Pinocytosis by epithelium associated with lymphoid follicles in the bursa of fabricius, appendix, and Peyer's patches. An electron microscopic study, Am J Anat, vol.136, pp.455-477, 1973. ,
Epithelial M cells: Gateways for mucosal infection and immunization, Cell, vol.86, pp.80106-80109, 1996. ,
Acute inflammation causes epithelial invasion and mucosal destruction in experimental shigellosis, J Exp Med, vol.180, pp.1307-1319, 1994. ,
Role of M cells in initial antigen uptake and in ulcer formation in the rabbit intestinal loop model of shigellosis, Infect Immun, vol.57, pp.858-863, 1989. ,
Infection of rabbit Peyer's patches by Shigella flexneri: Effect of adhesive or invasive bacterial phenotypes on follicle-associated epithelium, Infect Immun, vol.64, pp.2752-2764, 1996. ,
Molecular pathogenesis of Shigella spp.: Controlling host cell signaling, invasion, and death by type III secretion, Clin Microbiol Rev, vol.21, pp.134-156, 2008. ,
Bioengineered Human Organ-on-Chip Reveals Intestinal Microenvironment and Mechanical Forces Impacting Shigella Infection, Cell Host Microbe, vol.26, pp.435-444, 2019. ,
Shigella flexneri enters human colonic Caco-2 epithelial cells through the basolateral pole, Infect Immun, vol.60, pp.237-285, 1992. ,
Acute inflammation causes epithelial invasion and mucosal destruction in experimental shigellosis, J Exp Med, vol.180, pp.1307-1319, 1994. ,
Bacterial invasion: the paradigms of enteroinvasive pathogens, Science, vol.304, pp.242-250, 2004. ,
Multiplication of Shigella flexneri within HeLa cells: Lysis of the phagocytic vacuole and plasmid-mediated contact hemolysis, Infect Immun, vol.51, pp.461-469, 1986. ,
Identification of icsA, a plasmid locus of Shigella flexneri that governs bacterial intra-and intercellular spread through interaction with F-actin, Proc Natl Acad Sci U S A, vol.86, pp.3867-3871, 1989. ,
Shigella's ways of manipulating the host intestinal innate and adaptive immune system: a tool box for survival?, Immunol Cell Biol, vol.85, pp.119-129, 2007. ,
Listerial invasion protein internalin B promotes entry into ileal Peyer's patches in vivo, Microbiol Immunol, vol.55, pp.123-129, 2011. ,
Listeria monocytogenes: towards a complete picture of its physiology and pathogenesis, Nat Rev Microbiol, vol.16, pp.32-46, 2017. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01740276
PLOS PATHOGENS Subversion of microfold cell transcytosis by intracellular pathogens, PLOS Pathogens, pp.205-214, 2019. ,
, Intestinal M cells. J Biochem, vol.159, pp.151-60, 2015.
Uptake and transport of intestinal macromolecules and microorganisms by M cells in Peyer's patches-a personal and historical perspective, Semin Immunol, vol.11, pp.157-163, 1999. ,
Intestinal villous M cells: An antigen entry site in the mucosal epithelium, Proc Natl Acad Sci, vol.101, pp.6110-6115, 2004. ,
Peyer's patch M cells derived from Lgr5(+) stem cells require SpiB and are induced by RankL in cultured "miniguts, Mol Cell Biol, vol.32, pp.3639-3686, 2012. ,
Conversion by Peyer's patch lymphocytes of human enterocytes into M cells that transport bacteria. Science (80-), vol.277, pp.949-952, 1997. ,
Expression of Specific Markers and Particle Transport in a New Human Intestinal M-Cell Model, Biochem Biophys Res Commun, vol.279, pp.808-813, 2000. ,
A human intestinal M-cell-like model for investigating particle, antigen and microorganism translocation, Nat Protoc, vol.12, pp.1387-1399, 2017. ,
Morphology of rectal mucosa of patients with shigellosis, Rev Infect Dis, vol.13, pp.314-318, 1991. ,
MxiD, an outer membrane protein necessary for the secretion of the Shigella flexneri lpa invasins, Mol Microbiol, vol.7, pp.59-68, 1993. ,
Galectin-3, a marker for vacuole lysis by invasive pathogens, Cell Microbiol, vol.12, pp.530-544, 2010. ,
URL : https://hal.archives-ouvertes.fr/hal-00486248
Tracking the dynamic interplay between bacterial and host factors during pathogen-induced vacuole rupture in real time, Cell Microbiol, vol.12, pp.545-556, 2010. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01899489
Villin Severing Activity Enhances Actin-based Motility In Vivo, Mol Biol Cell, vol.18, pp.827-838, 2007. ,
URL : https://hal.archives-ouvertes.fr/hal-00133548
monocytogenes-Induced Actin Assembly Requires the actA Gene Product, Surface Protein. Cell, vol.68, pp.521-531, 1992. ,
Interaction of Listeria monocytogenes with the intestinal epithelium, FEMS Microbiol Lett, vol.190, pp.323-328, 2000. ,
Dendritic cells are early cellular targets of Listeria monocytogenes after intestinal delivery and are involved in bacterial spread in the host, Cell Microbiol, vol.3, pp.331-371, 2001. ,
A Transgenic Model for Listeriosis: Role of Internalin in Crossing the Intestinal Barrier. Science (80-), vol.292, pp.1722-1725, 2001. ,
URL : https://hal.archives-ouvertes.fr/pasteur-02456808
How bacterial pathogens colonize their hosts and invade deeper tissues, Microbes Infect, vol.17, pp.173-183, 2015. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01115526
Penetration of Listeria monocytogenes in mice infected by the oral route, Microb Pathog, vol.23, pp.255-263, 1997. ,
OmpB (osmo-regulation) and icsA (cell-to-cell spread) mutants of Shigella flexneri: vaccine candidates and probes to study the pathogenesis of shigellosis, Vaccine, vol.9, pp.416-422, 1991. ,
Interactions of the Invasive Pathogens Salmonella typhimurium, Listeria monocytogenes, and Shigella flexneri with M Cells and Murine Peyer's Patches, Infect Immun, vol.66, pp.3758-3766, 1998. ,
Polymorphonuclear leukocyte transmigration promotes invasion of colonic epithelial monolayer by Shigella flexneri, PLOS PATHOGENS Subversion of microfold cell transcytosis by intracellular pathogens PLOS Pathogens, vol.37, pp.633-643, 1994. ,
Epithelial M Cells: Differentiation and Function, Annu Rev Cell Dev Biol, vol.16, pp.301-333, 2000. ,
Shigella Subverts the Host Recycling Compartment to Rupture Its Vacuole, Cell Host Microbe, vol.16, pp.517-530, 2014. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01113365
Macropinosomes are Key Players in Early Shigella Invasion and Vacuolar Escape in Epithelial Cells, PLoS Pathog, vol.12, pp.1-24, 2016. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01899441
The role of M cells in mucosal immunity, Cell Mol Life Sci, vol.57, pp.323-355, 2000. ,
Chico-Calero I, Vá zquez-Boland J a. A role for ActA in epithelial cell invasion by Listeria monocytogenes, Cell Microbiol, vol.3, p.11736996, 2001. ,
Blue-Light Inhibition of Listeria monocytogenes Growth Is Mediated by Reactive Oxygen Species and Is Influenced by B and the Blue-Light Sensor Lmo0799, Appl Environ Microbiol, vol.82, pp.4017-4027, 2016. ,
Induction of protective CD8+ T lymphocytes by an attenuated listeria monocytogenes actA mutant, Int Immunol, vol.4, pp.1413-1418, 1992. ,
Rapidly maturing red fluorescent protein variants with strongly enhanced brightness in bacteria, FEBS Lett, vol.552, pp.110-114, 2003. ,
Phosphorylation of IcsA by cAMP-dependent protein kinase and its effect on intracellular spread of Shigella flexneri, Mol Microbiol, vol.6, p.1602963, 1992. ,
Cloning and expression of an afimbrial adhesin (AFA-I) responsible for P blood group-independent, mannose-resistant hemagglutination from a pyelonephritic Escherichia coli strain, Infect Immun, vol.46, pp.251-259, 1984. ,
Autophagy proteins promote repair of endosomal membranes damaged by the Salmonella type three secretion system 1, Cell Host Microbe, vol.18, pp.527-537, 2015. ,
URL : https://hal.archives-ouvertes.fr/pasteur-01899446
Transport of membrane-bound macromolecules by M cells in follicle-associated epithelium of rabbit Peyer's patch, Cell Tissue Res, vol.247, pp.537-583, 1987. ,
Sequana": a Set of Snakemake NGS pipelines, J Open Source Softw, vol.2, p.352, 2017. ,
, R: A Language and Environment for Statistical Computing, 2016.
Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2, Genome Biol, vol.15, p.25516281, 2014. ,