International audienceIntracellular bacterial pathogens have evolved a plethora of strategies to invade eukaryotic cells. By manipulating host signaling pathways, in particular vesicular trafficking, these microbes subvert host functions to promote their internalization and to establish an intracellular niche. During these events, host endomembrane compartments are dynamically reorganized. Shigella flexneri, the causative agent of bacillary dysentery, recruits components of the host recycling pathway and the exocyst of non-phagocytic enterocytes in the vicinity of its entry site to facilitate its access to the host cytosol. These factors are either dynamically tethered to in situ formed macropinosomes or to the bacteria-containing vacuole i...
International audienceBackgroundA common strategy of microbial pathogens is to invade host cells dur...
International audienceShigella flexneri are pathogenic bacteria that invade host cells entering into...
International audienceBacterial pathogens display an impressive arsenal of molecular mechanisms that...
International audienceShigella flexneri, the causative agent of bacillary dysentery, induces massive...
International audienceIntracellular pathogens include all viruses, many bacteria and parasites capab...
International audienceEscape into the host cell cytosol following invasion of mammalian cells is a c...
Escape into the host cell cytosol following invasion of mammalian cells is a common strategy used by...
Microfold (M) cell host-pathogen interaction studies would benefit from the visual analysis of dynam...
International audienceInvasive bacterial pathogens such as Shigella flexneri force their uptake into...
International audienceShigella flexneri invades host cells by entering within a bacteria-containing ...
International audienceMacropinocytosis is the uptake of extracellular fluid within vesicles of varyi...
Shigella spp. are human specific bacterial pathogens that are an important cause of diarrhoeal disea...
Shigella flexneri invades host cells by entering within a bacteria-containing vacuole (BCV). In orde...
International audienceShigella is a Gram-negative bacterial pathogen, which causes bacillary dysente...
International audienceFew studies within the pathogenic field have used advanced imaging and analyti...
International audienceBackgroundA common strategy of microbial pathogens is to invade host cells dur...
International audienceShigella flexneri are pathogenic bacteria that invade host cells entering into...
International audienceBacterial pathogens display an impressive arsenal of molecular mechanisms that...
International audienceShigella flexneri, the causative agent of bacillary dysentery, induces massive...
International audienceIntracellular pathogens include all viruses, many bacteria and parasites capab...
International audienceEscape into the host cell cytosol following invasion of mammalian cells is a c...
Escape into the host cell cytosol following invasion of mammalian cells is a common strategy used by...
Microfold (M) cell host-pathogen interaction studies would benefit from the visual analysis of dynam...
International audienceInvasive bacterial pathogens such as Shigella flexneri force their uptake into...
International audienceShigella flexneri invades host cells by entering within a bacteria-containing ...
International audienceMacropinocytosis is the uptake of extracellular fluid within vesicles of varyi...
Shigella spp. are human specific bacterial pathogens that are an important cause of diarrhoeal disea...
Shigella flexneri invades host cells by entering within a bacteria-containing vacuole (BCV). In orde...
International audienceShigella is a Gram-negative bacterial pathogen, which causes bacillary dysente...
International audienceFew studies within the pathogenic field have used advanced imaging and analyti...
International audienceBackgroundA common strategy of microbial pathogens is to invade host cells dur...
International audienceShigella flexneri are pathogenic bacteria that invade host cells entering into...
International audienceBacterial pathogens display an impressive arsenal of molecular mechanisms that...