期刊
CELL CALCIUM
卷 55, 期 6, 页码 369-375出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceca.2014.03.003
关键词
Pancreatic parotid acinar secretion; Acinar exocytosis; Membrane trafficking; Secretory granules; Zymogen granules; Synaptotagmin; Complexin; cAMP; Ca2+; SNARE; Tethering; Docking; Fusion
类别
资金
- NIH [DK07088]
- USDA/HATCH [WIS01583]
- UW Graduate School Vilas Associate Award
Protein secretion from acinar cells of the pancreas and parotid glands is controlled by G-protein coupled receptor activation and generation of the cellular messengers Ca2+, diacylglycerol and cAMP. Secretory granule (SG) exocytosis shares some common characteristics with nerve, neuroendocrine and endocrine cells which are regulated mainly by elevated cell Ca2+. However, in addition to diverse signaling pathways, acinar cells have large similar to 1 mu m diameter SGs (similar to 30 fold larger diameter than synaptic vesicles), respond to stimulation at slower rates (seconds versus milliseconds), demonstrate significant constitutive secretion, and in isolated acini, undergo sequential compound SG-SG exocytosis at the apical membrane. Exocytosis proceeds as an initial rapid phase that peaks and declines over 3 min followed by a prolonged phase that decays to near basal levels over 20-30 min. Studies indicate the early phase is triggered by Ca2+ and involves the SG proteins VAMP2 (vesicle associated membrane protein2), Ca2+-sensing protein synatotagmin 1 (syt1) and the accessory protein complexin 2. The molecular details for regulation of VAMPS-mediated SG exocytosis and the prolonged phase of secretion are still emerging. Here we review the known regulatory molecules that impact the sequential exocytic process of SG tethering, docking, priming and fusion in acinar cells. (C) 2014 Elsevier Ltd. All rights reserved.
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