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基本Ca(2+)释放位点的相位特征是对IP(3)的量子反应的基础。

Phasic characteristic of elementary Ca(2+) release sites underlies quantal responses to IP(3).

作者信息

Callamaras N, Parker I

机构信息

Laboratory of Cellular and Molecular Neurobiology, Department of Neurobiology and Behavior, University of California Irvine, CA 92697-4550, USA.

出版信息

EMBO J. 2000 Jul 17;19(14):3608-17. doi: 10.1093/emboj/19.14.3608.

DOI:10.1093/emboj/19.14.3608
PMID:10899115
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC313983/
Abstract

Ca(2+) liberation by inositol 1,4,5-trisphosphate (IP(3)) is 'quantal', in that low [IP(3)] causes only partial Ca(2+) release, but further increasing [IP(3)] evokes more release. This characteristic allows cells to generate graded Ca(2+) signals, but is unexpected, given the regenerative nature of Ca(2+)-induced Ca(2+) release through IP(3) receptors. Two models have been proposed to resolve this paradox: (i) all-or-none Ca(2+) release from heterogeneous stores that empty at varying [IP(3)]; and (ii) phasic liberation from homogeneously sensitive stores. To discriminate between these hypotheses, we imaged subcellular Ca(2+) puffs evoked by IP(3) in Xenopus oocytes where release sites were functionally uncoupled using EGTA. Puffs were little changed by 300 microM intracellular EGTA, but sites operated autonomously and did not propagate waves. Photoreleased IP(3) generated flurries of puffs-different to the prolonged Ca(2+) elevation following waves in control cells-and individual sites responded repeatedly to successive increments of [IP(3)]. These data support the second hypothesis while refuting the first, and suggest that local Ca(2+) signals exhibit rapid adaptation, different to the slower inhibition following global Ca(2+) waves.

摘要

肌醇1,4,5 -三磷酸(IP₃)引起的Ca²⁺释放是“量子化”的,即低浓度的[IP₃]仅导致部分Ca²⁺释放,但进一步增加[IP₃]会引发更多的释放。这一特性使细胞能够产生分级的Ca²⁺信号,但鉴于通过IP₃受体的Ca²⁺诱导的Ca²⁺释放具有再生性质,这一现象出乎意料。为了解决这一矛盾,提出了两种模型:(i)从异质性储存库中进行全或无的Ca²⁺释放,这些储存库在不同的[IP₃]浓度下排空;(ii)从均匀敏感的储存库中进行阶段性释放。为了区分这些假设,我们对非洲爪蟾卵母细胞中由IP₃诱发的亚细胞Ca²⁺瞬变进行了成像,在这些卵母细胞中,使用乙二醇双四乙酸(EGTA)使释放位点在功能上解偶联。300微摩尔的细胞内EGTA对瞬变影响很小,但位点自主运作且不传播波。光释放的IP₃产生了一连串的瞬变——这与对照细胞中波后延长的Ca²⁺升高不同——并且单个位点对[IP₃]的连续增加反复做出反应。这些数据支持了第二个假设,同时反驳了第一个假设,并表明局部Ca²⁺信号表现出快速适应性,这与全局Ca²⁺波后较慢的抑制不同。

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