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14. The role of B cell antigen presentation in the initiation of CD4+ T cell response.

Author

Hua, Zhaolin and Hou, Baidong

Subjects
*B cells, *ANTIGEN presentation, *T cells, *B cell receptors, *T helper cells, *INTERLEUKIN-21, *SEVERE combined immunodeficiency
Abstract

B cells have been known for their ability to present antigens to T cells for almost 40 years. However, the precise roles of B cell antigen presentation in various immune responses are not completely understood. The term "professional" antigen‐presenting cells (APCs) was proposed to distinguish APCs that are required for initiating the immune responses from those use antigen presentation to enhance their own effector functions. Unlike dendritic cells, which are defined as professional APCs for their well‐established functions in activating naive T cells, B cells have been shown in the past to mostly present antigens to activated CD4+ T cells mainly to seek help from T helper cells. However, recent evidence suggested that B cells can act as professional APCs under infectious conditions or conditions mimicking viral infections. B cell antigen receptors (BCRs) and the innate receptor Toll‐like receptors are activated synergistically in response to pathogens or virus‐like particles, under which conditions B cells are not only potent but also the predominant APCs to turn naive CD4+ T cells into T follicular helper cells. The discovery of B cells as professional APCs to initiate CD4+ T cell response provides a new insight for both autoimmune diseases and vaccine development. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Antiviral memory B cells exhibit enhanced innate immune response facilitated by epigenetic memory.

Author

Zhu X, Hong S, Bu J, Liu Y, Liu C, Li R, Zhang T, Zhang Z, Li L, Zhou X, Hua Z, Zhu B, and Hou B

Subjects
Epigenetic Memory, Immunity, Innate, Antiviral Agents, B-Lymphocytes, Memory B Cells
Abstract

The long-lasting humoral immunity induced by viral infections or vaccinations depends on memory B cells with greatly increased affinity to viral antigens, which are evolved from germinal center (GC) responses. However, it is unclear whether antiviral memory B cells represent a distinct subset among the highly heterogeneous memory B cell population. Here, we examined memory B cells induced by a virus-mimicking antigen at both transcriptome and epigenetic levels and found unexpectedly that antiviral memory B cells exhibit an enhanced innate immune response, which appeared to be facilitated by the epigenetic memory that is established through the memory B cell development. In addition, T-bet is associated with the altered chromatin architecture and is required for the formation of the antiviral memory B cells. Thus, antiviral memory B cells are distinct from other GC-derived memory B cells in both physiological functions and epigenetic landmarks.

Published
2024
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18. Activated PI3Kδ signals compromise plasma cell survival via limiting autophagy and increasing ER stress.

Author

Al Qureshah F, Sagadiev S, Thouvenel CD, Liu S, Hua Z, Hou B, Acharya M, James RG, and Rawlings DJ

Subjects
Animals, B-Lymphocytes cytology, B-Lymphocytes physiology, Cell Survival, Class I Phosphatidylinositol 3-Kinases genetics, Female, Gain of Function Mutation, Gene Expression Regulation, Immunity, Humoral physiology, Male, Mechanistic Target of Rapamycin Complex 1 metabolism, Mice, Inbred C57BL, Mice, Mutant Strains, Signal Transduction, Mice, Autophagy physiology, Class I Phosphatidylinositol 3-Kinases metabolism, Endoplasmic Reticulum Stress physiology, Plasma Cells physiology
Abstract

While phosphatidylinositide 3-kinase delta (PI3Kδ) plays a critical role in humoral immunity, the requirement for PI3Kδ signaling in plasma cells remains poorly understood. Here, we used a conditional mouse model of activated PI3Kδ syndrome (APDS), to interrogate the function of PI3Kδ in plasma cell biology. Mice expressing a PIK3CD gain-of-function mutation (aPIK3CD) in B cells generated increased numbers of memory B cells and mounted an enhanced secondary response but exhibited a rapid decay of antibody levels over time. Consistent with these findings, aPIK3CD expression markedly impaired plasma cell generation, and expression of aPIK3CD intrinsically in plasma cells was sufficient to diminish humoral responses. Mechanistically, aPIK3CD disrupted ER proteostasis and autophagy, which led to increased plasma cell death. Notably, this defect was driven primarily by elevated mTORC1 signaling and modulated by treatment with PI3Kδ-specific inhibitors. Our findings establish an essential role for PI3Kδ in plasma cell homeostasis and suggest that modulating PI3Kδ activity may be useful for promoting and/or thwarting specific immune responses., Competing Interests: Disclosures: The authors declare no competing interests exist., (© 2021 Al Qureshah et al.)

Published
2021
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19. A pathogen-like antigen-based vaccine confers immune protection against SARS-CoV-2 in non-human primates.

Author

Guo C, Peng Y, Lin L, Pan X, Fang M, Zhao Y, Bao K, Li R, Han J, Chen J, Song TZ, Feng XL, Zhou Y, Zhao G, Zhang L, Zheng Y, Zhu P, Hang H, Zhang L, Hua Z, Deng H, and Hou B

Subjects
Animals, COVID-19 immunology, COVID-19 prevention & control, COVID-19 Vaccines therapeutic use, Cell Line, Female, Lymphocyte Activation, Macaca mulatta immunology, Male, Mice, SARS-CoV-2 metabolism, Antibodies, Neutralizing, Antibodies, Viral, B-Lymphocytes immunology, COVID-19 Vaccines pharmacology, SARS-CoV-2 immunology, Spike Glycoprotein, Coronavirus immunology
Abstract

Activation of nucleic acid sensing Toll-like receptors (TLRs) in B cells is involved in antiviral responses by promoting B cell activation and germinal center responses. In order to take advantage of this natural pathway for vaccine development, synthetic pathogen-like antigens (PLAs) constructed of multivalent antigens with encapsulated TLR ligands can be used to activate B cell antigen receptors and TLRs in a synergistic manner. Here we report a PLA-based coronavirus disease 2019 (COVID-19) vaccine candidate designed by combining a phage-derived virus-like particle carrying bacterial RNA as TLR ligands with the receptor-binding domain of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) S protein as the target antigen. This PLA-based vaccine candidate induces robust neutralizing antibodies in both mice and non-human primates (NHPs). Using a NHP infection model, we demonstrate that the viral clearance is accelerated in vaccinated animals. In addition, the PLA-based vaccine induces a T helper 1 (Th1)-oriented response and a durable memory, supporting its potential for further clinical development., Competing Interests: B.H. and C.G. are listed as inventors on a patent application for a PLA-based COVID-19 vaccine., (© 2021 The Author(s).)

Published
2021
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20. Homeostatic regulation of T follicular helper and antibody response to particle antigens by IL-1Ra of medullary sinus macrophage origin.

Author

Lin X, Twelkmeyer T, Zhu D, Zhang L, Zhao Y, Zhang C, Iwakura Y, Meng G, Hua Z, Yan B, Liu WJ, Luo Z, Gong S, Chen H, Li S, Hou B, and Tang H

Subjects
Animals, Antibodies immunology, Antibodies, Viral immunology, Antibody Formation immunology, Antigens immunology, B-Lymphocytes immunology, Germinal Center immunology, Hepatitis B Surface Antigens immunology, Hepatitis B Vaccines immunology, Hepatitis B virus genetics, Hepatitis B virus pathogenicity, Humans, Immunity, Humoral immunology, Immunogenicity, Vaccine physiology, Interleukin 1 Receptor Antagonist Protein immunology, Macrophages immunology, Macrophages metabolism, Mice, Receptors, Interleukin-1 antagonists & inhibitors, Receptors, Interleukin-1 immunology, Receptors, Interleukin-1 metabolism, T Follicular Helper Cells immunology, T-Lymphocytes, Helper-Inducer immunology, Vaccination methods, Immunogenicity, Vaccine immunology, Interleukin 1 Receptor Antagonist Protein metabolism, T Follicular Helper Cells metabolism
Abstract

Hepatitis B virus (HBV) vaccines are composed of surface antigen HBsAg that spontaneously assembles into subviral particles. Factors that impede its humoral immunity in 5% to 10% of vaccinees remain elusive. Here, we showed that the low-level interleukin-1 receptor antagonist (IL-1Ra) can predict antibody protection both in mice and humans. Mechanistically, murine IL-1Ra-inhibited T follicular helper (Tfh) cell expansion and subsequent germinal center (GC)-dependent humoral immunity, resulting in significantly weakened protection against the HBV challenge. Compared to soluble antigens, HBsAg particle antigen displayed a unique capture/uptake and innate immune activation, including IL-1Ra expression, preferably of medullary sinus macrophages. In humans, a unique polymorphism in the RelA/p65 binding site of IL-1Ra enhancer associated IL-1Ra levels with ethnicity-dependent vaccination outcome. Therefore, the differential IL-1Ra response to particle antigens probably creates a suppressive milieu for Tfh/GC development, and neutralization of IL-1Ra would resurrect antibody response in HBV vaccine nonresponders., Competing Interests: The authors declare no competing interest.

Published
2021
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21. B Cell-Intrinsic MyD88 Signaling Promotes Initial Cell Proliferation and Differentiation To Enhance the Germinal Center Response to a Virus-like Particle.

Author

Tian M, Hua Z, Hong S, Zhang Z, Liu C, Lin L, Chen J, Zhang W, Zhou X, Zhang F, DeFranco AL, and Hou B

Subjects
Animals, Antibodies, Viral immunology, Cell Differentiation immunology, Cell Proliferation physiology, Female, Immunoglobulin Class Switching immunology, Immunoglobulin G immunology, Interferon-gamma immunology, Lymphocyte Activation immunology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Myeloid Differentiation Factor 88 genetics, Signal Transduction immunology, T-Box Domain Proteins biosynthesis, Viral Structural Proteins immunology, Allolevivirus immunology, B-Lymphocytes immunology, Germinal Center immunology, Myeloid Differentiation Factor 88 immunology, Toll-Like Receptors immunology
Abstract

Although TLR signaling in B cells has been implicated in the germinal center (GC) responses during viral infections and autoimmune diseases, the underlying mechanism is unclear. Bacterial phage Qβ-derived virus-like particle (Qβ-VLP) contains TLR ligands, which can enhance Qβ-VLP-induced Ab response, including GC response, through TLR/MyD88 signaling in B cells. In this study, by examining Ag-specific B cell response to Qβ-VLP, we found that lack of B cell MyD88 from the beginning of the immune response led to a more severe defect in the GC scale than abolishing MyD88 at later time points of the immune response. Consistently, B cell-intrinsic MyD88 signaling significantly enhanced the initial proliferation of Ag-specific B cells, which was accompanied with a dramatic increase of plasma cell generation and induction of Bcl-6 + GC B cell precursors. In addition, B cell-intrinsic MyD88 signaling promoted strong T-bet expression independent of IFN-γ and led to the preferential isotype switching to IgG2a/c. Thus, by promoting the initial Ag-specific B cell proliferation and differentiation, B cell-intrinsic MyD88 signaling enhanced both T-independent and T-dependent Ab responses elicited by Qβ-VLP. This finding will provide additional insight into the role of TLR signaling in antiviral immunity, autoimmune diseases, and vaccine design., (Copyright © 2018 by The American Association of Immunologists, Inc.)

Published
2018
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22. Characterization of T-Dependent and T-Independent B Cell Responses to a Virus-like Particle.

Author

Liao W, Hua Z, Liu C, Lin L, Chen R, and Hou B

Subjects
Animals, Antibodies, Viral immunology, Immunoglobulin G immunology, Immunoglobulin M immunology, Mice, Proto-Oncogene Proteins c-bcl-6 genetics, Proto-Oncogene Proteins c-bcl-6 immunology, Staining and Labeling, Vaccines, Virus-Like Particle administration & dosage, B-Lymphocytes immunology, Immunologic Memory, T-Lymphocytes immunology, Vaccines, Virus-Like Particle immunology
Abstract

Natural pathogens, such as viruses, often induce T-dependent and T-independent Ab responses. However, the activation and differentiation of Ag-specific B cells under these conditions had not been examined in detail. In this study, we used bacterial phage Qβ-derived virus-like particles (Qβ-VLPs) as an immunogen to examine the T-independent and T-dependent phases of the response in mice. Using Qβ-specific cell labeling and enrichment methods developed in this study, we were able to characterize the rare Ag-specific B cells in detail. Surprisingly, we found that Qβ-VLPs could induce Bcl-6 expression in pregerminal center B cells independently of T cell help. In addition, Qβ-VLP-induced T-independent responses could lead to isotype-switched and somatically mutated memory B cells. Finally, in contrast to what has been reported with several other Ags, long-lived IgG + memory cells were induced by Qβ-VLPs, with IgM + memory B cells being produced but only evident for a limited time, suggesting that different types of immunogens may preferentially generate or maintain IgM + versus IgG + memory B cells., (Copyright © 2017 by The American Association of Immunologists, Inc.)

Published
2017
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23. Requirement for MyD88 signaling in B cells and dendritic cells for germinal center anti-nuclear antibody production in Lyn-deficient mice.

Author

Hua Z, Gross AJ, Lamagna C, Ramos-Hernández N, Scapini P, Ji M, Shao H, Lowell CA, Hou B, and DeFranco AL

Subjects
Animals, Antibodies, Antinuclear genetics, Antibodies, Antinuclear immunology, Antigen-Antibody Complex analysis, Disease Models, Animal, Gene Deletion, Humans, Immunoglobulin G genetics, Immunoglobulin G immunology, Intracellular Signaling Peptides and Proteins physiology, Lupus Erythematosus, Systemic, Lupus Nephritis pathology, Lymphocyte Count, Mice, Mice, Inbred C57BL, Mice, Knockout, Myeloid Differentiation Factor 88 deficiency, Myeloid Differentiation Factor 88 genetics, Receptors, Antigen, T-Cell, gamma-delta deficiency, Self Tolerance immunology, Signal Transduction immunology, Signaling Lymphocytic Activation Molecule Associated Protein, Specific Pathogen-Free Organisms, Toll-Like Receptors immunology, Antibodies, Antinuclear biosynthesis, B-Lymphocytes immunology, Dendritic Cells immunology, Germinal Center immunology, Immunoglobulin G biosynthesis, Lupus Nephritis immunology, Myeloid Differentiation Factor 88 physiology, src-Family Kinases deficiency
Abstract

The intracellular tyrosine kinase Lyn mediates inhibitory receptor function in B cells and myeloid cells, and Lyn(-/-) mice spontaneously develop an autoimmune and inflammatory disease that closely resembles human systemic lupus erythematosus. TLR-signaling pathways have been implicated in the production of anti-nuclear Abs in systemic lupus erythematosus and mouse models of it. We used a conditional allele of Myd88 to determine whether the autoimmunity of Lyn(-/-) mice is dependent on TLR/MyD88 signaling in B cells and/or in dendritic cells (DCs). The production of IgG anti-nuclear Abs, as well as the deposition of these Abs in the glomeruli of the kidneys, leading to glomerulonephritis in Lyn(-/-) mice, were completely abolished by selective deletion of Myd88 in B cells, and autoantibody production and glomerulonephritis were delayed or decreased by deletion of Myd88 in DCs. The reduced autoantibody production in mice lacking MyD88 in B cells or DCs was accompanied by a dramatic decrease in the spontaneous germinal center (GC) response, suggesting that autoantibodies in Lyn(-/-) mice may depend on GC responses. Consistent with this view, IgG anti-nuclear Abs were absent if T cells were deleted (TCRβ(-/-) TCRδ(-/-) mice) or if T cells were unable to contribute to GC responses as the result of mutation of the adaptor molecule SAP. Thus, the autoimmunity of Lyn(-/-) mice was dependent on T cells and on TLR/MyD88 signaling in B cells and in DCs, supporting a model in which DC hyperactivity combines with defects in tolerance in B cells to lead to a T cell-dependent systemic autoimmunity in Lyn(-/-) mice.

Published
2014
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24. Genome-wide analysis reveals the vacuolar pH-stat of Saccharomyces cerevisiae.

Author

Brett CL, Kallay L, Hua Z, Green R, Chyou A, Zhang Y, Graham TR, Donowitz M, and Rao R

Subjects
Biological Transport genetics, Genetic Testing, Homeostasis genetics, Humans, Hydrogen-Ion Concentration, Lysosomes metabolism, Mutation genetics, Niemann-Pick Disease, Type C metabolism, Niemann-Pick Disease, Type C pathology, Phospholipids metabolism, Saccharomyces cerevisiae enzymology, Sterols biosynthesis, Transport Vesicles metabolism, Vacuolar Proton-Translocating ATPases metabolism, Vacuoles enzymology, Genome, Fungal genetics, Saccharomyces cerevisiae genetics, Vacuoles genetics
Abstract

Protons, the smallest and most ubiquitous of ions, are central to physiological processes. Transmembrane proton gradients drive ATP synthesis, metabolite transport, receptor recycling and vesicle trafficking, while compartmental pH controls enzyme function. Despite this fundamental importance, the mechanisms underlying pH homeostasis are not entirely accounted for in any organelle or organism. We undertook a genome-wide survey of vacuole pH (pH(v)) in 4,606 single-gene deletion mutants of Saccharomyces cerevisiae under control, acid and alkali stress conditions to reveal the vacuolar pH-stat. Median pH(v) (5.27±0.13) was resistant to acid stress (5.28±0.14) but shifted significantly in response to alkali stress (5.83±0.13). Of 107 mutants that displayed aberrant pH(v) under more than one external pH condition, functional categories of transporters, membrane biogenesis and trafficking machinery were significantly enriched. Phospholipid flippases, encoded by the family of P4-type ATPases, emerged as pH regulators, as did the yeast ortholog of Niemann Pick Type C protein, implicated in sterol trafficking. An independent genetic screen revealed that correction of pH(v) dysregulation in a neo1(ts) mutant restored viability whereas cholesterol accumulation in human NPC1(-/-) fibroblasts diminished upon treatment with a proton ionophore. Furthermore, while it is established that lumenal pH affects trafficking, this study revealed a reciprocal link with many mutants defective in anterograde pathways being hyperacidic and retrograde pathway mutants with alkaline vacuoles. In these and other examples, pH perturbations emerge as a hitherto unrecognized phenotype that may contribute to the cellular basis of disease and offer potential therapeutic intervention through pH modulation.

Published
2011
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25. Vesicular glutamate transporter 1 is required for photoreceptor synaptic signaling but not for intrinsic visual functions.

Author

Johnson J, Fremeau RT Jr, Duncan JL, Rentería RC, Yang H, Hua Z, Liu X, LaVail MM, Edwards RH, and Copenhagen DR

Subjects
Animals, Evoked Potentials, Visual physiology, Mice, Mice, Knockout, Photic Stimulation methods, Protein Isoforms physiology, Rats, Rats, Long-Evans, Retinal Ganglion Cells physiology, Photoreceptor Cells physiology, Signal Transduction physiology, Synapses physiology, Vesicular Glutamate Transport Protein 1 physiology, Vision, Ocular physiology
Abstract

Glutamatergic neurotransmission requires vesicular glutamate transporters (VGLUTs) to sequester glutamate into synaptic vesicles. Generally, VGLUT1 and VGLUT2 isoforms show complementary expression in the CNS and retina. However, little is known about whether isoform-specific expression serves distinct pathways and physiological functions. Here, by examining visual functions in VGLUT1-null mice, we demonstrate that visual signaling from photoreceptors to retinal output neurons requires VGLUT1. However, photoentrainment and pupillary light responses are preserved. We provide evidence that melanopsin-containing, intrinsically photosensitive retinal ganglion cells (RGCs), signaling via VGLUT2 pathways, support these non-image-forming functions. We conclude that VGLUT1 is essential for transmitting visual signals from photoreceptors to second- and third-order neurons, but VGLUT1 is not necessary for intrinsic visual functions. Furthermore, melanopsin and VGLUT2 expression in a subset of RGCs immediately after birth strongly supports the idea that intrinsic vision can function well before rod- and cone-mediated signaling has matured.

Published
2007
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26. Yeast P4-ATPases Drs2p and Dnf1p are essential cargos of the NPFXD/Sla1p endocytic pathway.

Author

Liu K, Hua Z, Nepute JA, and Graham TR

Subjects
ATP-Binding Cassette Transporters, Adenosine Triphosphatases analysis, Adenosine Triphosphatases genetics, Amino Acid Motifs, Amino Acid Sequence, Calcium-Transporting ATPases analysis, Calcium-Transporting ATPases genetics, Carrier Proteins chemistry, Cytoskeletal Proteins metabolism, Endosomes metabolism, Exocytosis, Fungal Proteins genetics, Fungal Proteins metabolism, Golgi Apparatus enzymology, Microfilament Proteins, Molecular Sequence Data, Protein Transport, Saccharomyces cerevisiae enzymology, Saccharomyces cerevisiae Proteins analysis, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins genetics, Ubiquitin metabolism, Adenosine Triphosphatases metabolism, Calcium-Transporting ATPases metabolism, Carrier Proteins metabolism, Endocytosis, Saccharomyces cerevisiae physiology, Saccharomyces cerevisiae Proteins metabolism
Abstract

Drs2p family P-type ATPases (P4-ATPases) are required in multiple vesicle-mediated protein transport steps and are proposed to be phospholipid translocases (flippases). The P4-ATPases Drs2p and Dnf1p cycle between the exocytic and endocytic pathways, and here we define endocytosis signals required by these proteins to maintain a steady-state localization to internal organelles. Internalization of Dnf1p from the plasma membrane uses an NPFXD endocytosis signal and its recognition by Sla1p, part of an endocytic coat/adaptor complex with clathrin, Pan1p, Sla2p/End4p, and End3p. Drs2p has multiple endocytosis signals, including two NPFXDs near the C terminus and PEST-like sequences near the N terminus that may mediate ubiquitin (Ub)-dependent endocytosis. Drs2p localizes to the trans-Golgi network in wild-type cells and accumulates on the plasma membrane when both the Ub- and NPFXD-dependent endocytic mechanisms are inactivated. Surprisingly, the pan1-20 temperature-sensitive mutant is constitutively defective for Ub-dependent endocytosis but is not defective for NPFXD-dependent endocytosis at the permissive growth temperature. To sustain viability of pan1-20, Drs2p must be endocytosed through the NPFXD/Sla1p pathway. Thus, Drs2p is an essential endocytic cargo in cells compromised for Ub-dependent endocytosis. These results demonstrate an essential role for endocytosis in retrieving proteins back to the Golgi, and they define critical cargos of the NPFXD/Sla1p system.

Published
2007
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27. The Arf activator Gea2p and the P-type ATPase Drs2p interact at the Golgi in Saccharomyces cerevisiae.

Author

Chantalat S, Park SK, Hua Z, Liu K, Gobin R, Peyroche A, Rambourg A, Graham TR, and Jackson CL

Subjects
Amino Acid Sequence, Calcium-Transporting ATPases genetics, Golgi Apparatus ultrastructure, Guanine Nucleotide Exchange Factors chemistry, Guanine Nucleotide Exchange Factors genetics, Molecular Sequence Data, Point Mutation genetics, Protein Binding, Protein Structure, Tertiary, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae ultrastructure, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins genetics, Sequence Deletion genetics, Sequence Homology, Amino Acid, Two-Hybrid System Techniques, Calcium-Transporting ATPases metabolism, Golgi Apparatus metabolism, Guanine Nucleotide Exchange Factors metabolism, Saccharomyces cerevisiae cytology, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins metabolism
Abstract

Arf GTPases regulate both the morphological and protein sorting events that are essential for membrane trafficking. Guanine nucleotide exchange factors (GEFs) specific for Arf proteins determine when and where Arf GTPases will be activated in cells. The yeast Gea2p Arf GEF is a member of an evolutionarily conserved family of high molecular mass Arf GEFs that are peripherally associated with membranes. Nothing is known about how these proteins are localized to membranes, and few direct binding partners have been identified. In yeast, Gea2p has been implicated in trafficking through the Golgi apparatus and in maintaining Golgi structure. A major function of the Golgi apparatus is the packaging of cargo into secretory granules or vesicles. This process occurs through a series of membrane transformation events starting with fenestration of a saccular membrane, and subsequent remodeling of the fenestrated membrane into a mesh-like tubular network. Concentration of secretory cargo into nodes of the tubular network leads to enlargement of the nodes, which correspond to forming vesicles/granules, and thinning of the surrounding tubules. The tubules eventually break to release the secretory vesicles/granules into the cytoplasm. This process is highly conserved at the morphological level from yeast to mammalian cells. Drs2p, a multi-span transmembrane domain protein and putative aminophospholipid translocase, is required for the formation of a class of secretory granules/vesicles in yeast. Here we show that Drs2p interacts directly with Gea2p, both in vitro and in vivo. We mapped the domain of interaction of Drs2p to a 20-amino-acid region of the C-terminal cytoplasmic tail of the protein, adjacent to a region essential for Drs2p function. Mutations in Gea2p that abolish interaction with Drs2p are clustered in the C-terminal third of the Sec7 domain, and are important for Gea2p function. We characterize one such mutant that has a thermosensitive phenotype, and show that it has morphological defects along the secretory pathway in the formation of secretory granules/vesicles.

Published
2004
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28. Requirement for neo1p in retrograde transport from the Golgi complex to the endoplasmic reticulum.

Author

Hua Z and Graham TR

Subjects
Adenosine Triphosphatases, Amino Acid Sequence, COP-Coated Vesicles metabolism, COP-Coated Vesicles physiology, Cell Membrane Structures metabolism, Cloning, Molecular, Endoplasmic Reticulum physiology, Golgi Apparatus physiology, Membrane Proteins genetics, Membrane Proteins physiology, Membrane Transport Proteins, Microscopy, Electron, Models, Molecular, Molecular Sequence Data, Phospholipid Transfer Proteins, Protein Transport, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae physiology, Saccharomyces cerevisiae Proteins, Vacuoles metabolism, Vacuoles physiology, Endoplasmic Reticulum metabolism, Glycosylation, Golgi Apparatus metabolism, Membrane Proteins metabolism, Saccharomyces cerevisiae metabolism
Abstract

Neo1p from Saccharomyces cerevisiae is an essential P-type ATPase and potential aminophospholipid translocase (flippase) in the Drs2p family. We have previously implicated Drs2p in protein transport steps in the late secretory pathway requiring ADP-ribosylation factor (ARF) and clathrin. Here, we present evidence that epitope-tagged Neo1p localizes to the endoplasmic reticulum (ER) and Golgi complex and is required for a retrograde transport pathway between these organelles. Using conditional alleles of NEO1, we find that loss of Neo1p function causes cargo-specific defects in anterograde protein transport early in the secretory pathway and perturbs glycosylation in the Golgi complex. Rer1-GFP, a protein that cycles between the ER and Golgi complex in COPI and COPII vesicles, is mislocalized to the vacuole in neo1-ts at the nonpermissive temperature. These phenotypes suggest that the anterograde protein transport defect is a secondary consequence of a defect in a COPI-dependent retrograde pathway. We propose that loss of lipid asymmetry in the cis Golgi perturbs retrograde protein transport to the ER.

Published
2003
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29. An essential subfamily of Drs2p-related P-type ATPases is required for protein trafficking between Golgi complex and endosomal/vacuolar system.

Author

Hua Z, Fatheddin P, and Graham TR

Subjects
Adenosine Triphosphatases metabolism, Alkaline Phosphatase metabolism, Alleles, Biological Transport, Calcium-Transporting ATPases chemistry, Calcium-Transporting ATPases physiology, Carboxypeptidases metabolism, Cathepsin A, Glycoside Hydrolases metabolism, Green Fluorescent Proteins, Luminescent Proteins metabolism, Membrane Proteins metabolism, Models, Biological, Mutation, Open Reading Frames, Phenotype, Plasmids metabolism, Precipitin Tests, Protein Transport, R-SNARE Proteins, Saccharomyces cerevisiae Proteins metabolism, Signal Transduction, Temperature, Time Factors, Vacuoles metabolism, beta-Fructofuranosidase, trans-Golgi Network metabolism, Adenosine Triphosphatases chemistry, Calcium-Transporting ATPases metabolism, Endosomes metabolism, Golgi Apparatus metabolism
Abstract

The Saccharomyces cerevisiae genome contains five genes encoding P-type ATPases that are potential aminophospholipid translocases (APTs): DRS2, NEO1, and three uncharacterized open reading frames that we have named DNF1, DNF2, and DNF3 for DRS2/NEO1 family. NEO1 is the only essential gene in APT family and seems to be functionally distinct from the DRS2/DNF genes. The drs2Delta dnf1Delta dnf2Delta dnf3Delta quadruple mutant is inviable, although any one member of this group can maintain viability, indicating that there is a substantial functional overlap between the encoded proteins. We have previously implicated Drs2p in clathrin function at the trans-Golgi network. In this study, we constructed strains carrying all possible viable combinations of null alleles from this group and analyzed them for defects in protein transport. The drs2Delta dnf1Delta mutant grows slowly, massively accumulates intracellular membranes, and exhibits a substantial defect in the transport of alkaline phosphatase to the vacuole. Transport of carboxypeptidase Y to the vacuole is also perturbed, but to a lesser extent. In addition, the dnf1Delta dnf2Delta dnf3Delta mutant exhibits a defect in recycling of GFP-Snc1p in the early endocytic-late secretory pathways. Drs2p and Dnf3p colocalize with the trans-Golgi network marker Kex2p, whereas Dnf1p and Dnf2p seem to localize to the plasma membrane and late exocytic or early endocytic membranes. We propose that eukaryotes express multiple APT subfamily members to facilitate protein transport in multiple pathways.

Published
2002
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