RUN and FYVE domain–containing protein 4 enhances autophagy and lysosome tethering in response to Interleukin-4
暂无分享,去创建一个
Manuel A. S. Santos | T. Wenger | J. Gorvel | M. Desjardins | P. Pierre | C. Rodríguez Rodrígues | E. Gatti | Luc English | Thien-Phong Vu Manh | M. Fallet | C. Rondeau | A. Papadopoulos | Voahirana Camosseto | Tobias Weil | S. Terawaki | A. Combes | R. Santamaría | A. R. Soares | F. Prete | H. Hammad | Christiane Rondeau | Manuel A. S. Santos
[1] N. Mizushima,et al. Ultrastructural analysis of autophagosome organization using mammalian autophagy-deficient cells , 2014, Journal of Cell Science.
[2] F. Ginhoux,et al. Monocytes and macrophages: developmental pathways and tissue homeostasis , 2014, Nature Reviews Immunology.
[3] Shuzhao Li,et al. Vaccine Activation of the Nutrient Sensor GCN2 in Dendritic Cells Enhances Antigen Presentation , 2014, Science.
[4] Shizuo Akira,et al. Autophagy in infection, inflammation and immunity , 2013, Nature Reviews Immunology.
[5] T. Yoshimori,et al. Up-to-date membrane biogenesis in the autophagosome formation. , 2013, Current opinion in cell biology.
[6] K. Murphy,et al. Specificity through cooperation: BATF–IRF interactions control immune-regulatory networks , 2013, Nature Reviews Immunology.
[7] G. Juhász,et al. Autophagosomal Syntaxin17-dependent lysosomal degradation maintains neuronal function in Drosophila , 2013, The Journal of cell biology.
[8] Mauro Piacentini,et al. mTOR inhibits autophagy by controlling ULK1 ubiquitylation, self-association and function through AMBRA1 and TRAF6 , 2013, Nature Cell Biology.
[9] R. Locksley,et al. Interleukin-4- and interleukin-13-mediated alternatively activated macrophages: roles in homeostasis and disease. , 2013, Annual review of immunology.
[10] Yasushi Hiraoka,et al. Autophagosomes form at ER–mitochondria contact sites , 2013, Nature.
[11] S. Gordon,et al. Genetic programs expressed in resting and IL-4 alternatively activated mouse and human macrophages: similarities and differences. , 2013, Blood.
[12] H. Hammad,et al. Conventional and monocyte-derived CD11b(+) dendritic cells initiate and maintain T helper 2 cell-mediated immunity to house dust mite allergen. , 2013, Immunity.
[13] N. Mizushima,et al. The Hairpin-type Tail-Anchored SNARE Syntaxin 17 Targets to Autophagosomes for Fusion with Endosomes/Lysosomes , 2012, Cell.
[14] P. van der Sluijs,et al. AP-3 and Rabip4’ Coordinately Regulate Spatial Distribution of Lysosomes , 2012, PloS one.
[15] Amin R. Mazloom,et al. Gene-expression profiles and transcriptional regulatory pathways that underlie the identity and diversity of mouse tissue macrophages , 2012, Nature Immunology.
[16] Rodrigo Santamaría,et al. Voronto: mapper for expression data to ontologies , 2012, Bioinform..
[17] Robert Clarke,et al. Guidelines for the use and interpretation of assays for monitoring autophagy , 2012 .
[18] Nadia Catalan,et al. Autophagy inhibition promotes defective neosynthesized proteins storage in ALIS, and induces redirection toward proteasome processing and MHCI-restricted presentation , 2012, Autophagy.
[19] C. Münz. Antigen Processing for MHC Class II Presentation via Autophagy , 2012, Front. Immun..
[20] N. Nukina,et al. Serine 403 phosphorylation of p62/SQSTM1 regulates selective autophagic clearance of ubiquitinated proteins. , 2011, Molecular cell.
[21] T. Lamark,et al. Selective autophagy mediated by autophagic adapter proteins , 2011, Autophagy.
[22] B. Viollet,et al. AMPK and mTOR regulate autophagy through direct phosphorylation of Ulk1 , 2011, Nature Cell Biology.
[23] H. Virgin,et al. Autophagy in immunity and inflammation , 2011, Nature.
[24] S. Srinivasula,et al. Nrf2-mediated induction of p62 controls Toll-like receptor-4–driven aggresome-like induced structure formation and autophagic degradation , 2011, Proceedings of the National Academy of Sciences.
[25] T. Noda,et al. Rubicon and PLEKHM1 Negatively Regulate the Endocytic/Autophagic Pathway via a Novel Rab7-binding Domain , 2010, Molecular biology of the cell.
[26] D. Rigden,et al. Mammalian Atg18 (WIPI2) localizes to omegasome-anchored phagophores and positively regulates LC3 lipidation , 2010, Autophagy.
[27] G. Morgan,et al. Putative GTPase GIMAP1 is critical for the development of mature B and T lymphocytes. , 2010, Blood.
[28] N. Mizushima,et al. The role of the Atg1/ULK1 complex in autophagy regulation. , 2010, Current opinion in cell biology.
[29] S. Grinstein,et al. In vivo requirement for Atg5 in antigen presentation by dendritic cells. , 2010, Immunity.
[30] Markus G. Manz,et al. Development of Monocytes, Macrophages, and Dendritic Cells , 2010, Science.
[31] G. Bjørkøy,et al. FYCO1 is a Rab7 effector that binds to LC3 and PI3P to mediate microtubule plus end–directed vesicle transport , 2010, The Journal of cell biology.
[32] T. Noda,et al. Binding Rubicon to cross the Rubicon , 2009, Autophagy.
[33] Philippe Pierre,et al. SUnSET, a nonradioactive method to monitor protein synthesis , 2009, Nature Methods.
[34] A. Iwasaki,et al. Absence of autophagy results in reactive oxygen species-dependent amplification of RLR signaling , 2009, Proceedings of the National Academy of Sciences.
[35] W. Paul,et al. Type I IL-4Rs Selectively Activate IRS-2 to Induce Target Gene Expression in Macrophages , 2008, Science Signaling.
[36] Shizuo Akira,et al. Toll‐like Receptor and RIG‐1‐like Receptor Signaling , 2008, Annals of the New York Academy of Sciences.
[37] G. Hämmerling,et al. A novel CD11c.DTR transgenic mouse for depletion of dendritic cells reveals their requirement for homeostatic proliferation of natural killer cells , 2008, European journal of immunology.
[38] V. Deretic,et al. Toll‐like receptors control autophagy , 2008, The EMBO journal.
[39] R. Ugalde,et al. Brucella Control of Dendritic Cell Maturation Is Dependent on the TIR-Containing Protein Btp1 , 2008, PLoS pathogens.
[40] M. Ceppi,et al. Regulation of translation is required for dendritic cell function and survival during activation , 2007, The Journal of cell biology.
[41] J. Keane,et al. T helper 2 cytokines inhibit autophagic control of intracellular Mycobacterium tuberculosis. , 2007, Immunity.
[42] M. Pypaert,et al. Antigen-loading compartments for major histocompatibility complex class II molecules continuously receive input from autophagosomes. , 2007, Immunity.
[43] J. Rothman,et al. Autophagy-mediated clearance of huntingtin aggregates triggered by the insulin-signaling pathway , 2006, The Journal of cell biology.
[44] F. Farzaneh,et al. Influence of Interleukin‐4 on the Phenotype and Function of Bone Marrow‐Derived Murine Dendritic Cells Generated Under Serum‐Free Conditions , 2005, Scandinavian journal of immunology.
[45] Harald Stenmark,et al. Alfy, a novel FYVE-domain-containing protein associated with protein granules and autophagic membranes , 2004, Journal of Cell Science.
[46] A. Yamamoto,et al. LC3, GABARAP and GATE16 localize to autophagosomal membrane depending on form-II formation , 2004, Journal of Cell Science.
[47] D. Marguet,et al. Dendritic cell aggresome-like induced structures are dedicated areas for ubiquitination and storage of newly synthesized defective proteins , 2004, The Journal of cell biology.
[48] H. Stenmark,et al. Protein targeting to endosomes and phagosomes via FYVE and PX domains. , 2004, Current topics in microbiology and immunology.
[49] A. Wandinger-Ness,et al. Human VPS34 and p150 are Rab7 Interacting Partners , 2003, Traffic.
[50] A. Rudensky,et al. Lysosomal cysteine proteases regulate antigen presentation , 2003, Nature Reviews Immunology.
[51] P. Pierre,et al. Transient aggregation of ubiquitinated proteins during dendritic cell maturation , 2002, Nature.
[52] B. Goud,et al. RUN domains: a new family of domains involved in Ras-like GTPase signaling. , 2001, Trends in biochemical sciences.
[53] J. Yewdell,et al. Localization, quantitation, and in situ detection of specific peptide-MHC class I complexes using a monoclonal antibody. , 1997, Immunity.
[54] Liangji Zhou,et al. CD14+ blood monocytes can differentiate into functionally mature CD83+ dendritic cells. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[55] P. Sperryn,et al. Blood. , 1989, British journal of sports medicine.