The
            <i>Salmonella</i>
            virulence protein SifA is a G protein antagonist

Jackson, Lindsey N.; Nawabi, Parwez; Hentea, Cristiana; Roark, Everett A.; Haldar, Kasturi

doi:10.1073/pnas.0801872105

Cited by 80 publications

(80 citation statements)

References 35 publications

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“…Rab9 interaction with a Golgi-tethering factor, GCC185, promotes interaction with Rab6, Arl1, and the CLASP microtubule-anchoring protein and is suggested to integrate dynein-mediated delivery with docking of endosome-derived vesicles to the Golgi (Hayes et al 2009). Additional insights into the regulation of Rab7 and Rab9 endosome motility-cooperativity with Arflike (Arl) proteins and kinesin-interacting proteins-have in part been gained through analyses of how bacterial pathogens usurp RabGTPase effectors during the establishment of an intracellular niche (Jackson et al 2008;Garg et al 2011;Mrakovic et al 2012;Stein et al 2012b). What emerges from the composite work is that Rab GTPases interact in a nucleotide-dependent manner with microtubule motor complexes and thereby directly control cytoskeletal translocation.…”

Section: Rab Gtpases and Microtubule-dependent Translocationmentioning

confidence: 99%

Rab Proteins and the Compartmentalization of the Endosomal System

Wandinger‐Ness

Zerial

2014

Cold Spring Harbor Perspectives in Biology

505

469

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Of the approximately 70 human Rab GTPases, nearly three-quarters are involved in endocytic trafficking. Significant plasticity in endosomal membrane transport pathways is closely coupled to receptor signaling and Rab GTPase-regulated scaffolds. Here we review current literature pertaining to endocytic Rab GTPase localizations, functions, and coordination with regulatory proteins and effectors. The roles of Rab GTPases in (1) compartmentalization of the endocytic pathway into early, recycling, late, and lysosomal routes; (2) coordination of individual transport steps from vesicle budding to fusion; (3) effector interactomes; and (4) integration of GTPase and signaling cascades are discussed.

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Section: Rab Gtpases and Microtubule-dependent Translocationmentioning

confidence: 99%

Rab Proteins and the Compartmentalization of the Endosomal System

Wandinger‐Ness

Zerial

2014

Cold Spring Harbor Perspectives in Biology

505

469

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“…Cholesterol accumulation in Niemann-Pick C disease also alters Rab9A activity and its association with late endosomes (Ganley and Pfeffer, 2006), suggesting that Rab9A might also be implicated in cholesterol-mediated regulation of late endosome positioning. Rab9A interacts with the PH domain of SKIP (Jackson et al, 2008) and of the Rab36 GAP RUTBC2 (also known as SGSM1) (Nottingham et al, 2012;Zhang et al, 2014), but it is unclear whether these interactions account for the role of Rab9A in lysosome positioning. Overexpression of Rab34 and Rab36 causes lysosome clustering (Wang and Hong, 2002;Chen and Yu, 2013).…”

Section: Retrograde Transportmentioning

confidence: 99%

Mechanisms and functions of lysosome positioning

Guardia

Keren-Kaplan

et al. 2016

Journal of Cell Science

409

466

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Lysosomes have been classically considered terminal degradative organelles, but in recent years they have been found to participate in many other cellular processes, including killing of intracellular pathogens, antigen presentation, plasma membrane repair, cell adhesion and migration, tumor invasion and metastasis, apoptotic cell death, metabolic signaling and gene regulation. In addition, lysosome dysfunction has been shown to underlie not only rare lysosome storage disorders but also more common diseases, such as cancer and neurodegeneration. The involvement of lysosomes in most of these processes is now known to depend on the ability of lysosomes to move throughout the cytoplasm. Here, we review recent findings on the mechanisms that mediate the motility and positioning of lysosomes, and the importance of lysosome dynamics for cell physiology and pathology.

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“…Interestingly, SKIP also interacts, through its PH domain, with the late endosome GTPase Rab9. This interaction is important to maintain peripheral LAMP1 distribution in cells and is inhibited by SifA, suggesting that bacterial G protein mimicry may result in G protein antagonism [218].…”

Section: 5mentioning

confidence: 99%

Impact ofSalmonella entericaType III Secretion System Effectors on the Eukaryotic Host Cell

Ramos‐Morales

2012

ISRN Cell Biology

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Type III secretion systems are molecular machines used by many Gram-negative bacterial pathogens to inject proteins, known as effectors, directly into eukaryotic host cells. These proteins manipulate host signal transduction pathways and cellular processes to the pathogen's advantage. Salmonella enterica possesses two virulence-related type III secretion systems that deliver more than forty effectors. This paper reviews our current knowledge about the functions, biochemical activities, host targets, and impact on host cells of these effectors. First, the concerted action of effectors at the cellular level in relevant aspects of the interaction between Salmonella and its hosts is analyzed. Then, particular issues that will drive research in the field in the near future are discussed. Finally, detailed information about each individual effector is provided.

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The Salmonella virulence protein SifA is a G protein antagonist

Cited by 80 publications

References 35 publications

Rab Proteins and the Compartmentalization of the Endosomal System

Rab Proteins and the Compartmentalization of the Endosomal System

Mechanisms and functions of lysosome positioning

Impact ofSalmonella entericaType III Secretion System Effectors on the Eukaryotic Host Cell

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