Conditional degradation of UNC-31/CAPS enables spatiotemporal analysis of neuropeptide function
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Abstract
Neuropeptide release from dense-core vesicles in Caenorhabditis elegans is promoted by UNC-31, ortholog of the calcium-dependent activator protein for secretion (CAPS). Loss of UNC-31 causes multiple phenotypes in C. elegans including reduced motility, retention of late-stage eggs and reduction in evoked synaptic release. However, the ability to analyze UNC-31 function over discrete timescales and in specific neurons is lacking. Here, we generated and validated a tool to enable UNC-31 expression and spatiotemporal functional analysis. We show that endogenously tagged UNC-31 is expressed in major ganglia and nerve cords from late-embryonic stages through to adult. Using the auxin-inducible degradation system, we depleted UNC-31 post-embryonically from the nervous system and revealed defects in egg-laying, locomotion and vesicle release that were comparable to unc-31 null mutant animals. In addition, we found that depleting UNC-31 specifically from the BAG sensory neurons causes increased intestinal fat storage, highlighting the spatial sensitivity of this system. Together, this protein degradation tool may be used to facilitate studies of neuropeptide function at precise cellular and temporal scales. Significance statement Animal behavior and physiology is controlled by neuropeptides that are released from specific neuronal sources. The ability to dissect discrete neuropeptide functions requires precise manipulation of neuropeptide release. We have developed and validated a tool that enables precise spatiotemporal regulation of neuropeptide release that will enable researchers to examine neuropeptide function at exceptional resolution.
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