Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023241 (Legionella)
 6,990 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prenylated Rab proteins exist in the cytosol as soluble, high-affinity complexes with GDI that need to be disrupted for membrane attachment and targeting of Rab proteins. The Legionella pneumophila protein DrrA displaces GDI from Rab1:GDI complexes, incorporating Rab1 into Legionella-containing vacuoles and activating Rab1 by exchanging GDP for GTP. Here, we present the crystal structure of a complex between the GEF domain of DrrA and Rab1 and a detailed kinetic analysis of this exchange. DrrA efficiently catalyzes nucleotide exchange and mimics the general nucleotide exchange mechanism of mammalian GEFs for Ras-like GTPases. We show that the GEF activity of DrrA is sufficient to displace prenylated Rab1 from the Rab1:GDI complex. Thus, apparent GDI displacement by DrrA is linked directly to nucleotide exchange, suggesting a basic model for GDI displacement and specificity of Rab localization that does not require discrete GDI displacement activity.
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PMID:RabGDI displacement by DrrA from Legionella is a consequence of its guanine nucleotide exchange activity. 2006 70

Intracellular vesicular trafficking is regulated by approximately 60 members of the Rab subfamily of small Ras-like GDP/GTP binding proteins. Rab proteins cycle between inactive and active states as well as between cytosolic and membrane bound forms. Membrane extraction/delivery and cytosolic distribution of Rabs is mediated by interaction with the protein GDP dissociation inhibitor (GDI) that binds to prenylated inactive (GDP-bound) Rab proteins. Because the Rab:GDP:GDI complex is of high affinity, the question arises of how GDI can be displaced efficiently from Rab protein in order to allow the necessary recruitment of the Rab to its specific target membrane. While there is strong evidence that DrrA, as a bacterially encoded GDP/GTP exchange factor, contributes to this event, we show here that posttranslational modifications of Rabs can also modulate the affinity for GDI and thus cause effective displacement of GDI from Rab:GDI complexes. These activities have been found associated with the phosphocholination and adenylylation activities of the enzymes AnkX and DrrA/SidM, respectively, from the pathogenic bacterium Legionella pneumophila. Both modifications occur after spontaneous dissociation of Rab:GDI complexes within their natural equilibrium. Therefore, the effective GDI displacement that is observed is caused by inhibition of reformation of Rab:GDI complexes. Interestingly, in contrast to adenylylation by DrrA, AnkX can covalently modify inactive Rabs with high catalytic efficiency even when GDP is bound to the GTPase and hence can inhibit binding of GDI to Rab:GDP complexes. We therefore speculate that human cells could employ similar mechanisms in the absence of infection to effectively displace Rabs from GDI.
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PMID:Posttranslational modifications of Rab proteins cause effective displacement of GDP dissociation inhibitor. 2245 45

Membrane trafficking is regulated by small Ras-like GDP/GTP binding proteins of the Rab subfamily (Rab GTPases) that cycle between membranes and cytosol depending on their nucleotide state. The GDP dissociation inhibitor (GDI) solubilizes prenylated Rab GTPases from and shuttles them between membranes in the form of a soluble cytosolic complex. We use attenuated total reflection-Fourier transform infrared spectroscopy to directly observe extraction of Rab GTPases from model membranes by GDI. In their native form, most Rab GTPases are doubly geranylgeranylated at the C terminus to achieve localization to the membrane. We find that monogeranylgeranylated Rab35 and Rab1b reversibly bind to a negatively charged model membrane. Correct folding and GTPase activity of the membrane-bound protein can be evaluated. The dissociation kinetics depends on the C-terminal sequence and charge of the GTPases. The attenuated total reflection experiments show that GDI genuinely accelerates the intrinsic Rab membrane dissociation. The extraction process is characterized and occurs in a nucleotide-dependent manner. Furthermore, we find that phosphocholination of Rab35, which is catalyzed by the Legionella pneumophila protein AnkX, interferes with the ability of GDI to extract Rab35 from the membrane. The attenuated total reflection-Fourier transform infrared spectroscopy approach enables label-free investigation of the interaction between GDI and Rab GTPases in a membrane environment. Thereby, GDI is revealed to actively extract monogeranylgeranylated membrane-bound Rab GTPases and, thus, is not merely a solubilization factor.
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PMID:Membrane extraction of Rab proteins by GDP dissociation inhibitor characterized using attenuated total reflection infrared spectroscopy. 2389 97