Regulation of Ca2+ influx during mitosis: Ca2+ influx and depletion of intracellular Ca2+ stores are coupled in interphase but not mitosis.

S F Preston, R I Sha'afi, R D Berlin
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引用次数: 71

Abstract

Activation of a wide variety of membrane receptors leads to a sustained elevation of intracellular Ca2+ ([Ca2+]i) that is pivotal to subsequent cell responses. In general, in nonexcitable cells this elevation of [Ca2+]i results from two sources: an initial release of Ca2+ from intracellular stores followed by an influx of extracellular Ca2+. These two phases, release from intracellular stores and Ca2+ influx, are generally coupled: stimulation of influx is coordinated with depletion of Ca2+ from stores, although the mechanism of coupling is unclear. We have previously shown that histamine effects a typical [Ca2+]i response in interphase HeLa cells: a rapid rise in [Ca2+]i followed by a sustained elevation, the latter dependent entirely on extracellular Ca2+. In mitotic cells only the initial elevation, derived by Ca2+ release from intracellular stores, occurs. Thus, in mitotic cells the coupling of stores to influx may be specifically broken. In this report we first provide additional evidence that histamine-stimulated Ca2+ influx is strongly inhibited in mitotic cells. We show that efflux is also strongly stimulated by histamine in interphase cells but not in mitotics. It is possible, thus, that in mitotics intracellular stores are only very briefly depleted of Ca2+, being replenished by reuptake of Ca2+ that is retained within the cell. To ensure the depletion of Ca2+ stores in mitotic cells, we employed the sesquiterpenelactone, thapsigargin, that is known to affect the selective release of Ca2+ from intracellular stores by inhibition of a specific Ca(2+)-ATPase; reuptake is inhibited. In most cells, and in accord with Putney's capacitative model (1990), thapsigargin, presumably by depleting intracellular Ca2+ stores, stimulates Ca2+ influx. This is the case for interphase HeLa cells. Thapsigargin induces an increase in [Ca2+]i that is dependent on extracellular Ca2+ and is associated with a strong stimulation of 45Ca2+ influx. In mitotic cells thapsigargin also induces a [Ca2+]i elevation that is initially comparable in magnitude and largely independent of extracellular Ca2+. However, unlike interphase cells, in mitotic cells the elevation of [Ca2+]i is not sustained and 45Ca2+ influx is not stimulated by thapsigargin. Thus, the coupling between depletion of intracellular stores and Ca2+ influx is specifically broken in mitotic cells. Uncoupling could account for the failure of histamine to stimulate Ca2+ influx during mitosis and would effectively block all stimuli whose effects are mediated by Ca2+ influx and sustained elevations of [Ca2+]i.

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有丝分裂期间Ca2+内流的调节:Ca2+内流和细胞内Ca2+储存的消耗在间期偶联,而不是有丝分裂。
多种膜受体的激活导致细胞内Ca2+ ([Ca2+]i)的持续升高,这对随后的细胞反应至关重要。一般来说,在不可兴奋的细胞中,这种[Ca2+]i的升高有两个来源:细胞内储存的Ca2+的初始释放,然后是细胞外Ca2+的流入。这两个阶段,细胞内储存的释放和Ca2+内流,通常是耦合的:内流的刺激与Ca2+从储存的消耗协调,尽管耦合的机制尚不清楚。我们之前已经表明,组胺影响间期HeLa细胞的典型[Ca2+]i反应:[Ca2+]i快速上升,随后持续升高,后者完全依赖于细胞外Ca2+。在有丝分裂细胞中,只有由细胞内储存的Ca2+释放引起的初始升高发生。因此,在有丝分裂细胞中,储存与内流的耦合可能被特异性地破坏。在本报告中,我们首先提供了额外的证据,证明组胺刺激的Ca2+内流在有丝分裂细胞中受到强烈抑制。我们发现,间期细胞的外排也受到组胺的强烈刺激,但在有丝分裂中没有。因此,有可能的是,在有丝分裂中,细胞内的Ca2+储存只是非常短暂地耗尽,通过保留在细胞内的Ca2+的再摄取来补充。为了确保有丝分裂细胞中Ca2+储存的消耗,我们使用了倍半萜内酯,即thapsigargin,已知通过抑制特定的Ca(2+)- atp酶来影响细胞内Ca2+储存的选择性释放;再摄取被抑制。在大多数细胞中,与Putney的容量模型(1990)一致,该信号素可能通过消耗细胞内Ca2+储存来刺激Ca2+内流。这是间期HeLa细胞的情况。Thapsigargin诱导[Ca2+]i的增加,这依赖于细胞外Ca2+,并与45Ca2+内流的强烈刺激有关。在有丝分裂细胞中,信号素也诱导[Ca2+]i升高,其最初的幅度相当,并且在很大程度上独立于细胞外Ca2+。然而,与间期细胞不同,在有丝分裂细胞中,[Ca2+]i的升高不是持续的,45Ca2+内流不受thapsigargin的刺激。因此,在有丝分裂细胞中,细胞内储存的消耗和Ca2+内流之间的耦合被特异性地破坏了。解偶联可以解释组胺在有丝分裂期间刺激Ca2+内流的失败,并且可以有效地阻断所有由Ca2+内流和[Ca2+]i持续升高介导的刺激。
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