AI Article Synopsis
- UNC-31 (or CAPS) is crucial for the exocytosis of dense core and synaptic vesicles, featuring several functional domains essential for its activity.
- Using UNC-31 null mutant C. elegans, the study tested the effects of expressing full-length UNC-31 and various domain-deleted mutants, discovering that full-length UNC-31 rescued vesicle secretion in response to elevated calcium levels, while deletion of the MHD still allowed partial rescue.
- The other three domain deletions showed minimal rescue effects, indicating that each UNC-31 domain has unique roles in facilitating vesicular exocytosis, including vesicle tethering and the formation of the SNARE complex necessary for neurotransmitter release.
Article Abstract
UNC-31 or its mammalian homologue, Ca(2+)-dependent activator protein for secretion (CAPS), is indispensable for exocytosis of dense core vesicle (DCV) and synaptic vesicle (SV). From N- to the C-terminus, UNC-31 contains putative functional domains, including dynactin 1 binding domain (DBD), C2, PH, (M)UNC-13 homology domain (MHD) and DCV binding domain (DCVBD), the last four we examined in this study. We employed UNC-31 null mutant C. elegans worms to examine whether UNC-31 functions could be rescued by ectopic expression of full length UNC-31 vs each of these four domain-deleted mutants. Full length UNC-31 cDNA rescued the phenotypes of C. elegans null mutants in response to Ca(2+)-elevation in ALA neurons. Surprisingly, MHD deletion also rescued UNC-31 exocytotic function in part because the relatively high Ca(2+) level (pre-flash Ca(2+) was 450 nM) used in the capacitance study could bypass the MHD defect. Nonetheless, the three other domain-truncation cDNAs had almost no rescue on Ca(2+) evoked secretion. Importantly, this genetic null mutant rescue strategy enabled physiological studies at levels of whole organism to single cells, such as locomotion assay, pharmacological study of neurotransmission at neuromuscular junction, in vivo neuropeptide release measurement and analysis of vesicular docking. Our results suggest that each of these UNC-31 domains support distinct sequential molecular actions of UNC-31 in vesicular exocytosis, including steps in vesicle tethering and docking that bridge vesicle with plasma membrane, and subsequently priming vesicle by initiating the formation of soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) core complex.
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| http://dx.doi.org/10.1016/j.bbrc.2010.05.148 | DOI Listing |
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