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Better Late Than Never: A Role for Rabs Late in Exocytosis

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Presentation on theme: "Better Late Than Never: A Role for Rabs Late in Exocytosis"— Presentation transcript:

1 Better Late Than Never: A Role for Rabs Late in Exocytosis
Andrew J. Bean, Richard H. Scheller  Neuron  Volume 19, Issue 4, Pages (October 1997) DOI: /S (00)

2 Figure 1 Models to Explain the Release of a Single Quantum at a Synapse (Left) While multiple vesicles appear morphologically docked at the active zone, the biochemical state of the release machinery, likely including the SNAREs, may be heterogeneous. For example, the middle vesicle is fully primed, as indicated by fusion-competent release proteins (closed circles), while the outer two vesicles are not yet fusion competent, as indicated by the unprimed release machinery (open circles). Upon calcium triggering, only the primed vesicle fuses with the plasma membrane. (Center) Multiple vesicles may be primed simultaneously, but elevated calcium only triggers a single fusion event because rab3a inhibits nearby primed vesicles from fusing (dark arrows on both sides of the exocytosing vesicle) by destabilizing the active zone. (Right) In the absence of rab3a, elevated calcium triggers the fusion of multiple primed vesicles with the plasma membrane. Neuron  , DOI: ( /S (00) )

3 Figure 2 A Superimposition of the Cycle of Rab Translocation, Nucleotide Hydrolysis, and Vesicle Trafficking Rab-GDP (circles labeled “GDP”) bound to a neurotransmitter-containing vesicle is a short lived intermediate acted upon by a guanine nucleotide exchange factor (GEF) that enables rab to exchange GDP for GTP and stabilize its membrane association. Rab-GTP (ovals labeled “GTP”) is able to interact with at least two effector proteins, rabphilin and RIM. RIM has a discrete membrane localization near active zones and therefore is hypothesized to interact with rab-GTP only when the vesicle is docked at the plasma membrane, whereas rabphilin can interact with rab-GTP on the vesicle at multiple cellular locations. Either during or after the exocytic event, nucleotide hydrolysis, stimulated by a GTPase activating protein (GAP), results in the dissociation of both rabphilin and RIM from the resultant rab-GDP, which is then solubilized by a guanine nucleotide dissociation inhibitor (GDI). Following GDI displacement, stimulated by GDI displacement factor (GDF), the cycle begins again. Neuron  , DOI: ( /S (00) )

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