MECHANISM OF CA2+ WAVE-PROPAGATION IN PANCREATIC ACINAR-CELLS

被引:0
作者
NATHANSON, MH [1 ]
PADFIELD, PJ [1 ]
OSULLIVAN, AJ [1 ]
BURGSTAHLER, AD [1 ]
JAMIESON, JD [1 ]
机构
[1] YALE UNIV,SCH MED,DEPT CELL BIOL,NEW HAVEN,CT 06510
来源
JOURNAL OF BIOLOGICAL CHEMISTRY | 1992年 / 267卷 / 25期
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中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
An increase in cytosolic Ca2+ often begins as a Ca2+ wave, and this wave is thought to result from sequential activation of Ca2+-sensitive Ca2+ stores across the cell. We tested that hypothesis in pancreatic acinar cells, and since Ca2+ waves may regulate acinar Cl- secretion, we examined whether such waves also are important for amylase secretion. Ca2+ wave speed and direction was determined in individual cells within rat pancreatic acini using confocal line scanning microscopy. Both acetylcholine (ACh) and cholecystokinin-8 induced rapid Ca2+ waves which usually travelled in an apical-to-basal direction. Both caffeine and ryanodine, at concentrations that inhibit Ca2+-induced Ca2+ release (CICR), markedly slowed the speed of these waves. Amylase secretion was increased over 3-fold in response to ACh stimulation, and this increase was preserved in the presence of ryanodine. These results indicate that 1) stimulation of either muscarinic or cholecystokinin-8 receptors induces apical-to-basal Ca2+ waves in pancreatic acinar cells, 2) the speed of such waves is dependent upon mobilization of caffeine- and ryanodine-sensitive Ca2+ stores, and 3) ACh-induced amylase secretion is not inhibited by ryanodine. These observations provide direct evidence that Ca2+-induced Ca2+ release is important for propagation of cytosolic Ca2+ waves in pancreatic acinar cells.
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页码:18118 / 18121
页数:4
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