Action potential induces membrane depolarization and triggers intracellular free Ca concentration (Ca)-dependent secretion (CDS) via Ca influx through voltage-gated Ca channels. We report a new type of somatic exocytosis triggered by the action potential per se-Ca-independent but voltage-dependent secretion (CiVDS)-in dorsal root ganglion neurons. Here we uncovered the molecular mechanism of CiVDS, comprising a voltage sensor, fusion machinery, and their linker. Specifically, the voltage-gated N-type Ca channel (Ca2.2) is the voltage sensor triggering CiVDS, the SNARE complex functions as the vesicle fusion machinery, the "synprint" of Ca2.2 serves as a linker between the voltage sensor and the fusion machinery, and ATP is a cargo of CiVDS vesicles. Thus, CiVDS releases ATP from the soma while CDS releases glutamate from presynaptic terminals, establishing the Ca2.2-SNARE "voltage-gating fusion pore" as a novel pathway co-existing with the canonical "Ca-gating fusion pore" pathway for neurotransmitter release following action potentials in primary sensory neurons.
Precise and efficient endocytosis is essential for vesicle recycling during a sustained neurotransmission. The regulation of endocytosis has been extensively studied, but inhibitors have rarely been found. Here, we show that synaptotagmin-11 (Syt11), a non-Ca
2+binding Syt implicated in schizophrenia and Parkinson's disease, inhibits clathrin-mediated endocytosis (CME) and bulk endocytosis in dorsal root ganglion neurons. The frequency of both types of endocytic event increases in Syt11 knockdown neurons, while the sizes of endocytosed vesicles and the kinetics of individual bulk endocytotic events remain unaffected. Specifically, clathrincoated pits and bulk endocytosis-like structures increase on the plasma membrane in Syt11-knockdown neurons. Structuralfunctional analysis reveals distinct domain requirements for Syt11 function in CME and bulk endocytosis. Importantly, Syt11 also inhibits endocytosis in hippocampal neurons, implying a general role of Syt11 in neurons. Taken together, we propose that Syt11 functions to ensure precision in vesicle retrieval, mainly by limiting the sites of membrane invagination at the early stage of endocytosis.
The temperature-sensitive TRP channel, TRPA1, is known to mediate Na+ and Ca2+ influx at the plasma membrane of sensory neurons. In this study, the authors show that TRPA1 is also present on the lysosomal membrane and mediates lysosome Ca2+ release in dorsal root ganglion neurons.
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