Single molecule analyses of Salmonella translocated effector proteins reveal targeting to and dynamics in host cell endomembranes

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Abstract

Abstract Bacterial pathogens deliver proteins in temporal and spatial coordinated manner to manipulate mammalian host cells. The facultative intracellular pathogen Salmonella enterica remodels the host endosomal system for survival and proliferation inside host cells. The pathogen resides in a membrane-bound compartment termed Salmonella-containing vacuole (SCV). By Salmonella-induced fusions of host endomembranes, the SCV is connected with extensive tubular structures termed Salmonella-induced filaments (SIF). The intracellular lifestyle of Salmonella critically depends on effector molecules translocated by the SPI2-encoded type III secretion system (SPI2-T3SS) into host cells. A subset of these effectors is associated with, or integral in SCV and SIF membranes. It remained to be determined how SPI2-T3SS effectors reach their subcellular destination, and how these effectors interact with endomembranes remodeled by Salmonella. We deployed self-labeling enzyme (SLE) tags as novel approach to label translocated effector proteins in living host cells, and analyzed their dynamics on single molecule level. We found that SPI2-T3SS effector proteins diffuse in membranes of SIF with mobility comparable to membrane-integral host proteins in endomembranes. Dynamics differed between various effector proteins investigated and was dependent on membrane architecture of SIF. In the early infection, we observed host endosomal vesicles associated with Salmonella effector proteins. Effector-positive vesicles continuously fused with SCV and SIF membranes, providing a route of effector delivery by SPI2-T3SS translocation, interaction with endosomal vesicles, and ultimately fusion with the continuum of SCV/SIF membranes. This novel mechanism controls membrane deformation and vesicular fusion to generate the specific intracellular niche for bacterial survival and proliferation.

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last seen: 2026-05-19T01:45:01.086888+00:00