Judy H. Chou scite author profile

GTP activates the interaction between the synaptic vesicle proteins rabphilin and rab3. This raises the question of whether rabphilin is a resident vesicle protein that recruits rab3 in a stage‐dependent fashion, or if it is instead an effector protein recruited by rab3. We now show that rabphilin, like rab3, dissociates from synaptic vesicles after exocytosis in a manner requiring both Ca2+ and membrane fusion. Rabphilin interacts with GTP‐rab3 via a N‐terminal domain comprising a novel Zn2+(‐)finger motif, and this interaction is essential for rabphilin binding to synaptic vesicles. Thus, in the same way that ras recruits raf to the plasma membrane, rab3 reversibly recruits rabphilin to synaptic vesicles in a stage‐dependent manner. These results reveal an unexpected similarity between the molecular mechanisms by which small G protein function in recruiting effector proteins to membranes during membrane traffic and signal transduction.

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Binding of Rab3A to Synaptic Vesicles

Chou¹,

Jahn²

2000

Journal of Biological Chemistry

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Prenylated Rab GTPases cycle between membranebound and soluble forms. Membrane-bound GDP-Rabs interact with GDP dissociation inhibitor (GDI), resulting in the dissociation of a Rab⅐GDI complex, which in turn serves as a precursor for the membrane re-association of Rabs. We have now characterized the binding of Rab3A to synaptic vesicles in vitro using either purified complexes or rat brain cytosol as source for GDI⅐Rab3A. Binding of Rab3A results in the immediate release of GDI from the membrane. Furthermore, binding does not require the presence of additional guanine nucleotides (GDP or GTP) or of cytosolic factors. Although nucleotide exchange follows binding, binding is initially reversible, suggesting that binding of GDP-Rab3A and nucleotide exchange are separate and independent events. Comparison with the binding of Rab1B revealed that both Rab proteins bind preferentially to their respective resident membranes although some promiscuity was observable. Binding is saturable and involves a proteasesensitive binding site that is tightly associated with the vesicle membrane.

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Judy H. Chou

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Rab3 reversibly recruits rabphilin to synaptic vesicles by a mechanism analogous to raf recruitment by ras.

Binding of Rab3A to Synaptic Vesicles

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