Local calcium spiking in pancreatic acinar cells.

O. Petersen
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引用次数: 14

Abstract

A few years ago, my laboratory obtained evidence for local agonist-evoked repetitive Ca2+ spikes in single pancreatic acinar cells. We have now confirmed this and shown that regular cytosolic Ca2+ spikes evoked by low concentrations of acetylcholine or inositol 1,4,5-trisphosphate (InsP3) are confined to the secretory granule area at the luminal pole of the cells. The local subcellular signals probably arise because the first internal messenger (InsP3), generated from the basolateral membrane, can diffuse rapidly, whereas the Ca2+ released from the more responsive secretory granule region has a very restricted mobility. Local Ca2+ spikes are useful from an energetic point of view and also help to avoid undesirable activation of Ca(2+)-dependent processes. Another messenger, cyclic ADP-ribose, may also regulate intracellular Ca2+ release. In pancreatic acinar cells cyclic ADP-ribose induces repetitive Ca2+ spikes localized in the secretory granule area; these spikes are blocked by ryanodine, but also by the InsP3 receptor antagonist heparin. Ryanodine abolishes or markedly inhibits agonist-evoked Ca2+ spiking, but enhances the frequency of spikes evoked by internal InsP3 application. These results indicate that both ryanodine and InsP3 receptors are involved in Ca2+ spike generation in pancreatic acinar cells, and that both InsP3 and cyclic ADP-ribose may act as internal messengers.
胰腺腺泡细胞的局部钙峰值。
几年前,我的实验室在单个胰腺腺泡细胞中获得了局部激动剂诱发的重复Ca2+峰值的证据。我们现在已经证实了这一点,并表明由低浓度的乙酰胆碱或肌醇1,4,5-三磷酸(InsP3)引起的有规律的胞质Ca2+峰值被限制在细胞腔极的分泌颗粒区域。局部亚细胞信号的产生可能是因为基底外侧膜产生的第一个内部信使(InsP3)可以迅速扩散,而从更敏感的分泌颗粒区释放的Ca2+的流动性非常有限。从能量的角度来看,局部Ca2+尖峰是有用的,也有助于避免Ca(2+)依赖过程的不良激活。另一个信使,环adp核糖,也可能调节细胞内Ca2+的释放。在胰腺腺泡细胞中,环状adp核糖诱导位于分泌颗粒区域的重复Ca2+尖峰;这些尖峰可以被良诺定阻断,也可以被InsP3受体拮抗剂肝素阻断。Ryanodine消除或显著抑制激动剂引起的Ca2+尖峰,但增加了内部应用InsP3引起的尖峰频率。这些结果表明,ryanodine和InsP3受体都参与了胰腺腺泡细胞Ca2+尖峰的产生,并且InsP3和环adp核糖都可能作为内部信使。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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