The t‐soluble NSF‐attachment protein receptor protein Syntaxin‐1a (Stx‐1a) is abundantly expressed at pre‐synaptic terminals where it plays a critical role in the exocytosis of neurotransmitter‐containing synaptic vesicles. Stx‐1a is phosphorylated by Casein kinase 2α (CK2α) at Ser14, which has been proposed to regulate the interaction of Stx‐1a and Munc‐18 to control of synaptic vesicle priming. However, the role of CK2α in synaptic vesicle dynamics remains unclear. Here, we show that CK2α over‐expression reduces evoked synaptic vesicle release. Furthermore, shRNA‐mediated knockdown of CK2α in primary hippocampal neurons strongly enhanced vesicle exocytosis from the reserve pool, with no effect on the readily releasable pool of primed vesicles. In neurons in which endogenous Stx‐1a was knocked down and replaced with a CK2α phosphorylation‐deficient mutant, Stx‐1a(D17A), vesicle exocytosis was also increased. These results reveal a previously unsuspected role of CK2α phosphorylation in specifically regulating the reserve synaptic vesicle pool, without changing the kinetics of release from the readily releasable pool.
Botulinum neurotoxins (BoNTs) are extremely potent naturally occurring poisons that act by silencing neurotransmission. Intriguingly, in addition to preventing presynaptic vesicle fusion, BoNT serotype A (BoNT/A) can also promote axonal regeneration in preclinical models. Here we report that the non-toxic C-terminal region of the receptor-binding domain of heavy chain BoNT/A (HC
C
/A) activates the small GTPase Rac1 and ERK pathway to potentiate axonal outgrowth, dendritic protrusion formation and synaptic vesicle release in hippocampal neurons. These data are consistent with HC
C
/A exerting neurotrophic properties, at least in part, independent of any BoNT catalytic activity or toxic effect.
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