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2. Time-Course Transcriptome Profiling Reveals Differential Resistance Responses of Tomato to a Phytotoxic Effector of the Pathogenic Oomycete Phytophthora cactorum .

Author

Zhou X, Wen K, Huang SX, Lu Y, Liu Y, Jin JH, Kale SD, and Chen XR

Abstract

Blight caused by Phytophthora pathogens has a devastating impact on crop production. Phytophthora species secrete an array of effectors, such as Phytophthora cactorum - Fragaria (PcF)/small cysteine-rich (SCR) phytotoxic proteins, to facilitate their infections. Understanding host responses to such proteins is essential to developing next-generation crop resistance. Our previous work identified a small, 8.1 kDa protein, SCR96, as an important virulence factor in Phytophthora cactorum . Host responses to SCR96 remain obscure. Here, we analyzed the effect of SCR96 on the resistance of tomato treated with this recombinant protein purified from yeast cells. A temporal transcriptome analysis of tomato leaves infiltrated with 500 nM SCR96 for 0, 3, 6, and 12 h was performed using RNA-Seq. In total, 36,779 genes, including 2704 novel ones, were detected, of which 32,640 (88.7%) were annotated. As a whole, 5929 non-redundant genes were found to be significantly co-upregulated in SCR96-treated leaves (3, 6, 12 h) compared to the control (0 h). The combination of annotation, enrichment, and clustering analyses showed significant changes in expression beginning at 3 h after treatment in genes associated with defense and metabolism pathways, as well as temporal transcriptional accumulation patterns. Noticeably, the expression levels of resistance-related genes encoding receptor-like kinases/proteins, resistance proteins, mitogen-activated protein kinases (MAPKs), transcription factors, pathogenesis-related proteins, and transport proteins were significantly affected by SCR96. Quantitative reverse transcription PCR (qRT-PCR) validated the transcript changes in the 12 selected genes. Our analysis provides novel information that can help delineate the molecular mechanism and components of plant responses to effectors, which will be useful for the development of resistant crops.

Published
2023
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5. Nlrx1-Regulated Defense and Metabolic Responses to Aspergillus fumigatus Are Morphotype and Cell Type Specific.

Author

Kastelberg B, Ayubi T, Tubau-Juni N, Leber A, Hontecillas R, Bassaganya-Riera J, and Kale SD

Subjects
Animals, Aspergillosis, Cell Line, Epithelial Cells metabolism, Epithelial Cells microbiology, Glycolysis, Humans, Hyphae, Macrophages metabolism, Macrophages microbiology, Male, Mice, Knockout, Mitochondria metabolism, Mitochondrial Proteins genetics, Neutrophils metabolism, Neutrophils microbiology, Oxidative Stress, Reactive Oxygen Species metabolism, Spores, Fungal, Mice, Aspergillus fumigatus, Mitochondrial Proteins metabolism
Abstract

The Nlr family member X1 (Nlrx1) is an immuno-metabolic hub involved in mediating effective responses to virus, bacteria, fungi, cancer, and auto-immune diseases. We have previously shown that Nlrx1 is a critical regulator of immune signaling and mortality in several models of pulmonary fungal infection using the clinically relevant fungus Aspergillus fumigatus . In the absence of Nlrx1, hosts produce an enhanced Th2 response primarily by CD103+ dendritic cell populations resulting in enhanced mortality via immunopathogenesis as well as enhanced fungal burden. Here, we present our subsequent efforts showcasing loss of Nlrx1 resulting in a decreased ability of host cells to process A. fumigatus conidia in a cell-type-specific manner by BEAS-2B airway epithelial cells, alveolar macrophages, bone marrow-derived macrophages, but not bone marrow-derived neutrophils. Furthermore, loss of Nlrx1 results in a diminished ability to generate superoxide and/or generic reactive oxygen species during specific responses to fungal PAMPs, conidia, and hyphae. Analysis of glycolysis and mitochondrial function suggests that Nlrx1 is needed to appropriately shut down glycolysis in response to A. fumigatus conidia and increase glycolysis in response to hyphae in BEAS-2B cells. Blocking glycolysis and pentose phosphate pathway (PPP) via 2-DG and NADPH production through glucose-6-phosphate dehydrogenase inhibitor resulted in significantly diminished conidial processing in wild-type BEAS-2B cells to the levels of Nlrx1-deficient BEAS-2B cells. Our findings suggest a need for airway epithelial cells to generate NADPH for reactive oxygen species production in response to conidia via PPP. In context to fungal pulmonary infections, our results show that Nlrx1 plays significant roles in host defense via PPP modulation of several aspects of metabolism, particularly glycolysis, to facilitate conidia processing in addition to its critical role in regulating immune signaling., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Kastelberg, Ayubi, Tubau-Juni, Leber, Hontecillas, Bassaganya-Riera and Kale.)

Published
2021
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6. LYSMD3: A mammalian pattern recognition receptor for chitin.

Author

He X, Howard BA, Liu Y, Neumann AK, Li L, Menon N, Roach T, Kale SD, Samuels DC, Li H, Kite T, Kita H, Hu TY, Luo M, Jones CN, Okaa UJ, Squillace DL, Klein BS, and Lawrence CB

Subjects
Animals, Humans, Mice, beta-Glucans metabolism, Candida albicans physiology, Cell Membrane metabolism, Epithelial Cells metabolism, HeLa Cells, Immunity, Innate, Inflammation pathology, RAW 264.7 Cells, Respiratory Mucosa metabolism, Respiratory Mucosa microbiology, Signal Transduction, Chitin metabolism, Mammals metabolism, Membrane Proteins metabolism, Receptors, Pattern Recognition metabolism
Abstract

Chitin, a major component of fungal cell walls, has been associated with allergic disorders such as asthma. However, it is unclear how mammals recognize chitin and the principal receptor(s) on epithelial cells that sense chitin remain to be determined. In this study, we show that LYSMD3 is expressed on the surface of human airway epithelial cells and demonstrate that LYSMD3 is able to bind chitin, as well as β-glucan, on the cell walls of fungi. Knockdown or knockout of LYSMD3 also sharply blunts the production of inflammatory cytokines by epithelial cells in response to chitin and fungal spores. Competitive inhibition of the LYSMD3 ectodomain by soluble LYSMD3 protein, multiple ligands, or antibody against LYSMD3 also blocks chitin signaling. Our study reveals LYSMD3 as a mammalian pattern recognition receptor (PRR) for chitin and establishes its role in epithelial cell inflammatory responses to chitin and fungi., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2021
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7. Accurate and efficient gene function prediction using a multi-bacterial network.

Author

Law JN, Kale SD, and Murali TM

Subjects
Algorithms, Base Sequence, Phenotype, Bacteria genetics, Genome
Abstract

Motivation: Nearly 40% of the genes in sequenced genomes have no experimentally or computationally derived functional annotations. To fill this gap, we seek to develop methods for network-based gene function prediction that can integrate heterogeneous data for multiple species with experimentally based functional annotations and systematically transfer them to newly sequenced organisms on a genome-wide scale. However, the large sizes of such networks pose a challenge for the scalability of current methods., Results: We develop a label propagation algorithm called FastSinkSource. By formally bounding its rate of progress, we decrease the running time by a factor of 100 without sacrificing accuracy. We systematically evaluate many approaches to construct multi-species bacterial networks and apply FastSinkSource and other state-of-the-art methods to these networks. We find that the most accurate and efficient approach is to pre-compute annotation scores for species with experimental annotations, and then to transfer them to other organisms. In this manner, FastSinkSource runs in under 3 min for 200 bacterial species., Availability and Implementation: An implementation of our framework and all data used in this research are available at https://github.com/Murali-group/multi-species-GOA-prediction., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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8. NLRX1 is a key regulator of immune signaling during invasive pulmonary aspergillosis.

Author

Kastelberg B, Tubau-Juni N, Ayubi T, Leung A, Leber A, Hontecillas R, Bassaganya-Riera J, and Kale SD

Subjects
Animals, Cell Line, Cytokines genetics, Cytokines immunology, MAP Kinase Kinase 4 genetics, MAP Kinase Kinase 4 immunology, MAP Kinase Signaling System genetics, Mice, Mice, Knockout, Mitochondrial Proteins genetics, Neutrophils immunology, Neutrophils pathology, Pulmonary Aspergillosis genetics, Pulmonary Aspergillosis pathology, Th2 Cells pathology, Transcription Factors genetics, Transcription Factors immunology, p38 Mitogen-Activated Protein Kinases genetics, p38 Mitogen-Activated Protein Kinases immunology, Aspergillus fumigatus immunology, Dendritic Cells immunology, MAP Kinase Signaling System immunology, Mitochondrial Proteins immunology, Pulmonary Aspergillosis immunology, Th2 Cells immunology
Abstract

Aspergillus fumigatus is an opportunistic fungal pathogen of immunocompromised patient populations. Mortality is thought to be context-specific and occurs via both enhanced fungal growth and immunopathogenesis. NLRX1 is a negative regulator of immune signaling and metabolic pathways implicated in host responses to microbes, cancers, and autoimmune diseases. Our study indicates loss of Nlrx1 results in enhanced fungal burden, pulmonary inflammation, immune cell recruitment, and mortality across immuno-suppressed and immuno-competent models of IPA using two clinically derived isolates (AF293, CEA10). We observed that the heightened mortality is due to enhanced recruitment of CD103+ dendritic cells (DCs) that produce elevated amounts of IL-4 resulting in a detrimental Th2-mediated immune response. Adoptive transfer of Nlrx1-/- CD103+ DCs in neutropenic NRG mice results in enhanced mortality that can be ablated using IL-4 neutralizing antibodies. In vitro analysis of CD103+ DCs indicates loss of Nlrx1 results in enhanced IL-4 production via elevated activation of the JNK/JunB pathways. Interestingly, loss of Nlrx1 also results in enhanced recruitment of monocytes and neutrophils. Chimeras of irradiated Nlrx1-/- mice reconstituted with wild type bone marrow have enhanced neutrophil recruitment and survival during models of IPA. This enhanced immune cell recruitment in the absence of Nlrx1 is mediated by excessive production of CXCL8/IL-8 family of chemokines and IL-6 via early and enhanced activation of P38 in response to A. fumigatus conidia as shown in BEAS-2B airway epithelial cells. In summary, our results point strongly towards the cell-specific and contextual function of Nlrx1 during invasive pulmonary aspergillosis and may lead to novel therapeutics to reduce Th2 responses by CD103+ DCs or heightened recruitment of neutrophils., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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9. "Small" Intestinal Immunopathology Plays a "Big" Role in Lethal Cytokine Release Syndrome, and Its Modulation by Interferon-γ, IL-17A, and a Janus Kinase Inhibitor.

Author

Kale SD, Mehrkens BN, Stegman MM, Kastelberg B, Carnes H, McNeill RJ, Rizzo A, Karyala SV, Coutermarsh-Ott S, Fretz JA, Sun Y, Koff JL, and Rajagopalan G

Subjects
Animals, COVID-19, Cells, Cultured, Coronavirus Infections drug therapy, Cytokine Release Syndrome pathology, Cytokine Release Syndrome prevention & control, Cytokines blood, Cytokines immunology, HLA-DR3 Antigen genetics, Intestine, Small immunology, Intestine, Small pathology, Lymphocyte Activation drug effects, Mice, Mice, Knockout, Nitriles, Pandemics, Pneumonia, Viral drug therapy, Pyrimidines, T-Lymphocytes, Helper-Inducer immunology, Coronavirus Infections pathology, Cytokine Release Syndrome drug therapy, Interferon-gamma genetics, Interleukin-17 genetics, Janus Kinase Inhibitors therapeutic use, Pneumonia, Viral pathology, Pyrazoles therapeutic use
Abstract

Chimeric antigen receptor T cell (CART) therapy, administration of certain T cell-agonistic antibodies, immune check point inhibitors, coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome-coronavirus 2 (SARS-CoV-2) and Toxic shock syndrome (TSS) caused by streptococcal as well as staphylococcal superantigens share one common complication, that is T cell-driven cytokine release syndrome (CRS) accompanied by multiple organ dysfunction (MOD). It is not understood whether the failure of a particular organ contributes more significantly to the severity of CRS. Also not known is whether a specific cytokine or signaling pathway plays a more pathogenic role in precipitating MOD compared to others. As a result, there is no specific treatment available to date for CRS, and it is managed only symptomatically to support the deteriorating organ functions and maintain the blood pressure. Therefore, we used the superantigen-induced CRS model in HLA-DR3 transgenic mice, that closely mimics human CRS, to delineate the immunopathogenesis of CRS as well as to validate a novel treatment for CRS. Using this model, we demonstrate that (i) CRS is characterized by a rapid rise in systemic levels of several Th1/Th2/Th17/Th22 type cytokines within a few hours, followed by a quick decline. (ii) Even though multiple organs are affected, small intestinal immunopathology is the major contributor to mortality in CRS. (iii) IFN-γ deficiency significantly protected from lethal CRS by attenuating small bowel pathology, whereas IL-17A deficiency significantly increased mortality by augmenting small bowel pathology. (iv) RNA sequencing of small intestinal tissues indicated that IFN-γ-STAT1-driven inflammatory pathways combined with enhanced expression of pro-apoptotic molecules as well as extracellular matrix degradation contributed to small bowel pathology in CRS. These pathways were further enhanced by IL-17A deficiency and significantly down-regulated in mice lacking IFN-γ. (v) Ruxolitinib, a selective JAK-1/2 inhibitor, attenuated SAg-induced T cell activation, cytokine production, and small bowel pathology, thereby completely protecting from lethal CRS in both WT and IL-17A deficient HLA-DR3 mice. Overall, IFN-γ-JAK-STAT-driven pathways contribute to lethal small intestinal immunopathology in T cell-driven CRS., (Copyright © 2020 Kale, Mehrkens, Stegman, Kastelberg, Carnes, McNeill, Rizzo, Karyala, Coutermarsh-Ott, Fretz, Sun, Koff and Rajagopalan.)

Published
2020
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10. Endocytic Markers Associated with the Internalization and Processing of Aspergillus fumigatus Conidia by BEAS-2B Cells.

Author

Clark HR, Powell AB, Simmons KA, Ayubi T, and Kale SD

Subjects
Animals, Biomarkers, Bronchi cytology, Bronchi microbiology, Caveolin 1 genetics, Cell Line, Cells, Cultured, Host-Pathogen Interactions, Humans, Macrophages microbiology, Male, Membrane Proteins genetics, Mice, Phosphatidylinositol Phosphates genetics, Pulmonary Aspergillosis microbiology, Spores, Fungal pathogenicity, Aspergillus fumigatus pathogenicity, Endocytosis, Epithelial Cells microbiology
Abstract

Aspergillus fumigatus is a ubiquitous mold that produces small airborne conidia capable of traversing deep into the respiratory system. Recognition, processing, and clearance of A. fumigatus conidia by bronchial airway epithelial cells are thought to be relevant to host defense and immune signaling. Using z-stack confocal microscopy, we observed that only 10 to 20% of adherent conidia from the AF293 clinical isolate are internalized by BEAS-2B cells 6 h postchallenge and not prior. Similar percentages of internalization were observed for the CEA10 clinical isolate. A large subset of both AF293 and CEA10 conidia are rendered metabolically inactive without internalization at 3 h postchallenge by BEAS-2B cells. A significantly larger percentage of CEA10 conidia are metabolically active at 9 and 12 h postchallenge in comparison to the AF293 isolate, demonstrating heterogeneity among clinical isolates. We identified 7 host markers (caveolin, flotillin-2, RAB5C, RAB8B, RAB7A, 2xFYVE, and FAPP1) that consistently localized around internalized conidia 9 h postchallenge. Transient gene silencing of RAB5C , PIK3C3 , and flotillin-2 resulted in a larger population of metabolically active conidia. Our findings emphasize the abundance of both host phosphatidylinositol 3-phosphate (PI3P) and PI4P around internalized conidia, as well as the importance of class III PI3P kinase for conidial processing. Therapeutic development focused on RAB5C-, PIK3C3-, and flotillin-2-mediated pathways may provide novel opportunities to modulate conidial processing and internalization. Determination of how contacted, external conidia are processed by airway epithelial cells may also provide a novel avenue to generate host-targeted therapeutics. IMPORTANCE Conidia from the fungus Aspergillus fumigatus are notorious for their ability to stay airborne. This characteristic is believed to allow conidia to penetrate into the cleanest environments. Several hundred conidia are thought to be inhaled each day by a given individual and then expelled by mucociliary clearance. Given that airway epithelial cells make up a significant portion of the pulmonary-air interface, we set out to determine the percentage of conidia that are actually internalized after initial contact with airway epithelial cells. We determined this through an in vitro assay using an immortalized bronchial airway epithelial cell line known as BEAS-2B. Our results suggest a small fraction of conidia are internalized by BEAS-2B cells, while the majority stay adherent to the surface of cells or are washed away during sample processing. Internalization of conidia was observed at 6 h postchallenge and not prior. Our data also indicate conidia are rendered metabolically inactive within 3 h of challenge, suggesting BEAS-2B cells process a large number of conidia without internalization in this early time frame. We have also identified several host endocytosis markers that localize around internalized conidia as well as contribute to the processing of conidia. Understanding how these host endocytosis markers affect the processing of internal and/or external conidia may provide a novel avenue for therapeutic development., (Copyright © 2019 Clark et al.)

Published
2019
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12. Large-scale protein function prediction using heterogeneous ensembles.

Author

Wang L, Law J, Kale SD, Murali TM, and Pandey G

Subjects
Logistic Models, Machine Learning, Bacterial Proteins genetics, Gene Ontology
Abstract

Heterogeneous ensembles are an effective approach in scenarios where the ideal data type and/or individual predictor are unclear for a given problem. These ensembles have shown promise for protein function prediction (PFP), but their ability to improve PFP at a large scale is unclear. The overall goal of this study is to critically assess this ability of a variety of heterogeneous ensemble methods across a multitude of functional terms, proteins and organisms. Our results show that these methods, especially Stacking using Logistic Regression, indeed produce more accurate predictions for a variety of Gene Ontology terms differing in size and specificity. To enable the application of these methods to other related problems, we have publicly shared the HPC-enabled code underlying this work as LargeGOPred ( https://github.com/GauravPandeyLab/LargeGOPred)., Competing Interests: No competing interests were disclosed.

Published
2018
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13. Comparative genome analyses reveal sequence features reflecting distinct modes of host-adaptation between dicot and monocot powdery mildew.

Author

Wu Y, Ma X, Pan Z, Kale SD, Song Y, King H, Zhang Q, Presley C, Deng X, Wei CI, and Xiao S

Subjects
Adaptation, Physiological, Ascomycota classification, Ascomycota pathogenicity, Gene Deletion, Gene Expression Profiling, Genes, Fungal, Genome Size, High-Throughput Nucleotide Sequencing, Mycelium genetics, Mycelium metabolism, Mycological Typing Techniques, Poaceae microbiology, Ascomycota genetics, Genome, Fungal, Host Specificity genetics, Plant Diseases microbiology
Abstract

Background: Powdery mildew (PM) is one of the most important and widespread plant diseases caused by biotrophic fungi. Notably, while monocot (grass) PM fungi exhibit high-level of host-specialization, many dicot PM fungi display a broad host range. To understand such distinct modes of host-adaptation, we sequenced the genomes of four dicot PM biotypes belonging to Golovinomyces cichoracearum or Oidium neolycopersici., Results: We compared genomes of the four dicot PM together with those of Blumeria graminis f.sp. hordei (both DH14 and RACE1 isolates), B. graminis f.sp. tritici, and Erysiphe necator infectious on barley, wheat and grapevine, respectively. We found that despite having a similar gene number (6620-6961), the PM genomes vary from 120 to 222 Mb in size. This high-level of genome size variation is indicative of highly differential transposon activities in the PM genomes. While the total number of genes in any given PM genome is only about half of that in the genomes of closely related ascomycete fungi, most (~ 93%) of the ascomycete core genes (ACGs) can be found in the PM genomes. Yet, 186 ACGs were found absent in at least two of the eight PM genomes, of which 35 are missing in some dicot PM biotypes, but present in the three monocot PM genomes, indicating remarkable, independent and perhaps ongoing gene loss in different PM lineages. Consistent with this, we found that only 4192 (3819 singleton) genes are shared by all the eight PM genomes, the remaining genes are lineage- or biotype-specific. Strikingly, whereas the three monocot PM genomes possess up to 661 genes encoding candidate secreted effector proteins (CSEPs) with families containing up to 38 members, all the five dicot PM fungi have only 116-175 genes encoding CSEPs with limited gene amplification., Conclusions: Compared to monocot (grass) PM fungi, dicot PM fungi have a much smaller effectorome. This is consistent with their contrasting modes of host-adaption: while the monocot PM fungi show a high-level of host specialization, which may reflect an advanced host-pathogen arms race, the dicot PM fungi tend to practice polyphagy, which might have lessened selective pressure for escalating an with a particular host.

Published
2018
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14. NLRP3 inflammasome pathway has a critical role in the host immunity against clinically relevant Acinetobacter baumannii pulmonary infection.

Author

Dikshit N, Kale SD, Khameneh HJ, Balamuralidhar V, Tang CY, Kumar P, Lim TP, Tan TT, Kwa AL, Mortellaro A, and Sukumaran B

Subjects
Animals, Caspases metabolism, Cells, Cultured, Cross Infection, Disease Models, Animal, Drug Resistance, Multiple, Female, Humans, Lung microbiology, Mice, Mice, Inbred C57BL, Mice, Knockout, NLR Family, Pyrin Domain-Containing 3 Protein genetics, Signal Transduction, Acinetobacter Infections immunology, Acinetobacter baumannii immunology, Inflammasomes metabolism, Lung immunology, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Pneumonia immunology
Abstract

The opportunistic Gram-negative bacterium Acinetobacter baumannii (AB) is a leading cause of life-threatening nosocomial pneumonia. Outbreaks of multidrug resistant (MDR)-AB belonging to international clones (ICs) I and II with limited treatment options are major global health threats. However, the pathogenesis mechanisms of various AB clonal groups are understudied. Although inflammation-associated interleukin-1β (IL-1β) levels and IL-1 receptor antagonist polymorphisms were previously implicated in MDR-AB-related pneumonia in patients, whether inflammasomes has any role in the host defense and/or pathogenesis of clinically relevant A. baumannii infection is unknown. Using a sublethal mouse pneumonia model, we demonstrate that an extensively drug-resistant clinical isolate (ICII) of A. baumannii exhibits reduced/delayed early pulmonary neutrophil recruitment, higher lung persistence, and, most importantly, elicits enhanced IL-1β/IL-18 production and lung damage through NLRP3 inflammasome, in comparison with A. baumannii-type strain. A. baumannii infection-induced IL-1β/IL-18 production is entirely dependent on NLRP3-ASC-caspase-1/caspase-11 pathway. Using Nlrp3 -/- mice infection models, we further show that while NLRP3 inflammasome pathway contributes to host defense against A. baumannii clinical isolate, it is dispensable for protection against A. baumannii-type strain. Our study reveals a novel differential role for NLRP3 inflammasome pathway in the immunity against clinically relevant A. baumannii infections, and highlights inflammasome pathway as a potential immunomodulatory target.

Published
2018
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15. Nod2 is required for the early innate immune clearance of Acinetobacter baumannii from the lungs.

Author

Kale SD, Dikshit N, Kumar P, Balamuralidhar V, Khameneh HJ, Bin Abdul Malik N, Koh TH, Tan GGY, Tan TT, Mortellaro A, and Sukumaran B

Subjects
Acetylmuramyl-Alanyl-Isoglutamine pharmacology, Acinetobacter Infections drug therapy, Acinetobacter Infections pathology, Animals, Anti-Infective Agents pharmacology, Female, Lung drug effects, Lung pathology, Mice, Inbred C57BL, Mice, Knockout, Nod2 Signaling Adaptor Protein genetics, Reactive Nitrogen Species metabolism, Reactive Oxygen Species metabolism, Acinetobacter Infections immunology, Acinetobacter baumannii immunology, Immunity, Innate physiology, Lung immunology, Nod2 Signaling Adaptor Protein metabolism
Abstract

Acinetobacter baumannii (A. baumannii) is a significant cause of severe nosocomial pneumonia in immunocompromised individuals world-wide. With limited treatment options available, a better understanding of host immnity to A. baumannii infection is critical to devise alternative control strategies. Our previous study has identified that intracellular Nod1/Nod2 signaling pathway is required for the immune control of A. baumannii in airway epithelial cells in vitro. In the current study, using Nod2 -/- mice and an in vivo sublethal model of pulmonary infection, we show that Nod2 contributes to the early lung defense against A. baumannii infection through reactive oxygen species (ROS)/reactive nitrogen species (RNS) production as Nod2 -/- mice showed significantly reduced production of ROS/RNS in the lungs following A. baumannii infection. Consistent with the higher bacterial load, A. baumannii-induced neutrophil recruitment, cytokine/chemokine response and lung pathology was also exacerbated in Nod2 -/- mice at early time points post-infection. Finally, we show that administration of Nod2 ligand muramyl dipeptide (MDP) prior to infection protected the wild- type mice from A. baumannii pulmonary challenge. Collectively, Nod2 is an important player in the early lung immunity against A. baumannii and modulating Nod2 pathway could be considered as a viable therapeutic strategy to control A. baumannii pulmonary infection.

Published
2017
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16. Modulation of Immune Signaling and Metabolism Highlights Host and Fungal Transcriptional Responses in Mouse Models of Invasive Pulmonary Aspergillosis.

Author

Kale SD, Ayubi T, Chung D, Tubau-Juni N, Leber A, Dang HX, Karyala S, Hontecillas R, Lawrence CB, Cramer RA, and Bassaganya-Riera J

Subjects
Animals, Anti-Inflammatory Agents therapeutic use, Aspergillosis drug therapy, Aspergillosis immunology, Aspergillosis metabolism, Aspergillus fumigatus genetics, Aspergillus fumigatus metabolism, Aspergillus fumigatus pathogenicity, CD4-Positive T-Lymphocytes cytology, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes metabolism, Cell Differentiation, Cytokines metabolism, Disease Models, Animal, Fungal Proteins genetics, Gene Expression Regulation, Lung microbiology, Mice, Principal Component Analysis, Signal Transduction, Steroids therapeutic use, Triamcinolone therapeutic use, Aspergillosis pathology, Fungal Proteins metabolism, Host-Pathogen Interactions genetics, Lung metabolism
Abstract

Incidences of invasive pulmonary aspergillosis, an infection caused predominantly by Aspergillus fumigatus, have increased due to the growing number of immunocompromised individuals. While A. fumigatus is reliant upon deficiencies in the host to facilitate invasive disease, the distinct mechanisms that govern the host-pathogen interaction remain enigmatic, particularly in the context of distinct immune modulating therapies. To gain insights into these mechanisms, RNA-Seq technology was utilized to sequence RNA derived from lungs of 2 clinically relevant, but immunologically distinct murine models of IPA on days 2 and 3 post inoculation when infection is established and active disease present. Our findings identify notable differences in host gene expression between the chemotherapeutic and steroid models at the interface of immunity and metabolism. RT-qPCR verified model specific and nonspecific expression of 23 immune-associated genes. Deep sequencing facilitated identification of highly expressed fungal genes. We utilized sequence similarity and gene expression to categorize the A. fumigatus putative in vivo secretome. RT-qPCR suggests model specific gene expression for nine putative fungal secreted proteins. Our analysis identifies contrasting responses by the host and fungus from day 2 to 3 between the two models. These differences may help tailor the identification, development, and deployment of host- and/or fungal-targeted therapeutics.

Published
2017
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17. GraphSpace: stimulating interdisciplinary collaborations in network biology.

Author

Bharadwaj A, Singh DP, Ritz A, Tegge AN, Poirel CL, Kraikivski P, Adames N, Luther K, Kale SD, Peccoud J, Tyson JJ, and Murali TM

Subjects
Algorithms, Computational Biology, Interdisciplinary Communication, Software, Systems Biology methods
Abstract

Summary: Networks have become ubiquitous in systems biology. Visualization is a crucial component in their analysis. However, collaborations within research teams in network biology are hampered by software systems that are either specific to a computational algorithm, create visualizations that are not biologically meaningful, or have limited features for sharing networks and visualizations. We present GraphSpace, a web-based platform that fosters team science by allowing collaborating research groups to easily store, interact with, layout and share networks., Availability and Implementation: Anyone can upload and share networks at http://graphspace.org. In addition, the GraphSpace code is available at http://github.com/Murali-group/graphspace if a user wants to run his or her own server., Contact: murali@cs.vt.edu., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author 2017. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com)

Published
2017
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20. Selective advantage of trisomic human cells cultured in non-standard conditions.

Author

Rutledge SD, Douglas TA, Nicholson JM, Vila-Casadesús M, Kantzler CL, Wangsa D, Barroso-Vilares M, Kale SD, Logarinho E, and Cimini D

Subjects
Cells, Cultured, Humans, Cell Proliferation, Epithelial Cells physiology, Trisomy
Abstract

An abnormal chromosome number, a condition known as aneuploidy, is a ubiquitous feature of cancer cells. A number of studies have shown that aneuploidy impairs cellular fitness. However, there is also evidence that aneuploidy can arise in response to specific challenges and can confer a selective advantage under certain environmental stresses. Cancer cells are likely exposed to a number of challenging conditions arising within the tumor microenvironment. To investigate whether aneuploidy may confer a selective advantage to cancer cells, we employed a controlled experimental system. We used the diploid, colorectal cancer cell line DLD1 and two DLD1-derived cell lines carrying single-chromosome aneuploidies to assess a number of cancer cell properties. Such properties, which included rates of proliferation and apoptosis, anchorage-independent growth, and invasiveness, were assessed both under standard culture conditions and under conditions of stress (i.e., serum starvation, drug treatment, hypoxia). Similar experiments were performed in diploid vs. aneuploid non-transformed human primary cells. Overall, our data show that aneuploidy can confer selective advantage to human cells cultured under non-standard conditions. These findings indicate that aneuploidy can increase the adaptability of cells, even those, such as cancer cells, that are already characterized by increased proliferative capacity and aggressive tumorigenic phenotypes.

Published
2016
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21. Pathways on demand: automated reconstruction of human signaling networks.

Author

Ritz A, Poirel CL, Tegge AN, Sharp N, Simmons K, Powell A, Kale SD, and Murali TM

Abstract

Signaling pathways are a cornerstone of systems biology. Several databases store high-quality representations of these pathways that are amenable for automated analyses. Despite painstaking and manual curation, these databases remain incomplete. We present PATHLINKER, a new computational method to reconstruct the interactions in a signaling pathway of interest. PATHLINKER efficiently computes multiple short paths from the receptors to transcriptional regulators (TRs) in a pathway within a background protein interaction network. We use PATHLINKER to accurately reconstruct a comprehensive set of signaling pathways from the NetPath and KEGG databases. We show that PATHLINKER has higher precision and recall than several state-of-the-art algorithms, while also ensuring that the resulting network connects receptor proteins to TRs. PATHLINKER's reconstruction of the Wnt pathway identified CFTR, an ABC class chloride ion channel transporter, as a novel intermediary that facilitates the signaling of Ryk to Dab2, which are known components of Wnt/β-catenin signaling. In HEK293 cells, we show that the Ryk-CFTR-Dab2 path is a novel amplifier of β-catenin signaling specifically in response to Wnt 1, 2, 3, and 3a of the 11 Wnts tested. PATHLINKER captures the structure of signaling pathways as represented in pathway databases better than existing methods. PATHLINKER's success in reconstructing pathways from NetPath and KEGG databases point to its applicability for complementing manual curation of these databases. PATHLINKER may serve as a promising approach for prioritizing proteins and interactions for experimental study, as illustrated by its discovery of a novel pathway in Wnt/β-catenin signaling. Our supplementary website at http://bioinformatics.cs.vt.edu/~murali/supplements/2016-sys-bio-applications-pathlinker/ provides links to the PATHLINKER software, input datasets, PATHLINKER reconstructions of NetPath pathways, and links to interactive visualizations of these reconstructions on GraphSpace., Competing Interests: The authors declare no conflict of interest.

Published
2016
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22. Nucleolar Dominance and Repression of 45S Ribosomal RNA Genes in Hybrids between Xenopus borealis and X. muelleri (2n = 36).

Author

Maciak S, Michalak K, Kale SD, and Michalak P

Subjects
Alleles, Animals, Female, Larva genetics, Male, RNA, Ribosomal, 18S genetics, Cell Nucleolus genetics, Epigenetic Repression genetics, Genes, Dominant genetics, Genes, rRNA genetics, Hybridization, Genetic genetics, RNA, Ribosomal genetics, Xenopus genetics
Abstract

Nucleolar dominance is a dramatic disruption in the formation of nucleoli and the expression of ribosomal RNA (rRNA) genes, characteristic of some plant and animal hybrids. Here, we report that F1 hybrids produced from reciprocal crosses between 2 sister species of Xenopus clawed frogs, X. muelleri and X. borealis, undergo nucleolar dominance somewhat distinct from a pattern previously reported in hybrids between phylogenetically more distant Xenopus species. Patterns of nucleolar development, 45S rRNA expression, and gene copy inheritance were investigated using a combination of immunostaining, pyrosequencing, droplet digital PCR, flow cytometry, and epigenetic inhibition. In X. muelleri × X. borealis hybrids, typically only 1 nucleolus is formed, and 45S rRNA genes are predominantly expressed from 1 progenitor's alleles, X. muelleri, regardless of the cross-direction. These changes are accompanied by an extensive (∼80%) loss of rRNA gene copies in the hybrids relative to their parents, with the transcriptionally underdominant variant (X. borealis) being preferentially lost. Chemical treatment of hybrid larvae with a histone deacetylase inhibitor resulted in a partial derepression of the underdominant variant. Together, these observations shed light on the genetic and epigenetic basis of nucleolar dominance as an underappreciated manifestation of genetic conflicts within a hybrid genome., (© 2016 S. Karger AG, Basel.)

Published
2016
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23. Evaluation of different inactivation methods for high and low pathogenic avian influenza viruses in egg-fluids for antigen preparation.

Author

Pawar SD, Murtadak VB, Kale SD, Shinde PV, and Parkhi SS

Subjects
Animals, Antigens isolation & purification, Chick Embryo, Chickens, Ether pharmacology, Formaldehyde pharmacology, Hemagglutination Inhibition Tests, Hemagglutinin Glycoproteins, Influenza Virus immunology, Influenza A virus growth & development, Influenza A virus isolation & purification, Propiolactone pharmacology, Disinfectants pharmacology, Disinfection methods, Influenza A virus drug effects, Influenza A virus physiology, Influenza in Birds virology, Microbial Viability drug effects, Virus Inactivation
Abstract

In view of the emerging avian influenza (AI) viruses, it is important to study the susceptibility of AI viruses to inactivating agents for preparation of antigens and inactivated vaccines. The available information on susceptibility of both the high and low pathogenic AI viruses to different inactivating agents is inadequate and ambiguous. It has been shown that different subtypes of influenza viruses require different physical and chemical conditions for inactivation of infectivity. The present study was undertaken to evaluate the use of beta-propiolactone (BPL), formalin and ether for inactivation and its impact on antigenicity of AI viruses. A total of nine high and low pathogenic AI viruses belonging to four influenza A subtypes were included in the study. The H5N1 viruses were from the clades 2.2, 2.3.2.1 and 2.3.4. The H9N2 virus included in the study was of the G1 genotype, while the H11N1 and H4N6 viruses were from the Eurasian lineage. The viruses were treated with BPL, formalin and with ether. The confirmation of virus inactivation was performed by two serial passages of inactivated viruses in embryonated chicken eggs. The infectivity of all tested AI viruses was eliminated using 0.1% BPL and 0.1% formalin. Ether eliminated infectivity of all tested low pathogenic AI viruses; however, ether with 0.2% or 0.5% Tween-20 was required for inactivation of the highly pathogenic AI H5N1 viruses. Treatment with BPL, ether and formalin retained virus hemagglutination (HA) titers. Interestingly ether treatment resulted in significant rise in HA titers (P<0.05) of all tested AI viruses. This data demonstrated the utility of BPL, formalin and ether for the inactivation of infectivity of AI viruses used in the study for the preparation of inactivated virus antigens for research and diagnosis of AI., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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24. Crystal structure of the effector AvrLm4-7 of Leptosphaeria maculans reveals insights into its translocation into plant cells and recognition by resistance proteins.

Author

Blondeau K, Blaise F, Graille M, Kale SD, Linglin J, Ollivier B, Labarde A, Lazar N, Daverdin G, Balesdent MH, Choi DH, Tyler BM, Rouxel T, van Tilbeurgh H, and Fudal I

Subjects
Plant Diseases microbiology, Virulence genetics, Ascomycota pathogenicity, Brassica napus metabolism, Brassica napus microbiology, Fungal Proteins metabolism
Abstract

The avirulence gene AvrLm4-7 of Leptosphaeria maculans, the causal agent of stem canker in Brassica napus (oilseed rape), confers a dual specificity of recognition by two resistance genes (Rlm4 and Rlm7) and is strongly involved in fungal fitness. In order to elucidate the biological function of AvrLm4-7 and understand the specificity of recognition by Rlm4 and Rlm7, the AvrLm4-7 protein was produced in Pichia pastoris and its crystal structure was determined. It revealed the presence of four disulfide bridges, but no close structural analogs could be identified. A short stretch of amino acids in the C terminus of the protein, (R/N)(Y/F)(R/S)E(F/W), was well-conserved among AvrLm4-7 homologs. Loss of recognition of AvrLm4-7 by Rlm4 is caused by the mutation of a single glycine to an arginine residue located in a loop of the protein. Loss of recognition by Rlm7 is governed by more complex mutational patterns, including gene loss or drastic modifications of the protein structure. Three point mutations altered residues in the well-conserved C-terminal motif or close to the glycine involved in Rlm4-mediated recognition, resulting in the loss of Rlm7-mediated recognition. Transient expression in Nicotiana benthamiana (tobacco) and particle bombardment experiments on leaves from oilseed rape suggested that AvrLm4-7 interacts with its cognate R proteins inside the plant cell, and can be translocated into plant cells in the absence of the pathogen. Translocation of AvrLm4-7 into oilseed rape leaves is likely to require the (R/N)(Y/F)(R/S)E(F/W) motif as well as an RAWG motif located in a nearby loop that together form a positively charged region., (© 2015 The Authors The Plant Journal © 2015 John Wiley & Sons Ltd.)

Published
2015
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27. Characterizing and measuring endocytosis of lipid-binding effectors in mammalian cells.

Author

Clark HR, Hayes TA, and Kale SD

Subjects
Binding Sites, Cell Line, Chromatography, Affinity, Flow Cytometry, Green Fluorescent Proteins biosynthesis, Green Fluorescent Proteins isolation & purification, Host-Pathogen Interactions, Humans, Microscopy, Confocal, Phytophthora, Protein Structure, Tertiary, Protein Transport, Recombinant Fusion Proteins biosynthesis, Recombinant Fusion Proteins isolation & purification, Transfection, Endocytosis
Abstract

Pathogen-host interactions are mediated in part by secreted microbial proteins capable of exploiting host cells for their survival. Several of these manipulations involve, but are not limited to, suppression of defense responses, alterations in host vesicular trafficking, and manipulation of gene expression. The delivery of such molecules from microbe to host has been of intense interest in several microbe-host systems. Several well-studied bacterial effectors are delivered directly into host cells through a needle injection apparatus. Conversely, there have been several examples of secreted effectors and protein toxins from bacteria and eukaryotic microbes, such as fungi and oomycetes, being internalized into host cells by receptor-mediated endocytosis. In the following chapter, we discuss various techniques utilized to measure these endocytosed lipid-binding effectors that can be delivered in the absence of the pathogen., (© 2014 Elsevier Inc. All rights reserved.)

Published
2014
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28. Suitability of specimen types for isolation of avian influenza viruses from poultry.

Author

Kale SD, Mishra AC, and Pawar SD

Abstract

In view of the outbreaks of the highly pathogenic avian influenza (HPAI) H5N1 virus in poultry in India, its impact on global public health and growing concerns of avian influenza (AI) viruses, surveys in wet poultry markets were conducted in the states of Maharashtra, West Bengal and Jharkhand in India during the period 2009-2012. During these surveys various types of samples from poultry were collected. During outbreaks and surveys in poultry, tracheal swabs (TS), cloacal swabs (CS), poultry drinking water (PDW) samples and fecal samples (FS) are preferred samples for AI diagnosis. The suitability of various types of poultry samples for AI virus isolation was analyzed. The parameters such as availability of specimen, ease of collection, quality of the specimen for the presence of contaminants such as organic debris or solid matter were considered for the analysis. A total of 2,405 samples were collected, which included 1,297 TS, 1,012 CS, 79 PDW, and 17 FS. Out of 2,309 TS and CS samples 1,752 samples were paired samples, collected from 876 birds. All samples were processed for virus isolation and identification. Of the 2,405 samples AI H9N2 was isolated from 199 samples (8.27 %). The virus isolation rate was significantly higher in PDW samples (21.5 %) (P < 0.05) and TS samples (12.1 %), in comparison with CS (2.3 %) (P < 0.001). Other viruses isolated were AI H4N6 and HPAI H5N1viruses; however the number of isolates of AI H4N6 and H5N1 were not sufficient for comparison. In conclusion, the PDW and TS samples were suitable for AI H9N2 virus isolation from poultry.

Published
2013
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29. Two RxLR avirulence genes in Phytophthora sojae determine soybean Rps1k-mediated disease resistance.

Author

Song T, Kale SD, Arredondo FD, Shen D, Su L, Liu L, Wu Y, Wang Y, Dou D, and Tyler BM

Subjects
Alleles, Amino Acid Sequence, Cell Death, Gene Expression, Gene Expression Profiling, Gene Expression Regulation, Gene Silencing, Genes, Plant genetics, Genetic Linkage, Genetic Loci, Genotype, Hypocotyl immunology, Hypocotyl parasitology, Molecular Sequence Data, Phenotype, Phytophthora pathogenicity, Phytophthora physiology, Plant Diseases parasitology, Plant Leaves immunology, Plant Leaves parasitology, Plant Roots immunology, Plant Roots parasitology, Plant Stems immunology, Plant Stems parasitology, Polymorphism, Genetic, Seedlings immunology, Seedlings parasitology, Glycine max parasitology, Virulence, Virulence Factors genetics, Disease Resistance, Phytophthora genetics, Plant Diseases immunology, Glycine max immunology, Virulence Factors metabolism
Abstract

Resistance to Phytophthora sojae (Rps) genes have been widely used in soybean against root and stem rot diseases caused by this oomycete. Among 15 known soybean Rps genes, Rps1k has been the most widely used in the past four decades. Here, we show that the products of two distinct but closely linked RxLR effector genes are detected by Rps1k-containing plants, resulting in disease resistance. One of the genes is Avr1b-1, that confers avirulence in the presence of Rps1b. Three lines of evidence, including overexpression and gene silencing of Avr1b-1 in stable P. sojae transformants, as well as transient expression of this gene in soybean, indicated that Avr1b could trigger an Rps1k-mediated defense response. Some isolates of P. sojae that do not express Avr1b are nevertheless unable to infect Rps1k plants. In those isolates, we identified a second RxLR effector gene (designated Avr1k), located 5 kb away from Avr1b-1. Silencing or overexpression of Avr1k in P. sojae stable transformants resulted in the loss or gain, respectively, of the avirulence phenotype in the presence of Rps1k. Only isolates of P. sojae with mutant alleles of both Avr1b-1 and Avr1k could evade perception by the soybean plants carrying Rps1k.

Published
2013
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30. Microbe-independent entry of oomycete RxLR effectors and fungal RxLR-like effectors into plant and animal cells is specific and reproducible.

Author

Tyler BM, Kale SD, Wang Q, Tao K, Clark HR, Drews K, Antignani V, Rumore A, Hayes T, Plett JM, Fudal I, Gu B, Chen Q, Affeldt KJ, Berthier E, Fischer GJ, Dou D, Shan W, Keller NP, Martin F, Rouxel T, and Lawrence CB

Subjects
Algal Proteins genetics, Algal Proteins metabolism, Amino Acid Motifs physiology, Animals, Fungal Proteins genetics, Fungal Proteins metabolism, Host-Pathogen Interactions, Humans, Protein Structure, Tertiary, Protein Transport, Reproducibility of Results, Glycine max microbiology, Triticum microbiology, Virulence Factors genetics, Virulence Factors metabolism, Oomycetes physiology, Phytophthora infestans physiology, Glycine max physiology, Triticum physiology
Abstract

A wide diversity of pathogens and mutualists of plant and animal hosts, including oomycetes and fungi, produce effector proteins that enter the cytoplasm of host cells. A major question has been whether or not entry by these effectors can occur independently of the microbe or requires machinery provided by the microbe. Numerous publications have documented that oomycete RxLR effectors and fungal RxLR-like effectors can enter plant and animal cells independent of the microbe. A recent reexamination of whether the RxLR domain of oomycete RxLR effectors is sufficient for microbe-independent entry into host cells concluded that the RxLR domains of Phytophthora infestans Avr3a and of P. sojae Avr1b alone are NOT sufficient to enable microbe-independent entry of proteins into host and nonhost plant and animal cells. Here, we present new, more detailed data that unambiguously demonstrate that the RxLR domain of Avr1b does show efficient and specific entry into soybean root cells and also into wheat leaf cells, at levels well above background nonspecific entry. We also summarize host cell entry experiments with a wide diversity of oomycete and fungal effectors with RxLR or RxLR-like motifs that have been independently carried out by the seven different labs that coauthored this letter. Finally we discuss possible technical reasons why specific cell entry may have been not detected by Wawra et al. (2013).

Published
2013
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31. Structural basis for interactions of the Phytophthora sojae RxLR effector Avh5 with phosphatidylinositol 3-phosphate and for host cell entry.

Author

Sun F, Kale SD, Azurmendi HF, Li D, Tyler BM, and Capelluto DG

Subjects
Amino Acid Motifs, Binding Sites, Cell Line, Cell Membrane metabolism, Circular Dichroism, Host-Parasite Interactions, Humans, Kinetics, Magnetic Resonance Spectroscopy, Models, Biological, Mutation, Phytophthora cytology, Phytophthora genetics, Phytophthora pathogenicity, Plant Roots parasitology, Protein Binding, Protein Stability, Protein Unfolding, Proteins genetics, Proteins metabolism, Recombinant Fusion Proteins, Surface Plasmon Resonance, Temperature, Phosphatidylinositol Phosphates metabolism, Phytophthora metabolism, Plant Diseases parasitology, Proteins chemistry, Glycine max parasitology
Abstract

Oomycetes such as Phytophthora sojae employ effector proteins that enter plant cells to facilitate infection. Entry of some effector proteins is mediated by RxLR motifs in the effectors and phosphoinositides (PIP) resident in the host plasma membrane such as phosphatidylinositol 3-phosphate (PtdIns(3)P). Recent reports differ regarding the regions on RxLR effectors involved in PIP recognition. We have structurally and functionally characterized the P. sojae effector, avirulence homolog-5 (Avh5). Using nuclear magnetic resonance (NMR) spectroscopy, we demonstrate that Avh5 is helical in nature, with a long N-terminal disordered region. NMR titrations of Avh5 with the PtdIns(3)P head group, inositol 1,3-bisphosphate, directly identified the ligand-binding residues. A C-terminal lysine-rich helical region (helix 2) was the principal lipid-binding site, with the N-terminal RxLR (RFLR) motif playing a more minor role. Mutations in the RFLR motif affected PtdIns(3)P binding, while mutations in the basic helix almost abolished it. Mutations in the RFLR motif or in the basic region both significantly reduced protein entry into plant and human cells. Both regions independently mediated cell entry via a PtdIns(3)P-dependent mechanism. Based on these findings, we propose a model where Avh5 interacts with PtdIns(3)P through its C terminus, and by binding of the RFLR motif, which promotes host cell entry.

Published
2013
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32. Avian influenza surveillance reveals presence of low pathogenic avian influenza viruses in poultry during 2009-2011 in the West Bengal State, India.

Author

Pawar SD, Kale SD, Rawankar AS, Koratkar SS, Raut CG, Pande SA, Mullick J, and Mishra AC

Subjects
Animal Migration, Animals, Chickens, China, Disease Outbreaks veterinary, Ducks, Hong Kong, India epidemiology, Influenza A Virus, H5N1 Subtype classification, Influenza A Virus, H5N1 Subtype genetics, Influenza A Virus, H5N1 Subtype isolation & purification, Influenza A Virus, H5N1 Subtype pathogenicity, Influenza A Virus, H9N2 Subtype classification, Influenza A Virus, H9N2 Subtype genetics, Influenza A Virus, H9N2 Subtype isolation & purification, Influenza A Virus, H9N2 Subtype pathogenicity, Influenza A virus classification, Influenza A virus genetics, Influenza A virus pathogenicity, Influenza in Birds epidemiology, Molecular Sequence Data, Phylogeny, Poultry Diseases epidemiology, Turkeys, Influenza A virus isolation & purification, Influenza in Birds virology, Poultry Diseases virology
Abstract

Introduction: More than 70 outbreaks of the highly pathogenic avian influenza (HPAI) H5N1 have been reported in poultry in the western and north-eastern parts of India. Therefore, in view of the recent HPAI H5N1 outbreaks in poultry, active AI surveillance encompassing wild, resident, migratory birds and poultry was undertaken during 2009-2011 in the State of West Bengal., Methods: A total of 5722 samples were collected from West Bengal; 3522 samples (2906 fecal droppings + 616 other environmental samples) were from migratory birds and 2200 samples [1604 tracheal, cloacal swabs, environmental samples, tissue samples + 596 blood (serum)] were from domestic ducks and poultry. All tracheal, cloacal and environmental samples were processed for virus isolation. Virus isolates were detected using hemagglutination assay and identified using hemagglutination inhibition (HI) and reverse transcriptase polymerase chain reaction (RT-PCR) assays. Sequencing and phylogenetic analysis of partial region of the hemagglutinin and neuraminidase genes was done. Intravenous pathogenicity index assays were performed in chickens to assess pathogenicity of AI virus isolates. Serum samples were tested for detection of antibodies against AI viruses using HI assay., Results: A total of 57 AI H9N2, 15 AI H4N6 and 15 Newcastle Disease (NDV) viruses were isolated from chickens, from both backyard and wet poultry markets; AI H4N6 viruses were isolated from backyard chickens and domestic ducks. Characterization of AI H9N2 and H4N6 viruses revealed that they were of low pathogenicity. Domestic ducks were positive for antibodies against H5 and H7 viruses while chickens were positive for presence of antibodies against AI H9N2 and NDV., Conclusions: In the current scenario of HPAI H5N1 outbreaks in West Bengal, this report shows presence of low pathogenic AI H9N2 and H4N6 viruses in chickens and domestic ducks during the period 2009-2011. This is the first report of isolation of H4N6 from India. Antibodies against AI H5 and H7 in ducks highlight the probable role of domestic ducks in the transmission of AI viruses. Human infections of H9N2 have been reported from China and Hong Kong. This necessitates implementation of prevention and control measures to limit the spread of AI viruses.

Published
2012
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33. Serologic evidence of avian influenza H9N2 and paramyxovirus type 1 infection in emus (Dromaius novaehollandiae) in India.

Author

Shinde PV, Koratkar SS, Pawar SD, Kale SD, Rawankar AS, and Mishra AC

Subjects
Agriculture, Animals, Antibodies, Viral blood, Hemagglutination Inhibition Tests veterinary, India epidemiology, Influenza A virus classification, Influenza in Birds epidemiology, Neutralization Tests veterinary, Newcastle Disease epidemiology, Newcastle disease virus classification, Seroepidemiologic Studies, Dromaiidae, Hemagglutination Inhibition Tests methods, Influenza A virus isolation & purification, Influenza in Birds virology, Neutralization Tests methods, Newcastle Disease virology, Newcastle disease virus isolation & purification
Abstract

An avian influenza (AI) surveillance was undertaken in Maharashtra state, India during the period 2010-2011. There are no reports of AI surveillance in emus from India. A total of 202 blood samples and 467 tracheal and cloacal swabs were collected from eight emu farms. A hemagglutination inhibition (HI) assay was performed for detection of antibodies against AI H5N1, H7N1, H9N2, and avian paramyxovirus type 1 (APMV-1) viruses. A microneutralization (MN) assay was performed to confirm the presence of neutralizing antibodies against AI H9N2 and to compare with HI assays. A total of 28.2% and 28.7% of samples were positive for antibodies against AI H9N2 by HI and MN assays, respectively, using > or = 1:40 as a cut-off titer; 15.3% samples were positive for APMV-1 by HI assay using a > or = 1:10 cut-off titer. Seropositivity of AI H9N2 was nil in the grower (<1 yr) age group and highest (78%) in the breeder (2-3 yr) age group, whereas seropositivity against APMV-1 was observed in all age groups. Performance of both HI and MN assays was similar, suggesting the utility of using the MN assay along with HI assay for surveillance studies. This is the first report of the seroprevalence of AI H9N2 and APMV-1 in emus in India.

Published
2012
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34. Oomycete and fungal effector entry, a microbial Trojan horse.

Author

Kale SD

Subjects
Amino Acid Motifs, Amino Acid Sequence, Crops, Agricultural microbiology, Fungi physiology, Host-Pathogen Interactions, Molecular Sequence Data, Phosphatidylinositol Phosphates metabolism, Phospholipids metabolism, Symbiosis, Fungal Proteins metabolism, Fungi pathogenicity, Oomycetes physiology, Plant Diseases microbiology, Plants microbiology
Abstract

Oomycete and fungal symbionts have significant impacts on most commercially important crop and forest species, and on natural ecosystems, both negatively as pathogens and positively as mutualists. Symbiosis may be facilitated through the secretion of effector proteins, some of which modulate a variety of host defense mechanisms. A subset of these secreted proteins are able to translocate into host cells. In the oomycete pathogens, two conserved N-terminal motifs, RXLR and dEER, mediate translocation of effector proteins into host cells independent of any pathogen-encoded machinery. An expanded 'RXLR-like' motif [R/K/H]X[L/M/I/F/Y/W]X has been used to identify functional translocation motifs in host-cell-entering fungal effector proteins from pathogens and a mutualist. The RXLR-like translocation motifs were required for the fungal effectors to enter host cells in the absence of any pathogen-encoded machinery. Oomycete and fungal effectors with RXLR and RXLR-like motifs can bind phospholipids, specifically phosphatidylinositol-3-phosphate (PtdIns-3-P). Effector-PtdIns-3-P binding appears to mediate cell entry via lipid raft-mediated endocytosis, and could be blocked by sequestering cell surface PtdIns-3-P or by utilizing inositides that competitively inhibit effector binding to PtdIns-3-P. These findings suggest that effector blocking technologies could be developed and utilized in a variety of important crop species against a broad spectrum of plant pathogens., (© 2011 The Author. New Phytologist © 2011 New Phytologist Trust.)

Published
2012
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35. Identification of lipid-binding effectors.

Author

Kale SD and Tyler BM

Subjects
Animals, Oomycetes metabolism, Protein Binding, Fungi metabolism, Liposomes metabolism, Phospholipids metabolism, Proteins metabolism
Abstract

In recent years, the functional roles of effectors from a wide variety of fungal and oomycete pathogens have begun to emerge. As a product of this work, the importance of effector-lipid interactions has been made apparent. Phospholipids are not only important signaling molecules, but they also play important roles in the trafficking of endosomes and the localization of proteins. Characterizing effector-lipid interactions can provide novel information regarding the functions of effectors relevant to their cellular and subcellular targeting and their potential effects on host signaling and vesicle trafficking. We present here two techniques that can be used to screen for and validate protein-lipid interactions without the need to access highly specialized machinery. We describe in detail how to perform lipid filter and liposome-binding assays and provide suggestions for troubleshooting potential problems with these assays.

Published
2012
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36. Entry of oomycete and fungal effectors into plant and animal host cells.

Author

Kale SD and Tyler BM

Subjects
Amino Acid Motifs, Animal Diseases microbiology, Animals, Cell Membrane metabolism, Fungal Proteins metabolism, Host-Pathogen Interactions, Plant Diseases microbiology, Plants metabolism, Plants microbiology, Protein Binding, Protein Transport, Endocytosis, Oomycetes pathogenicity, Phosphatidylinositol Phosphates metabolism, Plant Cells microbiology, Receptors, Cell Surface metabolism
Abstract

Fungal and oomycete pathogens cause many destructive diseases of plants and important diseases of humans and other animals. Fungal and oomycete plant pathogens secrete numerous effector proteins that can enter inside host cells to condition susceptibility. Until recently it has been unknown if these effectors enter via pathogen-encoded translocons or via pathogen-independent mechanisms. Here we review recent evidence that many fungal and oomycete effectors enter via receptor-mediated endocytosis, and can do so in the absence of the pathogen. Surprisingly, a large number of these effectors utilize cell surface phosphatidyinositol-3-phosphate (PI-3-P) as a receptor, a molecule previously known only inside cells. Binding of effectors to PI-3-P appears to be mediated by the cell entry motif RXLR in oomycetes, and by diverse RXLR-like variants in fungi. PI-3-P appears to be present on the surface of animal cells also, suggesting that it may mediate entry of effectors of fungal and oomycete animal pathogens, for example, RXLR effectors found in the oomycete fish pathogen, Saprolegnia parasitica. Reagents that can block PI-3-P-mediated entry have been identified, suggesting new therapeutic strategies., (© 2011 Blackwell Publishing Ltd.)

Published
2011
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37. Phytophthora sojae avirulence effector Avr3b is a secreted NADH and ADP-ribose pyrophosphorylase that modulates plant immunity.

Author

Dong S, Yin W, Kong G, Yang X, Qutob D, Chen Q, Kale SD, Sui Y, Zhang Z, Dou D, Zheng X, Gijzen M, Tyler BM, and Wang Y

Subjects
Adenosine Diphosphate Ribose metabolism, Alleles, Genotype, Molecular Sequence Data, Mutation, NAD metabolism, Phosphorylases chemistry, Phosphorylases genetics, Phytophthora genetics, Phytophthora pathogenicity, Plant Diseases parasitology, Pyrophosphatases chemistry, Reactive Oxygen Species metabolism, Glycine max immunology, Glycine max parasitology, Nicotiana immunology, Nicotiana metabolism, Nicotiana parasitology, Virulence Factors biosynthesis, Nudix Hydrolases, Phosphorylases metabolism, Phytophthora enzymology, Plant Immunity, Virulence Factors metabolism
Abstract

Plants have evolved pathogen-associated molecular pattern (PAMP)-triggered immunity (PTI) and effector-triggered immunity (ETI) to protect themselves from infection by diverse pathogens. Avirulence (Avr) effectors that trigger plant ETI as a result of recognition by plant resistance (R) gene products have been identified in many plant pathogenic oomycetes and fungi. However, the virulence functions of oomycete and fungal Avr effectors remain largely unknown. Here, we combined bioinformatics and genetics to identify Avr3b, a new Avr gene from Phytophthora sojae, an oomycete pathogen that causes soybean root rot. Avr3b encodes a secreted protein with the RXLR host-targeting motif and C-terminal W and Nudix hydrolase motifs. Some isolates of P. sojae evade perception by the soybean R gene Rps3b through sequence mutation in Avr3b and lowered transcript accumulation. Transient expression of Avr3b in Nicotiana benthamiana increased susceptibility to P. capsici and P. parasitica, with significantly reduced accumulation of reactive oxygen species (ROS) around invasion sites. Biochemical assays confirmed that Avr3b is an ADP-ribose/NADH pyrophosphorylase, as predicted from the Nudix motif. Deletion of the Nudix motif of Avr3b abolished enzyme activity. Mutation of key residues in Nudix motif significantly impaired Avr3b virulence function but not the avirulence activity. Some Nudix hydrolases act as negative regulators of plant immunity, and thus Avr3b might be delivered into host cells as a Nudix hydrolase to impair host immunity. Avr3b homologues are present in several sequenced Phytophthora genomes, suggesting that Phytophthora pathogens might share similar strategies to suppress plant immunity.

Published
2011
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38. A secreted effector protein of Laccaria bicolor is required for symbiosis development.

Author

Plett JM, Kemppainen M, Kale SD, Kohler A, Legué V, Brun A, Tyler BM, Pardo AG, and Martin F

Subjects
Fungal Proteins chemistry, Fungal Proteins genetics, Gene Expression Regulation, Genome, Fungal, Laccaria chemistry, Laccaria growth & development, Laccaria metabolism, Mycorrhizae genetics, Mycorrhizae metabolism, Phosphatidylinositol Phosphates metabolism, Plant Roots genetics, Plant Roots microbiology, Populus microbiology, Protein Transport, Signal Transduction, Transcriptome, Fungal Proteins metabolism, Laccaria genetics, Symbiosis
Abstract

Soil-borne mutualistic fungi, such as the ectomycorrhizal fungi, have helped shape forest communities worldwide over the last 180 million years through a mutualistic relationship with tree roots in which the fungal partner provides a large array of nutrients to the plant host in return for photosynthetically derived sugars. This exchange is essential for continued growth and productivity of forest trees, especially in nutrient-poor soils. To date, the signals from the two partners that mediate this symbiosis have remained uncharacterized. Here we demonstrate that MYCORRHIZAL iNDUCED SMALL SECRETED PROTEIN 7 (MiSSP7), the most highly symbiosis-upregulated gene from the ectomycorrhizal fungus Laccaria bicolor, encodes an effector protein indispensible for the establishment of mutualism. MiSSP7 is secreted by the fungus upon receipt of diffusible signals from plant roots, imported into the plant cell via phosphatidylinositol 3-phosphate-mediated endocytosis, and targeted to the plant nucleus where it alters the transcriptome of the plant cell. L. bicolor transformants with reduced expression of MiSSP7 do not enter into symbiosis with poplar roots. MiSSP7 resembles effectors of pathogenic fungi, nematodes, and bacteria that are similarly targeted to the plant nucleus to promote colonization of the plant tissues and thus can be considered a mutualism effector., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2011
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39. Transcriptional programming and functional interactions within the Phytophthora sojae RXLR effector repertoire.

Author

Wang Q, Han C, Ferreira AO, Yu X, Ye W, Tripathy S, Kale SD, Gu B, Sheng Y, Sui Y, Wang X, Zhang Z, Cheng B, Dong S, Shan W, Zheng X, Dou D, Tyler BM, and Wang Y

Subjects
Agrobacterium tumefaciens genetics, Agrobacterium tumefaciens metabolism, Amino Acid Sequence, Animals, Cell Death physiology, Gene Expression Regulation, Microarray Analysis, Molecular Sequence Data, Plant Proteins genetics, Plant Proteins metabolism, Polymorphism, Genetic, Sequence Alignment, Glycine max genetics, Glycine max immunology, Glycine max microbiology, Nicotiana genetics, Nicotiana immunology, Nicotiana microbiology, bcl-2-Associated X Protein genetics, bcl-2-Associated X Protein metabolism, Phytophthora genetics, Phytophthora metabolism, Phytophthora pathogenicity, Transcription, Genetic
Abstract

The genome of the soybean pathogen Phytophthora sojae contains nearly 400 genes encoding candidate effector proteins carrying the host cell entry motif RXLR-dEER. Here, we report a broad survey of the transcription, variation, and functions of a large sample of the P. sojae candidate effectors. Forty-five (12%) effector genes showed high levels of polymorphism among P. sojae isolates and significant evidence for positive selection. Of 169 effectors tested, most could suppress programmed cell death triggered by BAX, effectors, and/or the PAMP INF1, while several triggered cell death themselves. Among the most strongly expressed effectors, one immediate-early class was highly expressed even prior to infection and was further induced 2- to 10-fold following infection. A second early class, including several that triggered cell death, was weakly expressed prior to infection but induced 20- to 120-fold during the first 12 h of infection. The most strongly expressed immediate-early effectors could suppress the cell death triggered by several early effectors, and most early effectors could suppress INF1-triggered cell death, suggesting the two classes of effectors may target different functional branches of the defense response. In support of this hypothesis, misexpression of key immediate-early and early effectors severely reduced the virulence of P. sojae transformants.

Published
2011
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40. Sequence variants of the Phytophthora sojae RXLR effector Avr3a/5 are differentially recognized by Rps3a and Rps5 in soybean.

Author

Dong S, Yu D, Cui L, Qutob D, Tedman-Jones J, Kale SD, Tyler BM, Wang Y, and Gijzen M

Subjects
Chromosome Mapping, Haplotypes, Molecular Sequence Data, Phytophthora genetics, Plant Leaves metabolism, Plant Leaves parasitology, Plant Proteins genetics, Virulence genetics, Virulence physiology, Phytophthora metabolism, Phytophthora pathogenicity, Plant Proteins metabolism, Glycine max metabolism, Glycine max parasitology
Abstract

The perception of Phytophthora sojae avirulence (Avr) gene products by corresponding soybean resistance (Rps) gene products causes effector triggered immunity. Past studies have shown that the Avr3a and Avr5 genes of P. sojae are genetically linked, and the Avr3a gene encoding a secreted RXLR effector protein was recently identified. We now provide evidence that Avr3a and Avr5 are allelic. Genetic mapping data from F(2) progeny indicates that Avr3a and Avr5 co-segregate, and haplotype analysis of P. sojae strain collections reveal sequence and transcriptional polymorphisms that are consistent with a single genetic locus encoding Avr3a/5. Transformation of P. sojae and transient expression in soybean were performed to test how Avr3a/5 alleles interact with soybean Rps3a and Rps5. Over-expression of Avr3a/5 in a P. sojae strain that is normally virulent on Rps3a and Rps5 results in avirulence to Rps3a and Rps5; whereas silencing of Avr3a/5 causes gain of virulence in a P. sojae strain that is normally avirulent on Rps3a and Rps5 soybean lines. Transient expression and co-bombardment with a reporter gene confirms that Avr3a/5 triggers cell death in Rps5 soybean leaves in an appropriate allele-specific manner. Sequence analysis of the Avr3a/5 gene identifies crucial residues in the effector domain that distinguish recognition by Rps3a and Rps5.

Published
2011
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41. Assaying effector function in planta using double-barreled particle bombardment.

Author

Kale SD and Tyler BM

Subjects
Animals, DNA metabolism, Plant Leaves genetics, Glycine max anatomy & histology, Transfection methods, Biolistics instrumentation, Biolistics methods, Gene Expression, Genes, Plant, Glycine max genetics
Abstract

The biolistic transient gene expression assay is a beneficial tool for studying gene function in vivo. However, biolistic transient assay systems have inherent pitfalls that often cause experimental inaccuracies such as poor transformation efficiency, which can be confused with biological phenomena. The double-barreled gene gun device is an inexpensive and highly effective attachment that enables statistically significant data to be obtained with one-tenth the number of experimental replicates compared to conventional biolistic assays. The principle behind the attachment is to perform two simultaneous bombardments with control and test DNA preparations onto the same leaf. The control bombardment measures the efficiency of the transformation while the ratio of the test bombardment to the control bombardment measures the activity of the gene of interest. With care, the ratio between the pair of bombardments can be highly reproducible from bombardment to bombardment. The double-barreled attachment has been used to study plant resistance (R) gene-mediated responses to effectors, induction and suppression of cell death by a wide variety of pathogen and host molecules, and the role of oömycete effector RXLR motifs in cell reentry.

Published
2011
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42. Rust secreted protein Ps87 is conserved in diverse fungal pathogens and contains a RXLR-like motif sufficient for translocation into plant cells.

Author

Gu B, Kale SD, Wang Q, Wang D, Pan Q, Cao H, Meng Y, Kang Z, Tyler BM, and Shan W

Subjects
Amino Acid Motifs, Amino Acid Sequence, Conserved Sequence, Fungal Proteins metabolism, Host-Pathogen Interactions, Molecular Sequence Data, Oomycetes immunology, Oomycetes metabolism, Oomycetes microbiology, Phenotype, Phylogeny, Plant Diseases genetics, Plant Diseases immunology, Plant Leaves genetics, Plant Leaves immunology, Plant Leaves microbiology, Protein Sorting Signals, Protein Transport, Sequence Homology, Amino Acid, Virulence, Basidiomycota immunology, Fungal Proteins genetics, Plant Cells microbiology, Plant Diseases microbiology, Plant Immunity genetics, Glycine max microbiology
Abstract

Background: Effector proteins of biotrophic plant pathogenic fungi and oomycetes are delivered into host cells and play important roles in both disease development and disease resistance response. How obligate fungal pathogen effectors enter host cells is poorly understood. The Ps87 gene of Puccinia striiformis encodes a protein that is conserved in diverse fungal pathogens. Ps87 homologs from a clade containing rust fungi are predicted to be secreted. The aim of this study is to test whether Ps87 may act as an effector during Puccinia striiformis infection., Methodology/principal Findings: Yeast signal sequence trap assay showed that the rust protein Ps87 could be secreted from yeast cells, but a homolog from Magnaporthe oryzae that was not predicted to be secreted, could not. Cell re-entry and protein uptake assays showed that a region of Ps87 containing a conserved RXLR-like motif [K/R]RLTG was confirmed to be capable of delivering oomycete effector Avr1b into soybean leaf cells and carrying GFP into soybean root cells. Mutations in the Ps87 motif (KRLTG) abolished the protein translocation ability., Conclusions/significance: The results suggest that Ps87 and its secreted homologs could utilize similar protein translocation machinery as those of oomycete and other fungal pathogens. Ps87 did not show direct suppression activity on plant defense responses. These results suggest Ps87 may represent an "emerging effector" that has recently acquired the ability to enter plant cells but has not yet acquired the ability to alter host physiology.

Published
2011
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43. External lipid PI3P mediates entry of eukaryotic pathogen effectors into plant and animal host cells.

Author

Kale SD, Gu B, Capelluto DG, Dou D, Feldman E, Rumore A, Arredondo FD, Hanlon R, Fudal I, Rouxel T, Lawrence CB, Shan W, and Tyler BM

Subjects
Algal Proteins chemistry, Algal Proteins metabolism, Amino Acid Sequence, Animals, Cell Membrane metabolism, Fungal Proteins chemistry, Fungal Proteins metabolism, Humans, Membrane Microdomains metabolism, Molecular Sequence Data, Plants microbiology, Host-Pathogen Interactions, Oomycetes metabolism, Phosphatidylinositol Phosphates metabolism
Abstract

Pathogens of plants and animals produce effector proteins that are transferred into the cytoplasm of host cells to suppress host defenses. One type of plant pathogens, oomycetes, produces effector proteins with N-terminal RXLR and dEER motifs that enable entry into host cells. We show here that effectors of another pathogen type, fungi, contain functional variants of the RXLR motif, and that the oomycete and fungal RXLR motifs enable binding to the phospholipid, phosphatidylinositol-3-phosphate (PI3P). We find that PI3P is abundant on the outer surface of plant cell plasma membranes and, furthermore, on some animal cells. All effectors could also enter human cells, suggesting that PI3P-mediated effector entry may be very widespread in plant, animal and human pathogenesis. Entry into both plant and animal cells involves lipid raft-mediated endocytosis. Blocking PI3P binding inhibited effector entry, suggesting new therapeutic avenues., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published
2010
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44. Different domains of Phytophthora sojae effector Avr4/6 are recognized by soybean resistance genes Rps4 and Rps6.

Author

Dou D, Kale SD, Liu T, Tang Q, Wang X, Arredondo FD, Basnayake S, Whisson S, Drenth A, Maclean D, and Tyler BM

Subjects
Alleles, Base Sequence, Cell Death, Gene Expression Regulation, Plant, Gene Silencing, Molecular Sequence Data, Phytophthora genetics, Phytophthora pathogenicity, Polymorphism, Genetic, Glycine max metabolism, Transcription, Genetic, Virulence, Phytophthora metabolism, Plant Diseases genetics, Plant Diseases microbiology, Plant Proteins genetics, Plant Proteins metabolism, Glycine max genetics
Abstract

At least 12 avirulence genes have been genetically identified and mapped in Phytophthora sojae, an oomycete pathogen causing root and stem rot of soybean. Previously, the Avr4 and Avr6 genes of P. sojae were genetically mapped within a 24 kb interval of the genome. Here, we identify Avr4 and Avr6 and show that they are actually a single gene, Avr4/6, located near the 24-kb region. Avr4/6 encodes a secreted protein of 123 amino acids with an RXLR-dEER protein translocation motif. Transient expression of Avr4/6 in soybean leaves revealed that its gene product could trigger a hypersensitive response (HR) in the presence of either Rps4 or Rps6. Silencing Avr4/6 in P. sojae stable transformants abolished the avirulence phenotype exhibited on both Rps4 and Rps6 soybean cultivars. The N terminus of Avr4/6, including the dEER motif, is sufficient to trigger Rps4-dependent HR while its C terminus is sufficient to trigger Rps6-mediated HR. Compared with alleles from avirulent races, alleles of Avr4/6 from virulent races possess nucleotide substitutions in the 5' untranslated region of the gene but not in the protein-coding region.

Published
2010
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45. FTO gene variants are strongly associated with type 2 diabetes in South Asian Indians.

Author

Yajnik CS, Janipalli CS, Bhaskar S, Kulkarni SR, Freathy RM, Prakash S, Mani KR, Weedon MN, Kale SD, Deshpande J, Krishnaveni GV, Veena SR, Fall CH, McCarthy MI, Frayling TM, Hattersley AT, and Chandak GR

Subjects
Adult, Alpha-Ketoglutarate-Dependent Dioxygenase FTO, Asian People statistics & numerical data, Blood Pressure, Body Mass Index, Case-Control Studies, DNA Replication genetics, Diabetes Mellitus, Type 2 epidemiology, Ethnicity statistics & numerical data, Europe epidemiology, Female, Genotype, Humans, India epidemiology, Male, Middle Aged, Regression Analysis, Waist Circumference, White People statistics & numerical data, Diabetes Mellitus, Type 2 genetics, Genetic Variation, Polymorphism, Single Nucleotide, Proteins genetics
Abstract

Aims and Hypothesis: Variants of the FTO (fat mass and obesity associated) gene are associated with obesity and type 2 diabetes in white Europeans, but these associations are not consistent in Asians. A recent study in Asian Indian Sikhs showed an association with type 2 diabetes that did not seem to be mediated through BMI. We studied the association of FTO variants with type 2 diabetes and measures of obesity in South Asian Indians in Pune., Methods: We genotyped, by sequencing, two single nucleotide polymorphisms, rs9939609 and rs7191344, in the FTO gene in 1,453 type 2 diabetes patients and 1,361 controls from Pune, Western India and a further 961 population-based individuals from Mysore, South India., Results: We observed a strong association of the minor allele A at rs9939609 with type 2 diabetes (OR per allele 1.26; 95% CI 1.13-1.40; p = 3 x 10(-5)). The variant was also associated with BMI but this association appeared to be weaker (0.06 SDs; 95% CI 0.01-0.10) than the previously reported effect in Europeans (0.10 SDs; 95% CI 0.09-0.12; heterogeneity p = 0.06). Unlike in the Europeans, the association with type 2 diabetes remained significant after adjusting for BMI (OR per allele for type 2 diabetes 1.21; 95% CI 1.06-1.37; p = 4.0 x 10(-3)), and also for waist circumference and other anthropometric variables., Conclusions: Our study replicates the strong association of FTO variants with type 2 diabetes and similar to the study in North Indians Sikhs, shows that this association may not be entirely mediated through BMI. This could imply underlying differences between Indians and Europeans in the mechanisms linking body size with type 2 diabetes.

Published
2009
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46. Copy number variation and transcriptional polymorphisms of Phytophthora sojae RXLR effector genes Avr1a and Avr3a.

Author

Qutob D, Tedman-Jones J, Dong S, Kuflu K, Pham H, Wang Y, Dou D, Kale SD, Arredondo FD, Tyler BM, and Gijzen M

Subjects
Algal Proteins chemistry, Amino Acid Sequence, Cloning, Molecular, Molecular Sequence Data, Oligonucleotide Array Sequence Analysis, Phytophthora pathogenicity, RNA, Messenger genetics, Sequence Homology, Amino Acid, Virulence, Algal Proteins genetics, Genes, Fungal, Phytophthora genetics, Polymorphism, Genetic, Transcription, Genetic
Abstract

The importance of segmental duplications and copy number variants as a source of genetic and phenotypic variation is gaining greater appreciation, in a variety of organisms. Now, we have identified the Phytophthora sojae avirulence genes Avr1a and Avr3a and demonstrate how each of these Avr genes display copy number variation in different strains of P. sojae. The Avr1a locus is a tandem array of four near-identical copies of a 5.2 kb DNA segment. Two copies encoding Avr1a are deleted in some P. sojae strains, causing changes in virulence. In other P. sojae strains, differences in transcription of Avr1a result in gain of virulence. For Avr3a, there are four copies or one copy of this gene, depending on the P. sojae strain. In P. sojae strains with multiple copies of Avr3a, this gene occurs within a 10.8 kb segmental duplication that includes four other genes. Transcriptional differences of the Avr3a gene among P. sojae strains cause changes in virulence. To determine the extent of duplication within the superfamily of secreted proteins that includes Avr1a and Avr3a, predicted RXLR effector genes from the P. sojae and the P. ramorum genomes were compared by counting trace file matches from whole genome shotgun sequences. The results indicate that multiple, near-identical copies of RXLR effector genes are prevalent in oomycete genomes. We propose that multiple copies of particular RXLR effectors may contribute to pathogen fitness. However, recognition of these effectors by plant immune systems results in selection for pathogen strains with deleted or transcriptionally silenced gene copies.

Published
2009
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47. RXLR-mediated entry of Phytophthora sojae effector Avr1b into soybean cells does not require pathogen-encoded machinery.

Author

Dou D, Kale SD, Wang X, Jiang RH, Bruce NA, Arredondo FD, Zhang X, and Tyler BM

Subjects
Algal Proteins genetics, Amino Acid Motifs genetics, Amino Acid Sequence, Animals, Erythrocytes cytology, Erythrocytes parasitology, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Host-Parasite Interactions, Host-Pathogen Interactions, Humans, Microscopy, Confocal, Models, Biological, Molecular Sequence Data, Onions cytology, Onions genetics, Onions metabolism, Phytophthora genetics, Phytophthora metabolism, Plasmodium metabolism, Plasmodium physiology, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Sequence Homology, Amino Acid, Transfection, Algal Proteins metabolism, Phytophthora physiology, Glycine max microbiology
Abstract

Effector proteins secreted by oomycete and fungal pathogens have been inferred to enter host cells, where they interact with host resistance gene products. Using the effector protein Avr1b of Phytophthora sojae, an oomycete pathogen of soybean (Glycine max), we show that a pair of sequence motifs, RXLR and dEER, plus surrounding sequences, are both necessary and sufficient to deliver the protein into plant cells. Particle bombardment experiments demonstrate that these motifs function in the absence of the pathogen, indicating that no additional pathogen-encoded machinery is required for effector protein entry into host cells. Furthermore, fusion of the Avr1b RXLR-dEER domain to green fluorescent protein (GFP) allows GFP to enter soybean root cells autonomously. The conclusion that RXLR and dEER serve to transduce oomycete effectors into host cells indicates that the >370 RXLR-dEER-containing proteins encoded in the genome sequence of P. sojae are candidate effectors. We further show that the RXLR and dEER motifs can be replaced by the closely related erythrocyte targeting signals found in effector proteins of Plasmodium, the protozoan that causes malaria in humans. Mutational analysis of the RXLR motif shows that the required residues are very similar in the motifs of Plasmodium and Phytophthora. Thus, the machinery of the hosts (soybean and human) targeted by the effectors may be very ancient.

Published
2008
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48. Conserved C-terminal motifs required for avirulence and suppression of cell death by Phytophthora sojae effector Avr1b.

Author

Dou D, Kale SD, Wang X, Chen Y, Wang Q, Wang X, Jiang RH, Arredondo FD, Anderson RG, Thakur PB, McDowell JM, Wang Y, and Tyler BM

Subjects
Algal Proteins chemistry, Amino Acid Sequence, Animals, Mice, Molecular Sequence Data, Sequence Homology, Amino Acid, Algal Proteins physiology, Cell Death physiology, Phytophthora pathogenicity, Virulence physiology
Abstract

The sequenced genomes of oomycete plant pathogens contain large superfamilies of effector proteins containing the protein translocation motif RXLR-dEER. However, the contributions of these effectors to pathogenicity remain poorly understood. Here, we show that the Phytophthora sojae effector protein Avr1b can contribute positively to virulence and can suppress programmed cell death (PCD) triggered by the mouse BAX protein in yeast, soybean (Glycine max), and Nicotiana benthamiana cells. We identify three conserved motifs (K, W, and Y) in the C terminus of the Avr1b protein and show that mutations in the conserved residues of the W and Y motifs reduce or abolish the ability of Avr1b to suppress PCD and also abolish the avirulence interaction of Avr1b with the Rps1b resistance gene in soybean. W and Y motifs are present in at least half of the identified oomycete RXLR-dEER effector candidates, and we show that three of these candidates also suppress PCD in soybean. Together, these results indicate that the W and Y motifs are critical for the interaction of Avr1b with host plant target proteins and support the hypothesis that these motifs are critical for the functions of the very large number of predicted oomycete effectors that contain them.

Published
2008
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49. Characteristics of gestational diabetic mothers and their babies in an Indian diabetes clinic.

Author

Kale SD, Kulkarni SR, Lubree HG, Meenakumari K, Deshpande VU, Rege SS, Deshpande J, Coyaji KJ, and Yajnik CS

Subjects
Adult, Age Factors, Body Height, Body Weight, Female, Hemoglobins analysis, Humans, Hypertension epidemiology, India, Infant, Newborn, Infant, Newborn, Diseases epidemiology, Obesity epidemiology, Pregnancy, Triglycerides blood, Diabetes, Gestational epidemiology
Abstract

Aims and Objectives: To compare clinical and metabolic features of mothers with gestational diabetes (GDM) and their offspring with those in non-diabetic pregnancies at the King Edward Memorial Hospital, Pune, India., Materials and Methods: Antenatal information was obtained from hospital records. GDM was diagnosed by 75 g OGTT (Oral Glucose Tolerance Test) in clinically high-risk women. Anthropometric measurements of mother and the babies were recorded within 24h of delivery and a maternal blood sample collected for hematological and biochemical measurements., Results: Between the period Jan 1998 to December 2003,265 women with gestational diabetes were treated in our Unit. Forty nine percent had first-degree relatives with diabetes. Compared to non-diabetic mothers (n=215) GDM mothers were older (29.0 vs. 26.0y, p<0.001), more obese (body mass index- BMI 26.0 vs. 22.0 kg/m2, p<0.001), centrally obese (Waist hip ratio-WHR 0.89 vs 0.86, p<0.001), adipose (sum of 4 skinfolds 98.4 vs. 61.4 mm, p<0.001) and had higher blood pressure (127/80 vs. 122/70 mmHg, p<0.001). GDM mothers had higher concentrations of plasma triglycerides (195.0 vs. 153.0 mg/dl, p<0.01); blood hemoglobin (11.7 vs 10.9 g/dl, p<0.001) and higher platelet count but lower concentration of HDL cholesterol and albumin. Sixty percent GDM mothers and 34% of non-diabetic mothers were delivered by caesarean-section, 23% of GDM mothers delivered pre term (<37 wk). Despite the smaller gestation, babies of GDM mothers were heavier (BW 2950.0 vs. 2824.0g, p<0.001, adjusted for gender), longer (48.9 vs. 48.0 cm, p<0.01) and more adipose (sum of 2 skinfolds 10.5 vs. 8.5 mm). Only 5% of babies born to GDM mothers weighed > 4000 g but 30% were >90th centile of birth weight of babies born to non-diabetic mothers. Babies of GDM mothers suffered higher neonatal morbidity., Conclusions: GDM mothers in urban India are more obese and more adipose than non-diabetic mothers, frequently have a family history of diabetes and show metabolic features of insulin resistance syndrome, suggesting high cardiovascular risk. Neonates of GDM mothers are heavier, longer and more adipose than those born to non-diabetic mothers, and suffer higher neonatal morbidity.

Published
2005

50. Impairment of glucose tolerance over 10 years in middle-aged normal glucose tolerant Indians.

Author

Yajnik CS, Shelgikar KM, Naik SS, Sayyad MG, Raut KN, Bhat DS, Deshpande JA, Kale SD, and Hockaday D

Subjects
England epidemiology, Female, Follow-Up Studies, Glucose metabolism, Homeostasis, Humans, India ethnology, Male, Odds Ratio, Reference Values, Time Factors, Triglycerides blood, Weight Gain, Blood Glucose metabolism, Glucose Intolerance epidemiology
Published
2003
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