Microfold (M) cells: important immunosurveillance posts in the intestinal epithelium
暂无分享,去创建一个
N A Mabbott | I. Williams | D. S. Donaldson | N. Mabbott | H. Ohno | A. Mahajan | D S Donaldson | H Ohno | I R Williams | A Mahajan
[1] A. Chervonsky,et al. Lymphotoxin and TNF Produced by B Cells Are Dispensable for Maintenance of the Follicle-Associated Epithelium but Are Required for Development of Lymphoid Follicles in the Peyer’s Patches 12 , 2004, The Journal of Immunology.
[2] R Mehr,et al. Effects of age on antibody affinity maturation. , 2003, Biochemical Society transactions.
[3] A. Schmidtchen,et al. A novel role for constitutively expressed epithelial-derived chemokines as antibacterial peptides in the intestinal mucosa , 2010, Mucosal Immunology.
[4] H. Kiyono,et al. Localization of fatty acid binding protein of epidermal type common to dendritic cells and presumptive macrophages in Peyer’s patches and epithelial M cells of mouse intestine , 2009, Histochemistry and Cell Biology.
[5] S. Falkow,et al. Salmonella typhimurium initiates murine infection by penetrating and destroying the specialized epithelial M cells of the Peyer's patches , 1994, The Journal of experimental medicine.
[6] M. Taussig,et al. Rapid appearance of M cells after microbial challenge is restricted at the periphery of the follicle-associated epithelium of Peyer's patch. , 1999, Laboratory investigation; a journal of technical methods and pathology.
[7] K. Hase,et al. CCR 6 hiCD 11 cint B cells promote M-cell differentiation in Peyer ’ s patch , 2011 .
[8] J. Pak,et al. Tamm-Horsfall Protein Binds to Type 1 Fimbriated Escherichia coli and Prevents E. coli from Binding to Uroplakin Ia and Ib Receptors* , 2001, The Journal of Biological Chemistry.
[9] S. Fukuyama,et al. A novel M cell–specific carbohydrate-targeted mucosal vaccine effectively induces antigen-specific immune responses , 2007, The Journal of experimental medicine.
[10] I. Williams,et al. CCR6hiCD11c(int) B cells promote M-cell differentiation in Peyer's patch. , 2011, International immunology.
[11] S. Lira,et al. Luminal bacteria recruit CD103+ dendritic cells into the intestinal epithelium to sample bacterial antigens for presentation. , 2013, Immunity.
[12] J. Mcghee,et al. Ovalbumin-protein sigma 1 M-cell targeting facilitates oral tolerance with reduction of antigen-specific CD4+ T cells. , 2008, Gastroenterology.
[13] J. Mecsas,et al. Effect of age on susceptibility to Salmonella Typhimurium infection in C57BL/6 mice. , 2009, Journal of medical microbiology.
[14] R. Newberry,et al. Aging impacts isolated lymphoid follicle development and function , 2011, Immunity & Ageing.
[15] N. Mantis,et al. Secretory IgA's complex roles in immunity and mucosal homeostasis in the gut , 2011, Mucosal Immunology.
[16] A. Iwasaki,et al. CCL9 Is Secreted by the Follicle-Associated Epithelium and Recruits Dome Region Peyer’s Patch CD11b+ Dendritic Cells 1 , 2003, The Journal of Immunology.
[17] J. Berman,et al. Tunneling nanotubes (TNT) are induced by HIV-infection of macrophages: a potential mechanism for intercellular HIV trafficking. , 2009, Cellular immunology.
[18] S. Koyasu,et al. Listerial invasion protein internalin B promotes entry into ileal Peyer's patches in vivo , 2011, Microbiology and immunology.
[19] T. Dörner. Organogenic role of B lymphocytes in mucosal immunity , 2000 .
[20] N. Walters,et al. M cell-targeted DNA vaccination , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[21] J. Mcghee,et al. Evidence For Early Aging in the Mucosal Immune System1 , 2000, The Journal of Immunology.
[22] T. Ketas,et al. HIV-1 evades virus-specific IgG2 and IgA class switching by targeting systemic and intestinal B cells via long-range intercellular conduits , 2009, Nature Immunology.
[23] S. Youssef,et al. Differential Regulation of Chemokines by IL-17 in Colonic Epithelial Cells1 , 2008, The Journal of Immunology.
[24] Allon M Klein,et al. Intestinal Stem Cell Replacement Follows a Pattern of Neutral Drift , 2010, Science.
[25] D. Rubin,et al. Intestinal M cells: a pathway for entry of reovirus into the host. , 1981, Science.
[26] H. Kitagawa,et al. Immunohistochemical study on the delayed progression of epithelial apoptosis in follicle-associated epithelium of rat Peyer's patch. , 2007, The Journal of veterinary medical science.
[27] J. Haas,et al. Salmonella transforms follicle-associated epithelial cells into M cells to promote intestinal invasion. , 2012, Cell host & microbe.
[28] R. Lorenz,et al. Isolated Lymphoid Follicles Can Function as Sites for Induction of Mucosal Immune Responses , 2004, Annals of the New York Academy of Sciences.
[29] P. Ricciardi-Castagnoli,et al. Dendritic cells express tight junction proteins and penetrate gut epithelial monolayers to sample bacteria , 2001, Nature Immunology.
[30] B. Corthésy,et al. Secretory IgA Mediates Bacterial Translocation to Dendritic Cells in Mouse Peyer’s Patches with Restriction to Mucosal Compartment1 , 2007, The Journal of Immunology.
[31] J. Mcghee,et al. Mucosal immunity and tolerance in the elderly , 2004, Mechanisms of Ageing and Development.
[32] Nicolas Chenouard,et al. Prions hijack tunnelling nanotubes for intercellular spread , 2009, Nature Cell Biology.
[33] J. Sirard,et al. Flagellin stimulation of intestinal epithelial cells triggers CCL20-mediated migration of dendritic cells , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[34] Katsuaki Sato,et al. Spi-B is critical for plasmacytoid dendritic cell function and development. , 2012, Blood.
[35] J. Vandesompele,et al. Murine M cells express annexin V specifically , 2006, The Journal of pathology.
[36] P. Kujala,et al. Clusterin in human gut-associated lymphoid tissue, tonsils, and adenoids: localization to M cells and follicular dendritic cells , 2008, Histochemistry and Cell Biology.
[37] S. Yonehara,et al. The Membrane-Bound Chemokine CXCL16 Expressed on Follicle-Associated Epithelium and M Cells Mediates Lympho-Epithelial Interaction in GALT1 , 2006, The Journal of Immunology.
[38] Tom C Freeman,et al. Meta-analysis of lineage-specific gene expression signatures in mouse leukocyte populations. , 2010, Immunobiology.
[39] D. Hume,et al. Defining anatomical localisation and subsets of the murine mononuclear phagocyte system using integrin alpha X (ITGAX/CD11c) and colony stimulating factor 1 receptor (CSF1-R/CD115) expression fails to discriminate macrophages from dendritic cells , 2011 .
[40] David J Brayden,et al. Cell culture modeling of specialized tissue: identification of genes expressed specifically by follicle-associated epithelium of Peyer's patch by expression profiling of Caco-2/Raji co-cultures. , 2004, International Immunology.
[41] F. Huang,et al. A Discrete Subpopulation of Dendritic Cells Transports Apoptotic Intestinal Epithelial Cells to T Cell Areas of Mesenteric Lymph Nodes , 2000, The Journal of experimental medicine.
[42] D. Hume,et al. Can DCs be distinguished from macrophages by molecular signatures? , 2013, Nature Immunology.
[43] K. Fukuzaki,et al. Targeted Delivery of Immunogen to Primate M Cells with Tetragalloyl Lysine Dendrimer1 , 2009, The Journal of Immunology.
[44] Rodney D. Newberry,et al. Goblet cells deliver luminal antigen to CD103+ DCs in the small intestine , 2012, Nature.
[45] T. Kaisho,et al. The Ets Transcription Factor Spi-B Is Essential for the Differentiation of Intestinal Microfold (M) Cells , 2012, Nature Immunology.
[46] Henry C. Chang,et al. Differential Lysosomal Proteolysis in Antigen-Presenting Cells Determines Antigen Fate , 2005, Science.
[47] M. Taussig,et al. Up-regulation of Microsphere Transport across the Follicle-associated Epithelium of Peyer's Patch by Exposure to Streptococcus Pneumoniae R36a , 2022 .
[48] K. Haruma,et al. The role of M cells of human nasopharyngeal lymphoid tissue in influenza virus sampling , 2004, Virchows Archiv.
[49] S. Fukuyama,et al. The Airway Antigen Sampling System: Respiratory M Cells as an Alternative Gateway for Inhaled Antigens , 2011, The Journal of Immunology.
[50] P. Sutton,et al. Targeting of whole killed bacteria to gastrointestinal M-cells induces humoral immunity in the female reproductive tract , 2010, Gut microbes.
[51] M. Rumbo,et al. Lymphotoxin beta receptor signaling induces the chemokine CCL20 in intestinal epithelium. , 2004, Gastroenterology.
[52] K. Fukuzaki,et al. Nonhuman primate intestinal villous M-like cells: an effective poliovirus entry site. , 2008, Biochemical and biophysical research communications.
[53] H. Herbst,et al. Resistance of chemokine receptor 6-deficient mice to Yersinia enterocolitica infection: evidence of defective M-cell formation in vivo. , 2008, The American journal of pathology.
[54] J. Fantini,et al. Selective transport of staphylococcal enterotoxin A through in vitro generated human M cells. , 2007, Microbes and infection.
[55] D. Lo,et al. Jagged1 and Notch1 help edit M cell patterning in Peyer's patch follicle epithelium. , 2012, Developmental and comparative immunology.
[56] D. Lo,et al. Convergent and Divergent Development among M Cell Lineages in Mouse Mucosal Epithelium , 2011, The Journal of Immunology.
[57] K. Katagiri,et al. Organizer-Like Reticular Stromal Cell Layer Common to Adult Secondary Lymphoid Organs1 , 2008, The Journal of Immunology.
[58] C. Reutelingsperger,et al. Cell Surface-expressed Phosphatidylserine and Annexin A5 Open a Novel Portal of Cell Entry* , 2004, Journal of Biological Chemistry.
[59] H. Kiyono,et al. Comprehensive Gene Expression Profiling of Peyer’s Patch M Cells, Villous M-Like Cells, and Intestinal Epithelial Cells1 , 2008, The Journal of Immunology.
[60] Hugues Lelouard,et al. Peyer's patch dendritic cells sample antigens by extending dendrites through M cell-specific transcellular pores. , 2012, Gastroenterology.
[61] F. Spertini,et al. Targeting of Secretory IgA to Peyer’s Patch Dendritic and T Cells after Transport by Intestinal M Cells1 , 2004, The Journal of Immunology.
[62] D. Pascual,et al. Transgene vaccination using Ulex europaeus agglutinin I (UEA-1) for targeted mucosal immunization against HIV-1 envelope. , 2005, Vaccine.
[63] Shunsuke Kimura,et al. Uptake through glycoprotein 2 of FimH+ bacteria by M cells initiates mucosal immune response , 2009, Nature.
[64] A. Iwasaki,et al. Localization of Distinct Peyer's Patch Dendritic Cell Subsets and Their Recruitment by Chemokines Macrophage Inflammatory Protein (Mip)-3α, Mip-3β, and Secondary Lymphoid Organ Chemokine , 2000, The Journal of experimental medicine.
[65] A. Pombo,et al. Dendritic cells interact directly with naive B lymphocytes to transfer antigen and initiate class switching in a primary T-dependent response. , 1998, Journal of immunology.
[66] M. Rumbo,et al. TOLL-LIKE RECEPTOR 5-AND LYMPHOTOXIN RECEPTOR-DEPENDENT EPITHELIAL CCL 20 EXPRESSION INVOLVES THE SAME NF-B BINDING SITE BUT DISTINCT NF-B PATHWAYS AND DYNAMICS , 2009 .
[67] Kyung‐Yeol Lee,et al. The M Cell-Targeting Ligand Promotes Antigen Delivery and Induces Antigen-Specific Immune Responses in Mucosal Vaccination , 2010, The Journal of Immunology.
[68] A. Trouvin,et al. Receptor activator of nuclear factor-κB ligand and osteoprotegerin: maintaining the balance to prevent bone loss , 2010, Clinical interventions in aging.
[69] T. Leanderson,et al. Lack of J chain inhibits the transport of gut IgA and abrogates the development of intestinal antitoxic protection. , 1999, Journal of immunology.
[70] M. Cooper,et al. New Approach for M-Cell-Specific Molecules Screening by Comprehensive Transcriptome Analysis , 2009, DNA research : an international journal for rapid publication of reports on genes and genomes.
[71] P. Sutton,et al. M-Cell Targeting of Whole Killed Bacteria Induces Protective Immunity against Gastrointestinal Pathogens , 2009, Infection and Immunity.
[72] R. Owen,et al. Basis for the Age-related Decline in Intestinal Mucosal Immunity , 2003, Clinical & developmental immunology.
[73] W. de Lau,et al. Peyer's Patch M Cells Derived from Lgr5+ Stem Cells Require SpiB and Are Induced by RankL in Cultured “Miniguts” , 2012, Molecular and Cellular Biology.
[74] D. Lo,et al. M cell targeting by a Claudin 4 targeting peptide can enhance mucosal IgA responses , 2012, BMC Biotechnology.
[75] I. Williams,et al. Lymphotoxin-Independent Expression of TNF-Related Activation-Induced Cytokine by Stromal Cells in Cryptopatches, Isolated Lymphoid Follicles, and Peyer’s Patches1 , 2007, The Journal of Immunology.
[76] S. Prusiner,et al. Prion Uptake in the Gut: Identification of the First Uptake and Replication Sites , 2011, PLoS pathogens.
[77] T. Freeman,et al. Identification of Novel Genes Selectively Expressed in the Follicle-Associated Epithelium from the Meta-Analysis of Transcriptomics Data from Multiple Mouse Cell and Tissue Populations , 2012, DNA research : an international journal for rapid publication of reports on genes and genomes.
[78] H. Kiyono,et al. RANKL Is Necessary and Sufficient to Initiate Development of Antigen-Sampling M Cells in the Intestinal Epithelium1 , 2009, The Journal of Immunology.
[79] A. Nakane,et al. Mouse Peptidoglycan Recognition Protein PGLYRP-1 Plays a Role in the Host Innate Immune Response against Listeria monocytogenes Infection , 2010, Infection and Immunity.
[80] A. Macpherson,et al. Induction of Protective IgA by Intestinal Dendritic Cells Carrying Commensal Bacteria , 2004, Science.
[81] M. López‐Fraga,et al. TNFR and LTbetaR agonists induce follicle-associated epithelium and M cell specific genes in rat and human intestinal epithelial cells. , 2009, Cytokine.
[82] B. Kwon,et al. CD137 is required for M cell functional maturation but not lineage commitment. , 2010, The American journal of pathology.
[83] J. Kraehenbuhl,et al. Conversion by Peyer's patch lymphocytes of human enterocytes into M cells that transport bacteria. , 1997, Science.
[84] R. Paranjape,et al. Enhanced mucosal and systemic immune response with intranasal immunization of mice with HIV peptides entrapped in PLG microparticles in combination with Ulex Europaeus-I lectin as M cell target. , 2005, Vaccine.
[85] M. Neutra,et al. Role of Immunoglobulin A in Protection against Reovirus Entry into Murine Peyer's Patches , 2001, Journal of Virology.
[86] P. Sansonetti,et al. Secretory IgA-Mediated Neutralization of Shigella flexneri Prevents Intestinal Tissue Destruction by Down-Regulating Inflammatory Circuits1 , 2009, The Journal of Immunology.
[87] J. Rand,et al. Annexin A5 Binds to Lipopolysaccharide and Reduces Its Endotoxin Activity , 2012, mBio.
[88] H. Kiyono,et al. Transcription factor Spi-B–dependent and –independent pathways for the development of Peyer’s patch M cells , 2012, Mucosal Immunology.
[89] O. Yoshie,et al. CC Chemokine Ligands 25 and 28 Play Essential Roles in Intestinal Extravasation of IgA Antibody-Secreting Cells1 , 2004, The Journal of Immunology.
[90] Hans Clevers,et al. Intestinal Crypt Homeostasis Results from Neutral Competition between Symmetrically Dividing Lgr5 Stem Cells , 2010, Cell.
[91] I. Williams,et al. M cell-depletion blocks oral prion disease pathogenesis , 2012, Mucosal Immunology.
[92] D. Lo,et al. Claudin 4-targeted protein incorporated into PLGA nanoparticles can mediate M cell targeted delivery. , 2010, Journal of controlled release : official journal of the Controlled Release Society.
[93] S. Kimura,et al. M-Sec promotes membrane nanotube formation by interacting with Ral and the exocyst complex , 2009, Nature Cell Biology.
[94] O. Kallioniemi,et al. c-Jun N-Terminal Kinase Phosphorylation of MARCKSL1 Determines Actin Stability and Migration in Neurons and in Cancer Cells , 2012, Molecular and Cellular Biology.
[95] P. Scully,et al. Differential intestinal M‐cell gene expression response to gut commensals , 2012, Immunology.
[96] P. James,et al. Salmonella-induced M-cell formation in germ-free mouse Peyer's patch tissue. , 1991, The American journal of pathology.
[97] J. Mcghee,et al. Lack of oral tolerance in aging is due to sequential loss of Peyer's patch cell interactions. , 2003, International immunology.
[98] H. Clevers,et al. Single Lgr5 stem cells build cryptvillus structures in vitro without a mesenchymal niche , 2009, Nature.
[99] K. Kawano,et al. Distinct gene expression profiles characterize cellular phenotypes of follicle-associated epithelium and M cells. , 2005, DNA research : an international journal for rapid publication of reports on genes and genomes.
[100] L. Bermudez,et al. Peyer's Patch-Deficient Mice Demonstrate That Mycobacterium avium subsp. paratuberculosis Translocates across the Mucosal Barrier via both M Cells and Enterocytes but Has Inefficient Dissemination , 2010, Infection and Immunity.
[101] R. Clynes,et al. Cell surface recycling of internalized antigen permits dendritic cell priming of B cells. , 2005, Immunity.
[102] A. Iwasaki,et al. CCL9 Is Secreted by the Follicle-Associated Epithelium and Recruits Dome Region Peyer’s Patch CD11b+ Dendritic Cells , 2004, The Journal of Immunology.
[103] Steffen Jung,et al. Transepithelial Pathogen Uptake into the Small Intestinal Lamina Propria1 , 2006, The Journal of Immunology.
[104] H. Kiyono,et al. M cells expressing the complement C5a receptor are efficient targets for mucosal vaccine delivery , 2011, European journal of immunology.
[105] J. Mekalanos,et al. Monoclonal secretory immunoglobulin A protects mice against oral challenge with the invasive pathogen Salmonella typhimurium , 1992, Infection and immunity.
[106] W. Haseltine,et al. Transepithelial transport of HIV-1 by intestinal M cells: a mechanism for transmission of AIDS. , 1991, Journal of acquired immune deficiency syndromes.
[107] J. Mcghee,et al. Low-Dose Tolerance Is Mediated by the Microfold Cell Ligand, Reovirus Protein σ11 , 2008, The Journal of Immunology.
[108] M. Taussig,et al. Macrophage Migration Inhibitory Factor Plays a Role in the Regulation of Microfold (M) Cell-Mediated Transport in the Gut1 , 2008, The Journal of Immunology.
[109] I. Williams,et al. Distinct developmental requirements for isolated lymphoid follicle formation in the small and large intestine: RANKL is essential only in the small intestine. , 2011, The American journal of pathology.
[110] K. Brown,et al. The Effects of Host Age on Follicular Dendritic Cell Status Dramatically Impair Scrapie Agent Neuroinvasion in Aged Mice1 , 2009, The Journal of Immunology.
[111] I. Williams,et al. The functional maturation of M cells is dramatically reduced in the Peyer's patches of aged mice , 2013, Mucosal Immunology.
[112] D. Tenen,et al. Defective B cell receptor‐mediated responses in mice lacking the Ets protein, Spi‐B , 1997, The EMBO journal.
[113] H. Greenberg,et al. CCR6 mediates dendritic cell localization, lymphocyte homeostasis, and immune responses in mucosal tissue. , 2000, Immunity.
[114] S. Vyas,et al. Investigation of lectinized liposomes as M-cell targeted carrier-adjuvant for mucosal immunization. , 2011, Colloids and surfaces. B, Biointerfaces.
[115] D. Hume,et al. Defining the anatomical localisation of subsets of the murine mononuclear phagocyte system using integrin alpha X (Itgax, CD11c) and colony stimulating factor 1 receptor (Csf1r, CD115) expression fails to discriminate dendritic cells from macrophages. , 2011, Immunobiology.
[116] C. Sasakawa,et al. Intestinal villous M cells: an antigen entry site in the mucosal epithelium. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[117] J. Sirard,et al. Toll-like receptor 5- and lymphotoxin beta receptor-dependent epithelial Ccl20 expression involves the same NF-kappaB binding site but distinct NF-kappaB pathways and dynamics. , 2009, Biochimica et biophysica acta.
[118] Duraisamy Ponnusamy,et al. Mycobacterium avium subsp. paratuberculosis invades through M cells and enterocytes across ileal and jejunal mucosa of lambs. , 2013, Research in veterinary science.