organism_classification, Transmembrane protein, Cell biology, 030104 developmental biology, Fatty acid desaturase, Biochemistry, biology.protein, lipids (amino acids, peptides, and proteins), General Agricultural and Biological Sciences, Research Article
Abstract: Macroautophagy, a major degradation pathway of cytoplasmic components, is carried out through formation of a double-membrane structure, the autophagosome. Although the involvement of specific lipid species in the formation process remains largely obscure, we recently showed that mono-unsaturated fatty acids (MUFA) generated by stearoyl-CoA desaturase 1 (SCD1) are required for autophagosome formation in mammalian cells. To obtain further insight into the role of MUFA in autophagy, in this study we analyzed the autophagic phenotypes of the yeast mutant of OLE1, an orthologue of SCD1. Δole1 cells were defective in nitrogen starvation-induced autophagy, and the Cvt pathway, when oleic acid was not supplied. Defects in elongation of the isolation membrane led to a defect in autophagosome formation. In the absence of Ole1, the transmembrane protein Atg9 was not able to reach the pre-autophagosomal structure (PAS), the site of autophagosome formation. Thus, autophagosome formation requires Ole1 during the delivery of Atg9 to the PAS/autophagosome from its cellular reservoir., Summary: Isolation membrane expansion in yeast autophagy requires mono-unsaturated fatty acids generated by Ole1, fatty acid desaturase during delivery of Atg9 to the PAS/autophagosome from its cellular reservoir.
Published: 2017

13. ERdj8 governs the size of autophagosomes during the formation process

Author: Tomohisa Hatta, Ritsuko Arai, Miyuki Sato, Tomoe Takino, Kazuhiro Nagata, Satoshi Waguri, Tetsuo Umemoto, Shoshana Bar-Nun, Hiroko Omori, Maho Hamasaki, Tamotsu Yoshimori, Tohru Natsume, Richard I. Morimoto, Yo Yamamoto, Takeshi Noda, Ken Sato, Ayano Kasai, and Munechika Sugihara
Subjects: Autophagosome, Protein Homeostasis, Somatic cell, Autophagy-Related Proteins, Biology, Mitochondrion, Endoplasmic Reticulum, Biochemistry, Article, Animals, Genetically Modified, Organelle, Chlorocebus aethiops, Macroautophagy, Animals, Humans, Caenorhabditis elegans, Caenorhabditis elegans Proteins, COS cells, Autophagy, Autophagosomes, Correction, Cell Biology, HSP40 Heat-Shock Proteins, CDP-Diacylglycerol-Inositol 3-Phosphatidyltransferase, Cell Death and Autophagy, Cell biology, Mitochondria, Cytosol, Membrane protein, COS Cells, HeLa Cells
Abstract: Autophagosomes engulf a variety of targets, from a portion of cytosol to large organelles, by regulating the size of the autophagosomal membrane. Yamamoto et al. identify ERdj8, a novel ER membrane protein that affects the size of autophagosomes., In macroautophagy, membrane structures called autophagosomes engulf substrates and deliver them for lysosomal degradation. Autophagosomes enwrap a variety of targets with diverse sizes, from portions of cytosol to larger organelles. However, the mechanism by which autophagosome size is controlled remains elusive. We characterized a novel ER membrane protein, ERdj8, in mammalian cells. ERdj8 localizes to a meshwork-like ER subdomain along with phosphatidylinositol synthase (PIS) and autophagy-related (Atg) proteins. ERdj8 overexpression extended the size of the autophagosome through its DnaJ and TRX domains. ERdj8 ablation resulted in a defect in engulfing larger targets. C. elegans, in which the ERdj8 orthologue dnj-8 was knocked down, could perform autophagy on smaller mitochondria derived from the paternal lineage but not the somatic mitochondria. Thus, ERdj8 may play a critical role in autophagosome formation by providing the capacity to target substrates of diverse sizes for degradation.
Published: 2019

14. Dynamic relocation of the TORC1–Gtr1/2–Ego1/2/3 complex is regulated by Gtr1 and Gtr2

Author: Yuri Kumano, Eigo Takeda, Hirofumi Ukai, Takeshi Noda, Shintaro Kira, and Akira Matsuura
Subjects: 0301 basic medicine, Scaffold protein, Saccharomyces cerevisiae Proteins, Protein subunit, Mutant, Endosomes, Saccharomyces cerevisiae, GTPase, Vacuole, Biology, 03 medical and health sciences, Molecular Biology, Monomeric GTP-Binding Proteins, Cell growth, Autophagy, Intracellular Membranes, Articles, Cell Biology, Metabolism, Signaling, Cell biology, 030104 developmental biology, Vacuoles, Protein Binding, Signal Transduction, Transcription Factors
Abstract: Ego2 is characterized as a new subunit of Ego protein complex (the yeast Ragulaor counterpart) that is a scaffold of Gtr (the yeast Rag counterpart) and TORC1. Gtr1 and Gtr2 regulate the dynamic translocation of the Ego/Gtr/TORC1 supercomplex between the vacuolar limiting membrane and perivacuolar foci. This localization shift is closely associated with the TORC1 activity level., TORC1 regulates cellular growth, metabolism, and autophagy by integrating various signals, including nutrient availability, through the small GTPases RagA/B/C/D in mammals and Gtr1/2 in budding yeast. Rag/Gtr is anchored to the lysosomal/vacuolar membrane by the scaffold protein complex Ragulator/Ego. Here we show that Ego consists of Ego1 and Ego3, and novel subunit Ego2. The ∆ego2 mutant exhibited only partial defects both in Gtr1-dependent TORC1 activation and Gtr1 localization on the vacuole. Ego1/2/3, Gtr1/2, and Tor1/Tco89 were colocalized on the vacuole and associated puncta. When Gtr1 was in its GTP-bound form and TORC1 was active, these proteins were preferentially localized on the vacuolar membrane, whereas when Gtr1 was in its GDP-bound form, they were mostly localized on the puncta. The localization of TORC1 to puncta was further facilitated by direct binding to Gtr2, which is involved in suppression of TORC1 activity. Thus regulation of TORC1 activity through Gtr1/Gtr2 is tightly coupled to the dynamic relocation of these proteins.
Published: 2016

15. The PtdIns3‐phosphatase MTMR3 interacts with mTORC1 and suppresses its activity

Author: Eiji Morita, Feike Hao, Kanae Shirahama-Noda, Tamotsu Yoshimori, Takeshi Noda, and Takashi Itoh
Subjects: 0301 basic medicine, Myotubularin, PI3P, mTORC1, Biochemistry, Serine, chemistry.chemical_compound, Mice, Structural Biology, Catalytic Domain, Cells, Cultured, Kinase, TOR Serine-Threonine Kinases, Protein Tyrosine Phosphatases, Non-Receptor, Cell biology, mTOR complex1, Protein Transport, mTOR, RNA Interference, biological phenomena, cell phenomena, and immunity, Signal Transduction, autophagy, Recombinant Fusion Proteins, Phosphatase, Biophysics, Biology, Mechanistic Target of Rapamycin Complex 1, 03 medical and health sciences, Enzyme activator, Genetics, Research Letter, Animals, Humans, Protein Interaction Domains and Motifs, Phosphatidylinositol, Molecular Biology, Protein Kinase Inhibitors, Adaptor Proteins, Signal Transducing, mTOR Associated Protein, LST8 Homolog, Autophagy, Cell Biology, Regulatory-Associated Protein of mTOR, MTMR3, Embryo, Mammalian, Research Letters, Peptide Fragments, Ptdlns3P phosphatase, Enzyme Activation, 030104 developmental biology, HEK293 Cells, chemistry, Amino Acid Substitution, Multiprotein Complexes, Mutation, Gene Deletion
Abstract: Macroautophagy is a major intracellular degradation system. We previously reported that overexpression of phosphatase-deficient MTMR3, a member of the myotubularin phosphatidylinositol (PI) 3-phosphatase family, leads to induction of autophagy. In this study, we found that MTMR3 interacted with mTORC1, an evolutionarily conserved serine/threonine kinase complex, which regulates cell growth and autophagy in response to environmental stimuli. Furthermore, overexpression of MTMR3 inhibited mTORC1 activity. The N-terminal half of MTMR3, including the PH-G and phosphatase domains, was necessary and sufficient for these effects. Phosphatase-deficient MTMR3 provided more robust suppression of mTORC1 activity than wild-type MTMR3. Furthermore, phosphatase-deficient full length MTMR3 and the phosphatase domain alone were localized to the Golgi. These results suggest a new regulatory mechanism of mTORC1 in association with PI3P.
Published: 2015

16. Induction of selective autophagy in cells replicating hepatitis C virus genome

Author: Yoshiharu Matsuura, Takasuke Fukuhara, Toru Okamoto, Chikako Ono, Takeshi Noda, Yuzy Fauzyah, Tamotsu Yoshimori, Asuka Sato, Tomokazu Tamura, Masami Wada, and Hiroyuki Mori
Subjects: 0301 basic medicine, Hepatitis C virus, ATG5, Lactosylceramides, Autophagy-Related Proteins, Hepacivirus, medicine.disease_cause, Virus Replication, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Ubiquitin, Virology, medicine, Autophagy, Humans, Gene, biology, virus diseases, Bafilomycin, Autophagy-related protein 13, digestive system diseases, 030104 developmental biology, chemistry, Cell culture, biology.protein, Hepatocytes, biological phenomena, cell phenomena, and immunity
Abstract: Hepatitis C virus (HCV) infection is known to induce autophagy, but the mechanism of autophagy induced by HCV remains controversial. Here, we investigated the characteristics of autophagy induced by HCV infection. First, to examine the involvement of autophagy-related gene (ATG) proteins in HCV-induced LC3 lipidation, we established ATG5, ATG13 or ATG14 knockout (KO) Huh7.5.1 cell lines and confirmed that the accumulation of lipidated LC3 was induced in an ATG13- and ATG14-independent manner. On the other hand, HCV infectivity was not influenced by deficiencies in these genes. We also confirmed that LC3-positive dots were co-localized with ubiquitinated aggregates, and deficiency of ATG5 or ATG14 enhanced the accumulation of ubiquitinated aggregates compared to that in the restored cells, suggesting that HCV infection induces ATG5- and ATG14-dependent selective autophagy. Moreover, LC3-positive ubiquitinated aggregates accumulated near the site of the replication complex. We further examined autophagy flux in cells replicating HCV RNA using bafilomycin or E64d, and found that the increase of LC3 lipidation by treatment with bafilomycin or E64d was impaired in HCV-replicating cells, suggesting that autophagy flux is inhibited by the progress of HCV infection. Our present study suggests that (1) HCV RNA replication induces selective autophagy and (2) the progress of HCV infection impairs autophagy flux.
Published: 2018

17. Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

Author: 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
Subjects: [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.
Published: 2016

18. Vacuole-mediated selective regulation of TORC1-Sch9 signaling following oxidative stress

Author: Eigo Takeda, Akira Matsuura, Eisuke Itakura, Shintaro Kira, Lois S. Weisman, Natsuko Jin, Takeshi Noda, and Yoshiaki Kamada
Subjects: 0301 basic medicine, Cell signaling, Saccharomyces cerevisiae Proteins, TORC1 signaling, Vacuole, Saccharomyces cerevisiae, Biology, Protein Serine-Threonine Kinases, 03 medical and health sciences, chemistry.chemical_compound, Gene Expression Regulation, Fungal, Gene Regulatory Networks, Phosphatidylinositol, Protein kinase A, Molecular Biology, Regulation of gene expression, Autophagy, Cell Biology, Cell biology, Oxidative Stress, 030104 developmental biology, chemistry, Microscopy, Fluorescence, Vacuoles, Signal transduction, Signal Transduction, Transcription Factors
Abstract: Target of rapamycin complex 1 (TORC1) is a central cellular signaling coordinator that allows eukaryotic cells to adapt to the environment. In the budding yeast, Saccharomyces cerevisiae, TORC1 senses nitrogen and various stressors and modulates proteosynthesis, nitrogen uptake and metabolism, stress responses, and autophagy. There is some indication that TORC1 may regulate these downstream pathways individually. However, the potential mechanisms for such differential regulation are unknown. Here we show that the serine/threonine protein kinase Sch9 branch of TORC1 signaling depends specifically on the integrity of the vacuolar membrane, and this dependency originates in changes in Sch9 localization reflected by phosphatidylinositol 3,5-bisphosphate. Moreover, oxidative stress induces the delocalization of Sch9 from vacuoles, contributing to the persistent inhibition of the Sch9 branch after stress. Thus, our results establish that regulation of the vacuolar localization of Sch9 serves as a selective switch for the Sch9 branch in divergent TORC1 signaling. We propose that the Sch9 branch integrates the intrinsic activity of TORC1 kinase and vacuolar status, which is monitored by the phospholipids of the vacuolar membrane, into the regulation of macromolecular synthesis.
Published: 2017

19. Autophagy in the context of the cellular membrane-trafficking system: the enigma of Atg9 vesicles

Author: Takeshi Noda
Subjects: 0301 basic medicine, autophagy, Membrane lipids, Autophagy-Related Proteins, Context (language use), Review Article, Biology, Biochemistry, Cell membrane, 03 medical and health sciences, trafficking, medicine, Animals, Humans, Review Articles, Vesicle, Endoplasmic reticulum, Autophagy, Cell Membrane, Biological Transport, Cell biology, endoplasmic reticulum, 030104 developmental biology, medicine.anatomical_structure, Membrane protein, Intracellular
Abstract: Macroautophagy is an intracellular degradation system that involves the de novo formation of membrane structures called autophagosomes, although the detailed process by which membrane lipids are supplied during autophagosome formation is yet to be elucidated. Macroautophagy is thought to be associated with canonical membrane trafficking, but several mechanistic details are still missing. In this review, the current understanding and potential mechanisms by which membrane trafficking participates in macroautophagy are described, with a focus on the enigma of the membrane protein Atg9, for which the proximal mechanisms determining its movement are disputable, despite its key role in autophagosome formation.
Published: 2017

20. Endothelial cells are intrinsically defective in xenophagy of Streptococcus pyogenes

Author: Tatsuya Kusaba, Yee Shin Lin, Tsuyoshi Kawabata, Hiroko Omori, Shiou Ling Lu, Takeshi Noda, Hirokazu Arimoto, Yi Lin Cheng, Ryo Iwamoto, Maho Hamasaki, and Tamotsu Yoshimori
Subjects: 0301 basic medicine, Autophagosome, Bacterial Diseases, Salmonellosis, medicine.disease_cause, Pathology and Laboratory Medicine, Biochemistry, Epithelium, chemistry.chemical_compound, Ubiquitin, Animal Cells, Salmonella, Phagosomes, Xenophagy, Medicine and Health Sciences, Small interfering RNAs, Post-Translational Modification, lcsh:QH301-705.5, biology, Cell Death, Neurochemistry, Cell biology, Bacterial Pathogens, Nucleic acids, Infectious Diseases, Cell Processes, Medical Microbiology, Host-Pathogen Interactions, Cellular Types, Anatomy, Neurochemicals, Pathogens, Research Article, lcsh:Immunologic diseases. Allergy, Streptococcus pyogenes, Autophagic Cell Death, 030106 microbiology, Immunology, Nitric Oxide, Microbiology, Nitric oxide, Cell Line, 03 medical and health sciences, Enterobacteriaceae, Virology, Streptococcal Infections, medicine, Genetics, Autophagy, Humans, Non-coding RNA, Molecular Biology, Microbial Pathogens, Bacteria, Ubiquitination, Organisms, Biology and Life Sciences, Endothelial Cells, Proteins, Epithelial Cells, Cell Biology, Gene regulation, Biological Tissue, chemistry, lcsh:Biology (General), Cell culture, biology.protein, RNA, Parasitology, Gene expression, lcsh:RC581-607, Biogenesis, Neuroscience
Abstract: Group A Streptococcus (GAS) is deleterious pathogenic bacteria whose interaction with blood vessels leads to life-threatening bacteremia. Although xenophagy, a special form of autophagy, eliminates invading GAS in epithelial cells, we found that GAS could survive and multiply in endothelial cells. Endothelial cells were competent in starvation-induced autophagy, but failed to form double-membrane structures surrounding GAS, an essential step in xenophagy. This deficiency stemmed from reduced recruitment of ubiquitin and several core autophagy proteins in endothelial cells, as demonstrated by the fact that it could be rescued by exogenous coating of GAS with ubiquitin. The defect was associated with reduced NO-mediated ubiquitin signaling. Therefore, we propose that the lack of efficient clearance of GAS in endothelial cells is caused by their intrinsic inability to target GAS with ubiquitin to promote autophagosome biogenesis for xenophagy., Author summary Autophagy is an intracellular bulk degradation system to survive within starved condition, which is one of the most common threats limiting organism’s expansion. By the system, cells digest their own cytoplasmic compartments that are sequestered by double membrane structure called autophagosome. It is also utilized for selective targeting of unwanted materials inside the cells including invading bacteria. This system targeting bacteria is called xenophagy, and provides “non-specialists” with innate immune system. Xenophagy is well characterized in epithelial cells since they are primary targets for invading bacteria. However, even though bacterial penetration into blood vessel could cause severe symptoms, it remains unknown weather endothelial cells retain functional xenophagy fighting against them. In this report, we showed that endothelial cells fail to suppress group A Streptococcus (GAS) growth due to defect in xenophagy. It is due to endothelial cell’s defect in ubiquitination of GAS, which plays a key role in target recognition during selective autophagy. Because we confirmed that endothelial cells are proficient in canonical, non-selective autophagy, our findings illustrate intrinsic defect in xenophagy as unique but general character of endothelial cells, shedding light onto cell type specificity in selective autophagy.
Published: 2017

21. Quantitative Assay of Macroautophagy Using Pho8△60 Assay and GFP-Cleavage Assay in Yeast

Author: Shintaro Kira, Yasuhiro Araki, and Takeshi Noda
Subjects: 0301 basic medicine, chemistry.chemical_classification, Autophagy, Saccharomyces cerevisiae, Vacuole, Biology, Cleavage (embryo), biology.organism_classification, Yeast, Green fluorescent protein, Amino acid, Cell biology, 03 medical and health sciences, 030104 developmental biology, Biochemistry, chemistry, Quantitative assay
Abstract: It is intrinsically difficult to directly measure a specific protein reduction that is mediated by nonselective autophagy, because the degradation proceeds at a relatively slow pace, and the residual nondegraded part becomes the background. Several methods for measuring nonselective autophagy have been reported in the past. One classical simple method is called bulk degradation assay, which measures the release of degraded amino acids after radioisotope labeling of the total cellular proteins. In 1995, we developed a quantitative Pho8△60 assay in the yeast, Saccharomyces cerevisiae, for studying autophagy, which is widely used for its advantages that are described in the following sections. Another method used in recent times is the GFP-based processing assay in yeast. We will describe these two methods in this chapter.
Published: 2017

22. Reciprocal conversion of Gtr1 and Gtr2 nucleotide-binding states by Npr2-Npr3 inactivates TORC1 and induces autophagy

Author: Keisuke Tabata, Akiko Nozoe, Kanae Shirahama-Noda, Tamotsu Yoshimori, Takeshi Noda, and Shintaro Kira
Subjects: Programmed cell death, autophagy, Saccharomyces cerevisiae Proteins, GTPase-activating protein, Mutant, Vacuole, GTPase, Saccharomyces cerevisiae, Biology, BAG3, Animals, Molecular Biology, ATG16L1, Monomeric GTP-Binding Proteins, Gtr1, Gtr2, Autophagy, Intracellular Signaling Peptides and Proteins, Cell Biology, RAG, Basic Research Paper, Cell biology, TORC1, Biochemistry, Protein Kinases, Protein Binding, Signal Transduction, Transcription Factors
Abstract: Autophagy is an intracellular degradation process that delivers cytosolic material to lysosomes and vacuoles. To investigate the mechanisms that regulate autophagy, we performed a genome-wide screen using a yeast deletion-mutant collection, and found that Npr2 and Npr3 mutants were defective in autophagy. Their mammalian homologs, NPRL2 and NPRL3, were also involved in regulation of autophagy. Npr2-Npr3 function upstream of Gtr1-Gtr2, homologs of the mammalian RRAG GTPase complex, which is crucial for TORC1 regulation. Both npr2∆ mutants and a GTP-bound Gtr1 mutant suppressed autophagy and increased Tor1 vacuole localization. Furthermore, Gtr2 binds to the TORC1 subunit Kog1. A GDP-bound Gtr1 mutant induced autophagy even under nutrient-rich conditions, and this effect was dependent on the direct binding of Gtr2 to Kog1. These results revealed that 2 molecular mechanisms, Npr2-Npr3-dependent GTP hydrolysis of Gtr1 and direct binding of Gtr2 to Kog1, are involved in TORC1 inactivation and autophagic induction.
Published: 2014

23. Recruitment of the autophagic machinery to endosomes during infection is mediated by ubiquitin

Author: Naonobu Fujita, Megumi Nakaoka, Shizuo Akira, Tokuko Haraguchi, Shouhei Kobayashi, Tetsuo Umemoto, Atsushi Tanaka, Mitsunori Fukuda, Tamotsu Yoshimori, Tatsuya Saitoh, Takashi Itoh, Takeshi Noda, Koutaro Ishibashi, Eiji Morita, Fuminori Tokunaga, Kazunobu Saito, Hitoshi Nakatogawa, Kazuhiro Iwai, Yuki Osada, and Jun-Lin Guan
Subjects: Salmonella typhimurium, Time Factors, Endosome, Autophagy-Related Proteins, Endosomes, Transfection, Article, Mice, Ubiquitin, Autophagy, Xenophagy, Animals, Humans, Research Articles, biology, HEK 293 cells, Intracellular Signaling Peptides and Proteins, Ubiquitination, Signal transducing adaptor protein, Cell Biology, Protein-Tyrosine Kinases, Ubiquitin ligase, Cell biology, HEK293 Cells, Biochemistry, embryonic structures, Host-Pathogen Interactions, NIH 3T3 Cells, biology.protein, biological phenomena, cell phenomena, and immunity, Carrier Proteins, Microtubule-Associated Proteins, HeLa Cells, Signal Transduction
Abstract: After bacterial invasion, ubiquitin is conjugated to host endosomal proteins and recognized by the autophagic machinery independent of LC3., Although ubiquitin is thought to be important for the autophagic sequestration of invading bacteria (also called xenophagy), its precise role remains largely enigmatic. Here we determined how ubiquitin is involved in this process. After invasion, ubiquitin is conjugated to host cellular proteins in endosomes that contain Salmonella or transfection reagent–coated latex (polystyrene) beads, which mimic invading bacteria. Ubiquitin is recognized by the autophagic machinery independently of the LC3–ubiquitin interaction through adaptor proteins, including a direct interaction between ubiquitin and Atg16L1. To ensure that invading pathogens are captured and degraded, Atg16L1 targeting is secured by two backup systems that anchor Atg16L1 to ubiquitin-decorated endosomes. Thus, we reveal that ubiquitin is a pivotal molecule that connects bacteria-containing endosomes with the autophagic machinery upstream of LC3.
Published: 2013

24. Atg9A trafficking through the recycling endosomes is required for autophagosome formation

Author: Kenta Imai, Yasuhiro Tsuji, Yukako Oe, Feike Hao, Yasuhiro Araki, Takeshi Noda, Naonobu Fujita, Maho Hamasaki, and Tamotsu Yoshimori
Subjects: 0301 basic medicine, Autophagosome, Endosome, Protein subunit, Amino Acid Motifs, Adaptor Protein Complex 2, Vesicular Transport Proteins, Autophagy-Related Proteins, Endosomes, Biology, Models, Biological, 03 medical and health sciences, symbols.namesake, Structure-Activity Relationship, Salmonella, Autophagy, Animals, Humans, Mice, Knockout, Autophagosomes, Signal transducing adaptor protein, Membrane Proteins, Cell Biology, Golgi apparatus, Transmembrane protein, Endocytosis, Cell biology, Protein Transport, 030104 developmental biology, Cytoplasm, Gene Knockdown Techniques, symbols, Tyrosine, HeLa Cells, trans-Golgi Network
Abstract: Autophagy is an intracellular degradation pathway conserved in eukaryote. Among core Autophagy-related (Atg) proteins, mammalian Atg9A is the sole multi-spanning transmembrane protein, and both of the N- and C-terminal domains are exposed to the cytoplasm. It is known that Atg9A travels through the trans-Golgi network (TGN) and the endosomal system under nutrient-rich conditions and transiently localizes to the autophagosome upon autophagy-induction. However, the significance of Atg9A trafficking in autophagosome formation remains elusive. Here we identified sorting motifs at the N-terminal cytosolic stretch of Atg9A, which interact with an adaptor protein, AP-2. Atg9A mutant at the sorting motifs could not execute autophagy and is abnormally accumulated at the recycling endosomes. These combinational defects in autophagy and the Atg9A traffic out of the recycling endosomes were also caused by the knock down of TRAPPC8, a specific subunit of the TRAPPIII complex. These results show directly that the trafficking of Atg9A through the recycling endosomes is an essential step for autophagosome formation.
Published: 2016

25. Three-Axis Model for Atg Recruitment in Autophagy againstSalmonella

Author: Shun Kageyama, Tamotsu Yoshimori, Naonobu Fujita, and Takeshi Noda
Subjects: Serotype, Salmonella, biology, lcsh:Cytology, Autophagy, Review Article, Cell Biology, Vacuole, ULK1, biology.organism_classification, medicine.disease_cause, Cell biology, Salmonella enterica, Isolation membrane, Immunology, medicine, lcsh:QH573-671, Bacteria
Abstract: Salmonella entericaserovar Typhimurium enter epithelial cells and take up residence there. Within epithelial cells, a portion of the bacteria are surrounded by an autophagosome-like double-membrane structure, and they are still residing within theSalmonella-containing vacuole (SCV). In this paper, we will discuss how the autophagy machinery is recruited in proximity toSalmonella. The formation of this double membrane requires Atg9L1 and FIP200; these proteins are important for autophagy-specific recruitment of the PI3-kinase complex. In the absence of Atg9L1, FIP200, and PI3-kinase activity, LC3 is still recruited to the vicinity ofSalmonella. We propose a novel model in which the mechanism of LC3 recruitment is separate from the generation of the isolation membrane. There exist at least three axes in Atg recruitment: ULK1 complex, Atg9L1, and Atg16L complex.
Published: 2012

26. The LC3 recruitment mechanism is separate from Atg9L1-dependent membrane formation in the autophagic response against Salmonella

Author: Tamotsu Yoshimori, Shizuo Akira, Shun Kageyama, Tatsuya Saitoh, Jun-Lin Guan, Takeshi Noda, Fumio Imamoto, Hiroko Omori, and Takefumi Sone
Subjects: Salmonella, Vesicular Transport Proteins, Autophagy-Related Proteins, Vacuole, medicine.disease_cause, chemistry.chemical_compound, Mice, Phosphatidylinositol 3-Kinases, Phagosomes, medicine, Autophagy, Animals, Phosphatidylinositol, Molecular Biology, PI3K/AKT/mTOR pathway, chemistry.chemical_classification, biology, Intracellular Signaling Peptides and Proteins, Membrane Proteins, Cell Biology, Articles, biology.organism_classification, Cell biology, Enzyme, chemistry, Membrane Trafficking, Focal Adhesion Kinase 1, embryonic structures, Salmonella Infections, Vacuoles, NIH 3T3 Cells, biological phenomena, cell phenomena, and immunity, Microtubule-Associated Proteins, Bacteria
Abstract: When Salmonella invade mammalian epithelial cells, some populations are surrounded by the autophagy protein LC3. We found that LC3 was recruited in proximity to Salmonella independently of both Atg9L1 and FIP200, which are required for formation of autophagosomes. The dynamics of the ULK1 complex and Atg9L1 were dependent on one another., Salmonella develops into resident bacteria in epithelial cells, and the autophagic machinery (Atg) is thought to play an important role in this process. In this paper, we show that an autophagosome-like double-membrane structure surrounds the Salmonella still residing within the Salmonella-containing vacuole (SCV). This double membrane is defective in Atg9L1- and FAK family-interacting protein of 200 kDa (FIP200)-deficient cells. Atg9L1 and FIP200 are important for autophagy-specific recruitment of the phosphatidylinositol 3-kinase (PI3K) complex. However, in the absence of Atg9L1, FIP200, and the PI3K complex, LC3 and its E3-like enzyme, the Atg16L complex, are still recruited to Salmonella. We propose that the LC3 system is recruited through a mechanism that is independent of isolation membrane generation.
Published: 2011

27. Rubicon and PLEKHM1 Negatively Regulate the Endocytic/Autophagic Pathway via a Novel Rab7-binding Domain

Author: Tamotsu Yoshimori, Kohichi Matsunaga, Ayuko Sakane, Keisuke Tabata, Takuya Sasaki, and Takeshi Noda
Subjects: Autophagosome maturation, Immunoblotting, Endocytic cycle, Autophagy-Related Proteins, Endocytosis, Phosphatidylinositol 3-Kinases, Membrane Transport Modulators, Autophagy, Humans, Protein Interaction Domains and Motifs, Molecular Biology, Adaptor Proteins, Signal Transducing, Membrane Glycoproteins, biology, Intracellular Signaling Peptides and Proteins, Membrane Proteins, rab7 GTP-Binding Proteins, Articles, Cell Biology, Transport protein, Cell biology, Protein Transport, Membrane glycoproteins, Microscopy, Fluorescence, Membrane protein, Membrane Trafficking, rab GTP-Binding Proteins, biology.protein, Beclin-1, Apoptosis Regulatory Proteins, Lysosomes, HeLa Cells, Binding domain
Abstract: Rubicon, a subunit of the Beclin 1-PI3-kinase complex and its homologue, PLEKHM1, negatively regulate endocytic pathway through the interaction with Rab7. Synchronous association with the Beclin 1–PI3-kinase complex and Rab7 is necessary for the function of Rubicon, but not PLEKHM1., The endocytic and autophagic pathways are involved in the membrane trafficking of exogenous and endogenous materials to lysosomes. However, the mechanisms that regulate these pathways are largely unknown. We previously reported that Rubicon, a Beclin 1–binding protein, negatively regulates both the autophagic and endocytic pathways by unidentified mechanisms. In this study, we performed database searches to identify potential Rubicon homologues that share the common C-terminal domain, termed the RH domain. One of them, PLEKHM1, the causative gene of osteopetrosis, also suppresses endocytic transport but not autophagosome maturation. Rubicon and PLEKHM1 specifically and directly interact with Rab7 via their RH domain, and this interaction is critical for their function. Furthermore, we show that Rubicon but not PLEKHM1 uniquely regulates membrane trafficking via simultaneously binding both Rab7 and PI3-kinase.
Published: 2010

28. Regulation of membrane biogenesis in autophagy via PI3P dynamics

Author: Tamotsu Yoshimori, Kohichi Matsunaga, Takeshi Noda, and Naoko Taguchi-Atarashi
Subjects: Autophagosome, Autophagy, Intracellular Membranes, Cell Biology, Biology, Autophagosome formation, BAG3, Phosphoric Monoester Hydrolases, Cell biology, Phosphatidylinositol 3-Kinases, medicine.anatomical_structure, Phosphatidylinositol Phosphates, Cytoplasm, Phagosomes, Lysosome, Membrane biogenesis, medicine, Animals, Humans, Developmental Biology
Abstract: In autophagy, cytoplasmic substrates are targeted for degradation in the lysosome via membrane structures called autophagosomes. The formation of the autophagosome is the primary regulatory point for autophagy activity, and PI3P plays a central role in this process. In this review, we will discuss the role of PI3P in autophagosome formation from three different perspectives: PI3-kinase, PI3-binding proteins, and PI3-phosphatase. Recent developments in this field suggest that the local PI3P concentration is dynamically regulated during autophagy, and that this molecule is critical to the proper control of autophagy.
Published: 2010

29. Autophagy requires endoplasmic reticulum targeting of the PI3-kinase complex via Atg14L

Author: Eiji Morita, Kohichi Matsunaga, Shizuo Akira, Nicholas T. Ktistakis, Takeshi Noda, Tamotsu Yoshimori, Tatsuya Saitoh, and Tetsuro Izumi
Subjects: Autophagosome, Recombinant Fusion Proteins, Immunology, Molecular Sequence Data, Mutant, Autophagy-Related Proteins, Phosphatidylinositol 3-Kinases, Biology, Endoplasmic Reticulum, Cell Line, chemistry.chemical_compound, Phosphatidylinositol Phosphates, Report, Phagosomes, Autophagy, Immunology and Allergy, Animals, Humans, Amino Acid Sequence, Phosphatidylinositol, RNA, Small Interfering, Research Articles, Omegasome, Kinase, Endoplasmic reticulum, Cell Membrane, Membrane Proteins, Cell Biology, Cell biology, Adaptor Proteins, Vesicular Transport, chemistry, Beclin-1, Apoptosis Regulatory Proteins, Carrier Proteins, Sequence Alignment
Abstract: Generation of PI3P in the normally PI3P-deficient ER membrane makes the organelle a platform for autophagosome formation., Autophagy is a catabolic process that allows cells to digest their cytoplasmic constituents via autophagosome formation and lysosomal degradation. Recently, an autophagy-specific phosphatidylinositol 3-kinase (PI3-kinase) complex, consisting of hVps34, hVps15, Beclin-1, and Atg14L, has been identified in mammalian cells. Atg14L is specific to this autophagy complex and localizes to the endoplasmic reticulum (ER). Knockdown of Atg14L leads to the disappearance of the DFCP1-positive omegasome, which is a membranous structure closely associated with both the autophagosome and the ER. A point mutation in Atg14L resulting in defective ER localization was also defective in the induction of autophagy. The addition of the ER-targeting motif of DFCP1 to this mutant fully complemented the autophagic defect in Atg14L knockout embryonic stem cells. Thus, Atg14L recruits a subset of class III PI3-kinase to the ER, where otherwise phosphatidylinositol 3-phosphate (PI3P) is essentially absent. The Atg14L-dependent appearance of PI3P in the ER makes this organelle the platform for autophagosome formation.
Published: 2010

30. Combinational Soluble N-Ethylmaleimide-sensitive Factor Attachment Protein Receptor Proteins VAMP8 and Vti1b Mediate Fusion of Antimicrobial and Canonical Autophagosomes with Lysosomes

Author: Nobumichi Furuta, Naonobu Fujita, Takeshi Noda, Atsuo Amano, and Tamotsu Yoshimori
Subjects: Streptococcus pyogenes, Recombinant Fusion Proteins, Endocytic cycle, Biology, Syntaxin 17, R-SNARE Proteins, Phagosomes, Streptococcal Infections, Lysosome, Autophagy, medicine, Humans, Syntaxin, RNA, Small Interfering, Molecular Biology, Phagosome, LAMP1, Articles, Cell Biology, Qb-SNARE Proteins, Cell biology, medicine.anatomical_structure, Membrane protein, Membrane Trafficking, RNA Interference, biological phenomena, cell phenomena, and immunity, Lysosomes, SNARE Proteins, Microtubule-Associated Proteins, HeLa Cells
Abstract: Autophagy (xenophagy) degrades intracellular bacteria. The cargoes are degraded after the fusion of xenophagosomes with lysosomes. However, the molecular mechanism underlying the fusion remains unclear. Here we show that combinational SNARE proteins VAMP8 and Vti1b mediate fusion of antimicrobial and canonical autophagosomes with lysosomes., Autophagy plays a crucial role in host defense, termed antimicrobial autophagy (xenophagy), as it functions to degrade intracellular foreign microbial invaders such as group A Streptococcus (GAS). Xenophagosomes undergo a stepwise maturation process consisting of a fusion event with lysosomes, after which the cargoes are degraded. However, the molecular mechanism underlying xenophagosome/lysosome fusion remains unclear. We examined the involvement of endocytic soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNAREs) in xenophagosome/lysosome fusion. Confocal microscopic analysis showed that SNAREs, including vesicle-associated membrane protein (VAMP)7, VAMP8, and vesicle transport through interaction with t-SNAREs homologue 1B (Vti1b), colocalized with green fluorescent protein-LC3 in xenophagosomes. Knockdown of Vti1b and VAMP8 with small interfering RNAs disturbed the colocalization of LC3 with lysosomal membrane protein (LAMP)1. The invasive efficiency of GAS into cells was not altered by knockdown of VAMP8 or Vti1b, whereas cellular bactericidal efficiency was significantly diminished, indicating that antimicrobial autophagy was functionally impaired. Knockdown of Vti1b and VAMP8 also disturbed colocalization of LC3 with LAMP1 in canonical autophagy, in which LC3-II proteins were negligibly degraded. In contrast, knockdown of Syntaxin 7 and Syntaxin 8 showed little effect on the autophagic fusion event. These findings strongly suggest that the combinational SNARE proteins VAMP8 and Vti1b mediate the fusion of antimicrobial and canonical autophagosomes with lysosomes, an essential event for autophagic degradation.
Published: 2010

31. Modulation of Local PtdIns3P Levels by the PI Phosphatase MTMR3 Regulates Constitutive Autophagy

Author: Nicholas T. Ktistakis, Takeshi Noda, Maho Hamasaki, Tamotsu Yoshimori, Hiroko Omori, Kohichi Matsunaga, and Naoko Taguchi-Atarashi
Subjects: Autophagosome, Mutant, Autophagy, Phosphatase, Cell Biology, Protein tyrosine phosphatase, Biology, Protein Tyrosine Phosphatases, Non-Receptor, Biochemistry, Cell Line, Cell biology, Phosphatidylinositol 3-Kinases, medicine.anatomical_structure, Phosphatidylinositol Phosphates, Structural Biology, Cytoplasm, Phagosomes, Lysosome, Autophagosome membrane, Genetics, medicine, Humans, Lysosomes, Molecular Biology
Abstract: Autophagy is a catabolic process that delivers cytoplasmic material to the lysosome for degradation. The mechanisms regulating autophagosome formation and size remain unclear. Here, we show that autophagosome formation was triggered by the overexpression of a dominant-negative inactive mutant of Myotubularin-related phosphatase 3 (MTMR3). Mutant MTMR3 partially localized to autophagosomes, and PtdIns3P and two autophagy-related PtdIns3P-binding proteins, GFP-DFCP1 and GFP-WIPI-1alpha (WIPI49/Atg18), accumulated at sites of autophagosome formation. Knock-down of MTMR3 increased autophagosome formation, and overexpression of wild-type MTMR3 led to significantly smaller nascent autophagosomes and a net reduction in autophagic activity. These results indicate that autophagy initiation depends on the balance between PI 3-kinase and PI 3-phosphatase activity. Local levels of PtdIns3P at the site of autophagosome formation determine autophagy initiation and the size of the autophagosome membrane structure.
Published: 2010

32. A subdomain of the endoplasmic reticulum forms a cradle for autophagosome formation

Author: Takeshi Noda, Akihito Yamaguchi, Mitsuko Hayashi-Nishino, Naonobu Fujita, Akitsugu Yamamoto, and Tamotsu Yoshimori
Subjects: Omegasome, Endoplasmic reticulum, Mutant, Autophagy, Autophagy-Related Proteins, Cell Biology, Biology, Endoplasmic Reticulum, Cell Line, law.invention, Cell biology, Cysteine Endopeptidases, Mice, Membrane, Microscopy, Electron, Transmission, Cell culture, law, Phagosomes, Autophagosome membrane, Animals, Humans, Electron microscope, Carrier Proteins, Microscopy, Immunoelectron
Abstract: Autophagy is a bulk degradation process in eukaryotic cells and has fundamental roles in cellular homeostasis.The origin and source of autophagosomal membranes are long-standing questions in the field. Using electron microscopy, we show that, in mammalian culture cells, the endoplasmic reticulum (ER) associates with early autophagic structures called isolation membranes (IMs). Overexpression of an Atg4B mutant, which causes defects in autophagosome formation, induces the accumulation of ER-IM complexes. Electron tomography revealed that the ER-IM complex appears as a subdomain of the ER that formed a cradle encircling the IM, and showed that both ER and isolation membranes are interconnected.
Published: 2009

33. Differential Involvement of Atg16L1 in Crohn Disease and Canonical Autophagy

Author: Shun Kageyama, Naonobu Fujita, Tamotsu Yoshimori, Shizuo Akira, Takeshi Noda, and Tatsuya Saitoh
Subjects: Genetics, Mutation, biology, Mutant, Autophagy, Cell Biology, medicine.disease, BAG3, medicine.disease_cause, Biochemistry, Inflammatory bowel disease, Proteasome, Ubiquitin, biology.protein, medicine, Molecular Biology, ATG16L1
Abstract: A single nucleotide polymorphism in Atg16L1, an autophagy-related gene (ATG), is a risk factor for Crohn disease, a major form of chronic inflammatory bowel disease. However, it is still unknown how the Atg16L1 variant contributes to disease development. The Atg16L1 protein possesses a C-terminal WD repeat domain whose function is entirely unknown, and the Crohn disease-associated mutation (T300A) is within this domain. To elucidate the function of the WD repeat domain, we established an experimental system in which a WD repeat domain mutant of Atg16L1 is stably expressed in Atg16L1-deficient mouse embryonic fibroblasts. Using the system, we show that the Atg16L1 complex forms a dimeric complex and that the total Atg16L1 protein level is strictly maintained, possibly by the ubiquitin proteasome system. Furthermore, we show that an Atg16L1 WD repeat domain deletion and the T300A mutant have little impact on canonical autophagy and autophagy against Salmonella enterica serovar Typhimurium. Therefore, we propose that Atg16L1 T300A is differentially involved in Crohn disease and canonical autophagy.
Published: 2009

34. Two Beclin 1-binding proteins, Atg14L and Rubicon, reciprocally regulate autophagy at different stages

Author: Naoki Kurotori, Hiroko Omori, Kanae Shirahama-Noda, Takashi Satoh, Keisuke Tabata, Ikuko Maejima, Tatsuya Saitoh, Tamotsu Yoshimori, Shizuo Akira, Kohichi Matsunaga, Takeshi Noda, Toshiaki Isobe, and Tohru Ichimura
Subjects: Autophagosome, Endosome, Recombinant Fusion Proteins, Autophagosome maturation, Green Fluorescent Proteins, UVRAG, Biology, Mice, Cell Line, Tumor, Phagosomes, Lysosome, Autophagy, medicine, Animals, Humans, RNA, Small Interfering, Autophagy database, Membrane Proteins, Signal transducing adaptor protein, Cell Biology, Endocytosis, Cell biology, Adaptor Proteins, Vesicular Transport, medicine.anatomical_structure, Multiprotein Complexes, Beclin-1, Apoptosis Regulatory Proteins, Microtubule-Associated Proteins, Protein Processing, Post-Translational, Protein Binding
Abstract: Beclin 1, a protein essential for autophagy, binds to hVps34/Class III phosphatidylinositol-3-kinase and UVRAG. Here, we have identified two Beclin 1 associated proteins, Atg14L and Rubicon. Atg14L and UVRAG bind to Beclin 1 in a mutually exclusive manner, whereas Rubicon binds only to a subpopulation of UVRAG complexes; thus, three different Beclin 1 complexes exist. GFP-Atg14L localized to the isolation membrane and autophagosome, as well as to the ER and unknown puncta. Knockout of Atg14L in mouse ES cells caused a defect in autophagosome formation. GFP-Rubicon was localized at the endosome/lysosome. Knockdown of Rubicon caused enhancement of autophagy, especially at the maturation step, as well as enhancement of endocytic trafficking. These data suggest that the Beclin 1-hVps34 complex functions in two different steps of autophagy by altering the subunit composition.
Published: 2009

35. An Atg4B Mutant Hampers the Lipidation of LC3 Paralogues and Causes Defects in Autophagosome Closure

Author: Hiroko Omori, Naonobu Fujita, Hiromi Fukumoto, Takeshi Noda, Akitsugu Yamamoto, Mitsuko Hayashi-Nishino, and Tamotsu Yoshimori
Subjects: Autophagosome, Recombinant Fusion Proteins, ATG8, Green Fluorescent Proteins, ATG5, Mutant, Autophagy-Related Proteins, Lipid-anchored protein, Biology, Catalysis, Cell Line, Mice, Phagosomes, Autophagy, Animals, Humans, Molecular Biology, Phagosome, Sequence Homology, Amino Acid, Phosphatidylethanolamines, Cell Membrane, Articles, Cell Biology, Lipid Metabolism, Cell biology, Cysteine Endopeptidases, Biochemistry, Mutation, embryonic structures, Autophagosome membrane, Mutant Proteins, biological phenomena, cell phenomena, and immunity, Microtubule-Associated Proteins
Abstract: In the process of autophagy, a ubiquitin-like molecule, LC3/Atg8, is conjugated to phosphatidylethanolamine (PE) and associates with forming autophagosomes. In mammalian cells, the existence of multiple Atg8 homologues (referred to as LC3 paralogues) has hampered genetic analysis of the lipidation of LC3 paralogues. Here, we show that overexpression of an inactive mutant of Atg4B, a protease that processes pro-LC3 paralogues, inhibits autophagic degradation and lipidation of LC3 paralogues. Inhibition was caused by sequestration of free LC3 paralogues in stable complexes with the Atg4B mutant. In mutant overexpressing cells, Atg5- and ULK1-positive intermediate autophagic structures accumulated. The length of these membrane structures was comparable to that in control cells; however, a significant number were not closed. These results show that the lipidation of LC3 paralogues is involved in the completion of autophagosome formation in mammalian cells. This study also provides a powerful tool for a wide variety of studies of autophagy in the future.
Published: 2008

36. Loss of the autophagy protein Atg16L1 enhances endotoxin-induced IL-1β production

Author: Shizuo Akira, Tamotsu Yoshimori, Tohru Tsujimura, Hiroko Omori, Taro Kawai, Osamu Takeuchi, Naonobu Fujita, Takeshi Noda, Satoshi Uematsu, Masaaki Komatsu, Takashi Satoh, Naoki Yamamoto, Myoung Ho Jang, Bo-Gie Yang, Tatsuya Saitoh, and Keiji Tanaka
Subjects: Lipopolysaccharides, Lipopolysaccharide, Interleukin-1beta, Autophagy-Related Proteins, Inflammation, Protein degradation, Biology, Proinflammatory cytokine, Mice, chemistry.chemical_compound, Autophagy, medicine, Animals, ATG16L1, Multidisciplinary, Chimera, Adenine, Macrophages, Dextran Sulfate, Inflammasome, Colitis, Cell biology, Mice, Inbred C57BL, Gene Expression Regulation, Biochemistry, chemistry, Mutation, Female, Signal transduction, medicine.symptom, Carrier Proteins, medicine.drug
Abstract: Systems for protein degradation are essential for tight control of the inflammatory immune response. Autophagy, a bulk degradation system that delivers cytoplasmic constituents into autolysosomes, controls degradation of long-lived proteins, insoluble protein aggregates and invading microbes, and is suggested to be involved in the regulation of inflammation. However, the mechanism underlying the regulation of inflammatory response by autophagy is poorly understood. Here we show that Atg16L1 (autophagy-related 16-like 1), which is implicated in Crohn's disease, regulates endotoxin-induced inflammasome activation in mice. Atg16L1-deficiency disrupts the recruitment of the Atg12-Atg5 conjugate to the isolation membrane, resulting in a loss of microtubule-associated protein 1 light chain 3 (LC3) conjugation to phosphatidylethanolamine. Consequently, both autophagosome formation and degradation of long-lived proteins are severely impaired in Atg16L1-deficient cells. Following stimulation with lipopolysaccharide, a ligand for Toll-like receptor 4 (refs 8, 9), Atg16L1-deficient macrophages produce high amounts of the inflammatory cytokines IL-1beta and IL-18. In lipopolysaccharide-stimulated macrophages, Atg16L1-deficiency causes Toll/IL-1 receptor domain-containing adaptor inducing IFN-beta (TRIF)-dependent activation of caspase-1, leading to increased production of IL-1beta. Mice lacking Atg16L1 in haematopoietic cells are highly susceptible to dextran sulphate sodium-induced acute colitis, which is alleviated by injection of anti-IL-1beta and IL-18 antibodies, indicating the importance of Atg16L1 in the suppression of intestinal inflammation. These results demonstrate that Atg16L1 is an essential component of the autophagic machinery responsible for control of the endotoxin-induced inflammatory immune response.
Published: 2008

37. Transport of phosphatidylinositol 3-phosphate into the vacuole via autophagic membranes in Saccharomyces cerevisiae

Author: Yoshinori Ohsumi, Takeshi Noda, Keisuke Obara, and Kaori Niimi
Subjects: Autophagosome, Saccharomyces cerevisiae Proteins, Endosomal Sorting Complexes Required for Transport, biology, Endosome, Protein subunit, Phosphatidylinositol 3-phosphate, Autophagy, Saccharomyces cerevisiae, Cell Biology, Vacuole, Protein Serine-Threonine Kinases, biology.organism_classification, Cell biology, Vacuolar Sorting Protein VPS15, Phosphatidylinositol 3-Kinases, chemistry.chemical_compound, chemistry, Vacuoles, Genetics, Bacterial outer membrane
Abstract: Vps34, the sole PtdIns 3-kinase in yeast, is essential for autophagy. Here, we show that the lipid-kinase activity of Vps34 is required for autophagy, implying an essential role of its product PtdIns(3)P. The protein-kinase activity of Vps15, a regulatory subunit of the PtdIns 3-kinase complex, is also required for efficient autophagy. We monitored the distribution of PtdIns(3)P in living cells using a specific indicator, the 2xFYVE domain derived from mammalian Hrs. PtdIns(3)P was abundant at endosomes and on the vacuolar membrane during logarithmic growth phase. Under starvation conditions, we observed massive transport of PtdIns(3)P into the vacuole. This accumulation was dependent on the membrane dynamics of autophagy. Notably, PtdIns(3)P was highly enriched and delivered into the vacuole as a component of autophagosome membranes but not as a cargo enclosed within them, implying direct involvement of this phosphoinositide in autophagosome formation. We also found a possible enrichment of PtdIns(3)P on the inner autophagosomal membrane compared to the outer membrane. Based on these results we discuss the function of PtdIns(3)P in autophagy.
Published: 2008

38. Dynein-dependent Movement of Autophagosomes Mediates Efficient Encounters with Lysosomes

Author: Shunsuke Kimura, Takeshi Noda, and Tamotsu Yoshimori
Subjects: Autophagosome, Time Factors, Microinjections, Physiology, Movement, Dynein, Biology, Microtubules, Cell Line, Mice, Microtubule, Phagosomes, Lysosome, Organelle, Autophagy, medicine, Animals, Molecular Biology, Centrosome, Antibodies, Monoclonal, Dyneins, Cell Biology, General Medicine, Cell biology, medicine.anatomical_structure, Cytoplasm, Cattle, Lysosomes, Microtubule-Associated Proteins
Abstract: Autophagy is a membrane trafficking pathway that carries cytosolic components to the lysosome for degradation. During this process, the autophagosome, a double-membraned organelle, is generated de novo, sequesters cytoplasmic proteins and organelles, and delivers them to lysosomes. However, the mechanism by which autophagosomes are targeted to lysosomes has not been determined. Here, we observed the real-time behavior of microtubule-associated protein light chain 3 (LC3), which localizes to autophagosomes, and showed that autophagosomes move in a microtubule- and dynein-dynactin motor complex-dependent manner. After formation, autophagosomes show a rapid vectorial movement in the direction of the centrosome, where lysosomes are usually concentrated. Microinjection of antibodies against LC3 inhibited this movement; furthermore, using FRAP, we showed that anti-LC3 antibody injection caused a defect in targeting of autophagosomes to lysosomes. Collectively, our data demonstrate the functional significance of autophagosome movement that enables effective delivery from the cytosol to lysosomes.
Published: 2008

39. Processing of ATG8s, ubiquitin-like proteins, and their deconjugation by ATG4s are essential for plant autophagy

Author: Shusei Sato, Kohki Yoshimoto, Satoshi Tabata, Yoshinori Ohsumi, Takeshi Noda, Hideki Hanaoka, and Tomohiko Kato
Subjects: DNA, Bacterial, Vacuolar Proton-Translocating ATPases, Nitrogen, Recombinant Fusion Proteins, ATG8, Transgene, Arabidopsis, Plant Science, Vacuole, Plant Roots, Microscopy, Electron, Transmission, Gene Expression Regulation, Plant, Autophagy, Arabidopsis thaliana, Enzyme Inhibitors, Gene, Research Articles, biology, Arabidopsis Proteins, Ubiquitin, Genetic Complementation Test, Gene Expression Regulation, Developmental, Cell Biology, Plants, Genetically Modified, biology.organism_classification, Cell biology, Biochemistry, Cytoplasm, Mutation, Vacuoles, Microtubule-Associated Proteins
Abstract: Autophagy is an intracellular process for vacuolar degradation of cytoplasmic components. Thus far, plant autophagy has been studied primarily using morphological analyses. A recent genome-wide search revealed significant conservation among autophagy genes ( ATG s) in yeast and plants. It has not been proved, however, that Arabidopsis thaliana ATG genes are required for plant autophagy. To evaluate this requirement, we examined the ubiquitination-like Atg8 lipidation system, whose component genes are all found in the Arabidopsis genome. In Arabidopsis, all nine ATG8 genes and two ATG4 genes were expressed ubiquitously and were induced further by nitrogen starvation. To establish a system monitoring autophagy in whole plants, we generated transgenic Arabidopsis expressing each green fluorescent protein–ATG8 fusion (GFP-ATG8). In wild-type plants, GFP-ATG8s were observed as ring shapes in the cytoplasm and were delivered to vacuolar lumens under nitrogen-starved conditions. By contrast, in a T-DNA insertion double mutant of the ATG4 s ( atg4a4b-1 ), autophagosomes were not observed, and the GFP-ATG8s were not delivered to the vacuole under nitrogen-starved conditions. In addition, we detected autophagic bodies in the vacuoles of wild-type roots but not in those of atg4a4b-1 in the presence of concanamycin A, a V-ATPase inhibitor. Biochemical analyses also provided evidence that autophagy in higher plants requires ATG proteins. The phenotypic analysis of atg4a4b-1 indicated that plant autophagy contributes to the development of a root system under conditions of nutrient limitation.
Published: 2004

40. The early secretory pathway contributes to autophagy in yeast

Author: Yoshinori Ohsumi, Takeshi Noda, and Maho Hamasaki
Subjects: Autophagosome, Saccharomyces cerevisiae Proteins, Physiology, Saccharomyces cerevisiae, Vacuole, Biology, CVT pathway, Gene Expression Regulation, Fungal, Autophagy, Molecular Biology, COPII, Cells, Cultured, Secretory pathway, Fungal genetics, Membrane Proteins, Cell Biology, General Medicine, Cell biology, Biochemistry, Mutation, Vacuoles, COP-Coated Vesicles, Food Deprivation, Starvation response, Signal Transduction
Abstract: Autophagy is a starvation response in eukaryotes by which the cell delivers cytoplasmic components to the vacuole for degradation, and is mediated by a double membrane structure called the autophagosome. We have previously proposed that the specific combination of COPII like components, including Sec24p, is required for autophagy (Ishihara, N. et al. (2001) Mol. Biol. Cell, 12: 3690-3702). The autophagic defect in sec24 deleted mutant cells was, however, suppressed upon the recovery of its secretory flow by the overexpression of its homologue, Sfb2p. We have also reported that the autophagic defect is not observed in sec13 and sec31 mutants, a phenomenon that can be explained by the fact that starvation stress suppresses the secretory defect of these mutants. These observations indicate that the active flow in the early secretory pathway plays an important role in autophagy; that is, autophagy proceeds in the presence, but not in the absence of the early secretory flow. Both autophagy and its closely related cytoplasm to vacuole-targeting (Cvt) pathway occur through a pre-autophagosomal structure (PAS), and since the PAS and the functional Cvt pathway exist in all sec mutants, the early secretory pathway must be involved specifically in autophagy, subsequent to PAS formation.
Published: 2003

41. Leaf Senescence and Starvation-Induced Chlorosis Are Accelerated by the Disruption of an Arabidopsis Autophagy Gene

Author: Yoshinori Ohsumi, Hiroaki Hayashi, Daisuke Shibata, Takeshi Noda, Hideki Hanaoka, Tomohiko Kato, Satoshi Tabata, and Yumiko Shirano
Subjects: Chlorophyll, Programmed cell death, Nitrogen, Physiology, Molecular Sequence Data, Mutant, Arabidopsis, Autophagy-Related Proteins, Apoptosis, Saccharomyces cerevisiae, Plant Science, Vacuole, Biology, Gene Expression Regulation, Plant, Genetics, Arabidopsis thaliana, Amino Acid Sequence, Chlorosis, Sequence Homology, Amino Acid, Arabidopsis Proteins, Genetic Complementation Test, Autophagy, Wild type, food and beverages, Membrane Proteins, biology.organism_classification, Carbon, Cell biology, Plant Leaves, Multigene Family, Mutation, Seeds, Vacuoles, Research Article
Abstract: Autophagy is an intracellular process for vacuolar bulk degradation of cytoplasmic components. The molecular machinery responsible for yeast and mammalian autophagy has recently begun to be elucidated at the cellular level, but the role that autophagy plays at the organismal level has yet to be determined. In this study, a genome-wide search revealed significant conservation between yeast and plant autophagy genes. Twenty-five plant genes that are homologous to 12 yeast genes essential for autophagy were discovered. We identified an Arabidopsis mutant carrying a T-DNA insertion withinAtAPG9, which is the only ortholog of yeast Apg9 in Arabidopsis (atapg9-1). AtAPG9 is transcribed in every wild-type organ tested but not in theatapg9-1 mutant. Under nitrogen or carbon-starvation conditions, chlorosis was observed earlier in atapg9-1cotyledons and rosette leaves compared with wild-type plants. Furthermore, atapg9-1 exhibited a reduction in seed set when nitrogen starved. Even under nutrient growth conditions, bolting and natural leaf senescence were accelerated in atapg9-1plants. Senescence-associated genes SEN1 andYSL4 were up-regulated in atapg9-1 before induction of senescence, unlike in wild type. All of these phenotypes were complemented by the expression of wild-type AtAPG9in atapg9-1 plants. These results imply that autophagy is required for maintenance of the cellular viability under nutrient-limited conditions and for efficient nutrient use as a whole plant.
Published: 2002

42. Yeast autophagosomes: de novo formation of a membrane structure

Author: Kuninori Suzuki, Yoshinori Ohsumi, and Takeshi Noda
Subjects: Cell Nucleus, Autophagosome, Cell Membrane, Autophagy, Saccharomyces cerevisiae, Cell Biology, Vacuole, Biology, Protein degradation, Endoplasmic Reticulum, Models, Biological, Nucleosomes, Cell biology, Cell membrane, Cytosol, medicine.anatomical_structure, Lysosome, Organelle, medicine, CVT vesicle, Lysosomes
Abstract: Autophagy - the degradation of organelles and cytoplasmic material - occurs through dynamic rearrangements of cellular membrane structures. Following the induction of autophagy, newly formed autophagosomes transfer cytosolic materials to the lysosome or vacuole for degradation. The autophagosome is an organelle destined for degradation, suggesting that the membrane structure is formed de novo many times. The autophagosome is formed through the nucleation, assembly and elongation of membrane structures. The concerted action of several Apg/Aut/Cvt proteins around a characteristic subcellular structure (the preautophagosomal structure) is the key to understanding this novel type of membrane-formation process.
Published: 2002

43. Study on Autophagy by Professor Ohsumi: Nobel Prize Originated from the Frontier

Author: Takeshi Noda
Subjects: Frontier, Philosophy, Autophagy, Classics
Published: 2017

44. Npr2 regulates autophagy via Gtr1‐Gtr2‐dependent target of rapamycin complex 1 signaling (539.11)

Author: Shintaro Kira, Kanae Shirahama-Noda, and Takeshi Noda
Subjects: Mutation, Chemistry, Cell, Autophagy, Mutant, Vacuole, GTPase, medicine.disease_cause, Biochemistry, Cell biology, Cytosol, medicine.anatomical_structure, Genetics, medicine, Molecular Biology, Intracellular, Biotechnology
Abstract: Autophagy is an intracellular degradation process that delivers cytosolic material to lysosomes and vacuoles. To understand the mechanisms that regulate autophagy, we performed a genome-wide screen using a yeast deletion mutant collection, and identified Npr2 and Npr3. Mutation of Npr2 and Npr3 disrupted autophagy upstream of Target of Rapamycin Complex 1 (TORC1). Additionally, we found that the Npr2-Npr3 complexes function upstream of Gtr1-Gtr2, a GTPase complex that is homologous to Rag. A constitutively active GTP-bound Gtr1 mutant suppressed autophagy by activating TORC1, whereas a constitutively GDP-bound Gtr1 mutant induced autophagy. The autophagic defects observed in ∆npr2 cells and cells expressing the GTP-bound Gtr1 mutant were quite comparable, but different from Gtr1-GDP expressing cell. We hypothesized that the autophagic defect in the ∆npr2 cells resulted from a defect in the switching of the nucleotide-binding state of Gtr1. Thus, Npr2-Npr3 appears to regulate GTP hydrolysis in Gtr1, which ...
Published: 2014

45. The pre-autophagosomal structure organized by concerted functions of APG genes is essential for autophagosome formation

Author: Takeshi Noda, Yoshiaki Kamada, Yoshinori Ohsumi, Takayoshi Kirisako, Kuninori Suzuki, and Noboru Mizushima
Subjects: Protein kinase complex, Autophagosome, Autophagy-Related Protein 8 Family, Saccharomyces cerevisiae Proteins, Atg1, Macromolecular Substances, Recombinant Fusion Proteins, Ubiquitin-Protein Ligases, ATG8, Green Fluorescent Proteins, Vesicular Transport Proteins, Autophagy-Related Proteins, Saccharomyces cerevisiae, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Autophagy-Related Protein 5, Fungal Proteins, Autophagy, Molecular Biology, Pre-autophagosomal structure, Heat-Shock Proteins, General Immunology and Microbiology, General Neuroscience, Temperature, Membrane Proteins, Cell biology, Luminescent Proteins, Biochemistry, Mutagenesis, Vacuoles, Autophagosome membrane, Carrier Proteins, Microtubule-Associated Proteins, Protein Processing, Post-Translational, Transcription Factors
Abstract: Macroautophagy is a bulk degradation process induced by starvation in eukaryotic cells. In yeast, 15 Apg proteins coordinate the formation of autophagosomes. Several key reactions performed by these proteins have been described, but a comprehensive understanding of the overall network is still lacking. Based on Apg protein localization, we have identified a novel structure that functions in autophagosome formation. This pre-autophagosomal structure, containing at least five Apg proteins, i.e. Apg1p, Apg2p, Apg5p, Aut7p/Apg8p and Apg16p, is localized in the vicinity of the vacuole. Analysis of apg mutants revealed that the formation of both a phosphatidylethanolamine-conjugated Aut7p and an Apg12p– Apg5p conjugate is essential for the localization of Aut7p to the pre-autophagosomal structure. Vps30p/Apg6p and Apg14p, components of an autophagy- specific phosphatidylinositol 3-kinase complex, Apg9p and Apg16p are all required for the localization of Apg5p and Aut7p to the structure. The Apg1p protein kinase complex functions in the late stage of autophagosome formation. Here, we present the classification of Apg proteins into three groups that reflect each step of autophagosome formation.
Published: 2001

46. Two Distinct Vps34 Phosphatidylinositol 3–Kinase Complexes Function in Autophagy and Carboxypeptidase Y Sorting inSaccharomyces cerevisiae

Author: Yoshinori Ohsumi, Akio Kihara, Naotada Ishihara, and Takeshi Noda
Subjects: CPY sorting, autophagy, Phosphatidylinositol 3–kinase, Saccharomyces cerevisiae Proteins, Macromolecular Substances, Recombinant Fusion Proteins, Immunoblotting, Vps34p, Cathepsin A, Carboxypeptidases, Saccharomyces cerevisiae, Phosphatidylinositol 3-Kinases, Protein Serine-Threonine Kinases, Cell Fractionation, Models, Biological, Fungal Proteins, Vacuolar Sorting Protein VPS15, chemistry.chemical_compound, Cytoplasm-to-vacuole targeting, biology, Endosomal Sorting Complexes Required for Transport, Autophagy database, Phosphatidylinositol 3-phosphate, Cell Biology, Carboxypeptidase, Precipitin Tests, Cell biology, Protein Transport, Phosphatidylinositol 3-kinase complex, Phenotype, chemistry, Biochemistry, Mutation, biology.protein, Original Article, Vps30p/Apg6p, Plasmids
Abstract: Vps30p/Apg6p is required for both autophagy and sorting of carboxypeptidase Y (CPY). Although Vps30p is known to interact with Apg14p, its precise role remains unclear. We found that two proteins copurify with Vps30p. They were identified by mass spectrometry to be Vps38p and Vps34p, a phosphatidylinositol (PtdIns) 3–kinase. Vps34p, Vps38p, Apg14p, and Vps15p, an activator of Vps34p, were coimmunoprecipitated with Vps30p. These results indicate that Vps30p functions as a subunit of a Vps34 PtdIns 3–kinase complex(es). Phenotypic analyses indicated that Apg14p and Vps38p are each required for autophagy and CPY sorting, respectively, whereas Vps30p, Vps34p, and Vps15p are required for both processes. Coimmunoprecipitation using anti-Apg14p and anti-Vps38p antibodies and pull-down experiments showed that two distinct Vps34 PtdIns 3–kinase complexes exist: one, containing Vps15p, Vps30p, and Apg14p, functions in autophagy and the other containing Vps15p, Vps30p, and Vps38p functions in CPY sorting. The vps34 and vps15 mutants displayed additional phenotypes such as defects in transport of proteinase A and proteinase B, implying the existence of another PtdIns 3–kinase complex(es). We propose that multiple Vps34p–Vps15p complexes associated with specific regulatory proteins might fulfill their membrane trafficking events at different sites.
Published: 2001

47. Electron tomography reveals the endoplasmic reticulum as a membrane source for autophagosome formation

Author: Akitsugu Yamamoto, Tamotsu Yoshimori, Takeshi Noda, Naonobu Fujita, Mitsuko Hayashi-Nishino, and Akihito Yamaguchi
Subjects: Autophagosome, Electron Microscope Tomography, Endoplasmic reticulum, Mutant, Autophagy, STIM1, Cell Biology, Biology, Endoplasmic Reticulum, Cell biology, law.invention, Cysteine Endopeptidases, Membrane, Electron tomography, law, Phagosomes, Animals, Electron microscope, Molecular Biology
Abstract: The origin and source of autophagosomal membranes are long-standing questions. By electron microscopy, we show that the endoplasmic reticulum (ER) associates with early autophagic structures called isolation membranes (IM) or phagophores in mammalian culture cells. Overexpression of a mutant of Atg4B, which causes defects in autophagosome formation, caused accumulation of ER-IM complexes. Electron tomography revealed the ER-IM complex as a subdomain of the ER forming a cradle encircling the IM, and showed that both ER and isolation membranes are interconnected.
Published: 2010

48. A ubiquitin-like system mediates protein lipidation

Author: Noboru Mizushima, Takeshi Noda, Takayoshi Kirisako, Mariko Ohsumi, Yoshinori Satomi, Eiki Kominami, Isei Tanida, Yoshinobu Ichimura, Naotada Ishihara, Yoshinori Ohsumi, Toshifumi Takao, and Yasutsugu Shimonishi
Subjects: Saccharomyces cerevisiae Proteins, ATG8, Molecular Sequence Data, Autophagy-Related Proteins, Lipid-anchored protein, Saccharomyces cerevisiae, Biology, Protein degradation, Protein lipidation, Autophagy-Related Protein 7, Fungal Proteins, ATG12, Autophagy, Amino Acid Sequence, Ubiquitins, Binding Sites, Multidisciplinary, Phosphatidylethanolamines, Cell Membrane, Autophagy-Related Protein 8 Family, Cell biology, Biochemistry, Ubiquitin-Conjugating Enzymes, Autophagosome membrane, Autophagin, Microtubule-Associated Proteins, Autophagy-Related Protein 12
Abstract: Autophagy is a dynamic membrane phenomenon for bulk protein degradation in the lysosome/vacuole1,2. Apg8/Aut7 is an essential factor for autophagy in yeast3,4,5. We previously found that the carboxy-terminal arginine of nascent Apg8 is removed by Apg4/Aut2 protease, leaving a glycine residue at the C terminus6. Apg8 is then converted to a form (Apg8-X) that is tightly bound to the membrane6. Here we report a new mode of protein lipidation. Apg8 is covalently conjugated to phosphatidylethanolamine through an amide bond between the C-terminal glycine and the amino group of phosphatidylethanolamine. This lipidation is mediated by a ubiquitination-like system. Apg8 is a ubiquitin-like protein that is activated by an E1 protein, Apg7 (refs 7, 8), and is transferred subsequently to the E2 enzymes Apg3/Aut1 (ref. 9). Apg7 activates two different ubiquitin-like proteins, Apg12 (ref. 10) and Apg8, and assigns them to specific E2 enzymes, Apg10 (ref. 11) and Apg3, respectively. These reactions are necessary for the formation of Apg8-phosphatidylethanolamine. This lipidation has an essential role in membrane dynamics during autophagy6.
Published: 2000

49. Apg9p/Cvt7p Is an Integral Membrane Protein Required for Transport Vesicle Formation in the Cvt and Autophagy Pathways

Author: Daniel J. Klionsky, Wei-Pang Huang, Takeshi Noda, Misuzu Baba, Chikara Tokunaga, John Kim, and Yoshinori Ohsumi
Subjects: Saccharomyces cerevisiae, Vacuole, yeast, CVT pathway, Biology, medicine.disease_cause, Fungal Proteins, Protein targeting, Autophagy, Centrifugation, Density Gradient, protein targeting, medicine, Animals, Endomembrane system, Integral membrane protein, Pre-autophagosomal structure, aminopeptidase I, Cytoplasm-to-vacuole targeting, vacuole, Vesicle, Membrane Proteins, Biological Transport, Cell Biology, Cell biology, Vacuoles, lysosome, Original Article, Rabbits, Subcellular Fractions
Abstract: In nutrient-rich, vegetative conditions, the yeast Saccharomyces cerevisiae transports a resident protease, aminopeptidase I (API), to the vacuole by the cytoplasm to vacuole targeting (Cvt) pathway, thus contributing to the degradative capacity of this organelle. When cells subsequently encounter starvation conditions, the machinery that recruited precursor API (prAPI) also sequesters bulk cytosol for delivery, breakdown, and recycling in the vacuole by the autophagy pathway. Each of these overlapping alternative transport pathways is specifically mobilized depending on environmental cues. The basic mechanism of cargo packaging and delivery involves the formation of a double-membrane transport vesicle around prAPI and/or bulk cytosol. Upon completion, these Cvt and autophagic vesicles are targeted to the vacuole to allow delivery of their lumenal contents.Key questions remain regarding the origin and formation of the transport vesicle. In this study, we have cloned the APG9/CVT7 gene and characterized the gene product. Apg9p/Cvt7p is the first characterized integral membrane protein required for Cvt and autophagy transport. Biochemical and morphological analyses indicate that Apg9p/Cvt7p is localized to large perivacuolar punctate structures, but does not colocalize with typical endomembrane marker proteins. Finally, we have isolated a temperature conditional allele of APG9/CVT7 and demonstrate the direct role of Apg9p/Cvt7p in the formation of the Cvt and autophagic vesicles. From these results, we propose that Apg9p/Cvt7p may serve as a marker for a specialized compartment essential for these vesicle-mediated alternative targeting pathways.
Published: 2000

50. Formation process of autophagosome is traced with Apg8/Aut7p in yeast

Author: Kouichi Miyazawa, Misuzu Baba, Takayoshi Kirisako, Yoshinori Ohsumi, Naotada Ishihara, Mariko Ohsumi, Takeshi Noda, and Tamotsu Yoshimori
Subjects: Cytoplasm-to-vacuole targeting, Autophagosome, Autophagy-Related Protein 8 Family, autophagy, Atg1, Saccharomyces cerevisiae Proteins, vacuole, ATG8, Autophagy, autophagosome, Cell Biology, Saccharomyces cerevisiae, Biology, Cell biology, Fungal Proteins, Microscopy, Electron, Phagocytosis, Phagosomes, Apg8/Aut7p, Autophagosome membrane, Original Article, Pre-autophagosomal structure, Microtubule-Associated Proteins
Abstract: We characterized Apg8/Aut7p essential for autophagy in yeast. Apg8p was transcriptionally upregulated in response to starvation and mostly existed as a protein bound to membrane under both growing and starvation conditions. Immunofluorescence microscopy revealed that the intracellular localization of Apg8p changed drastically after shift to starvation. Apg8p resided on unidentified tiny dot structures dispersed in the cytoplasm at growing phase. During starvation, it was localized on large punctate structures, some of which were confirmed to be autophagosomes and autophagic bodies by immuno-EM. Besides these structures, we found that Apg8p was enriched on isolation membranes and in electron less-dense regions, which should contain Apg8p-localized membrane- or lipid-containing structures. These structures would represent intermediate structures during autophagosome formation. Here, we also showed that microtubule does not play an essential role in the autophagy in yeast. The result does not match with the previously proposed role of Apg8/Aut7p, delivery of autophagosome to the vacuole along microtubule. Moreover, it is revealed that autophagosome formation is severely impaired in the apg8 null mutant. Apg8p would play an important role in the autophagosome formation.
Published: 1999

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