Literature DB >> 25500191

PLEKHM1 regulates Salmonella-containing vacuole biogenesis and infection.

David G McEwan1, Benjamin Richter1, Beatrice Claudi2, Christoph Wigge3, Philipp Wild1, Hesso Farhan4, Kieran McGourty5, Fraser P Coxon6, Mirita Franz-Wachtel7, Bram Perdu8, Masato Akutsu2, Anja Habermann3, Anja Kirchof1, Miep H Helfrich6, Paul R Odgren9, Wim Van Hul8, Achilleas S Frangakis2, Krishnaraj Rajalingam10, Boris Macek7, David W Holden5, Dirk Bumann11, Ivan Dikic12.   

Abstract

The host endolysosomal compartment is often manipulated by intracellular bacterial pathogens. Salmonella (Salmonella enterica serovar Typhimurium) secrete numerous effector proteins, including SifA, through a specialized type III secretion system to hijack the host endosomal system and generate the Salmonella-containing vacuole (SCV). To form this replicative niche, Salmonella targets the Rab7 GTPase to recruit host membranes through largely unknown mechanisms. We show that Pleckstrin homology domain-containing protein family member 1 (PLEKHM1), a lysosomal adaptor, is targeted by Salmonella through direct interaction with SifA. By binding the PLEKHM1 PH2 domain, Salmonella utilize a complex containing PLEKHM1, Rab7, and the HOPS tethering complex to mobilize phagolysosomal membranes to the SCV. Depletion of PLEKHM1 causes a profound defect in SCV morphology with multiple bacteria accumulating in enlarged structures and significantly dampens Salmonella proliferation in multiple cell types and mice. Thus, PLEKHM1 provides a critical interface between pathogenic infection and the host endolysosomal system.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2014        PMID: 25500191     DOI: 10.1016/j.chom.2014.11.011

Source DB:  PubMed          Journal:  Cell Host Microbe        ISSN: 1931-3128            Impact factor:   21.023


  32 in total

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9.  BioID screen of Salmonella type 3 secreted effectors reveals host factors involved in vacuole positioning and stability during infection.

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10.  The Rab7 effector WDR91 promotes autophagy-lysosome degradation in neurons by regulating lysosome fusion.

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