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首页> 外文期刊>The Journal of Membrane Biology: An International Journal for Studies on the Structure, Function & Genesis of Biomembranes >Polyamine triggering of exocytosis in Paramecium involves an extracellular Ca(2+)/(polyvalent cation)-sensing receptor, subplasmalemmal Ca-store mobilization and store-operated Ca(2+)-influx via unspecific cation channels.
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Polyamine triggering of exocytosis in Paramecium involves an extracellular Ca(2+)/(polyvalent cation)-sensing receptor, subplasmalemmal Ca-store mobilization and store-operated Ca(2+)-influx via unspecific cation channels.

机译:草履虫中胞吐作用的多胺触发涉及细胞外Ca(2 +)/(多价阳离子)感应受体,浆膜下Ca存储动员和通过非特异性阳离子通道进行存储操作的Ca(2+)流入。

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The polyamine secretagogue, aminoethyldextran (AED), causes a cortical [Ca(2+)] transient in Paramecium cells, as analyzed by fluorochrome imaging. Our most essential findings are: (i) Cortical Ca(2+) signals also occur when AED is applied in presence of the fast Ca(2+) chelator, BAPTA. (ii) Extracellular La(3+) application causes within seconds a rapid, reversible fluorescence signal whose reversibility can be attributed to a physiological [Ca(2+)](i) transient (while injected La(3+) causes a sustained fluorescence signal). (iii) Simply increasing [Ca(2+)](o) causes a similar rapid, short-lived [Ca(2+)](i) transient. All these phenomena, (i-iii), are compatible with activation of an extracellular "Ca(2+)/(polyvalent cation)-sensing receptor" known from some higher eukaryotic systems, where this sensor (responding to Ca(2+), La(3+) and some multiply charged cations) is linked to cortical calcium stores which, thus, are activated. In Paramecium, such subplasmalemmal stores ("alveolar sacs") are physically linked to the cell membrane and they can also be activated by the Ca(2+) releasing agent, 4-chloro-m-cresol, just like in Sarcoplasmic Reticulum. Since this drug causes a cortical Ca(2+) signal also in absence of Ca(2+)(o) we largely exclude a "Ca(2+)-induced Ca(2+) release" (CICR) mechanism. Our finding of increased cortical Ca(2+) signals after store depletion and re-addition of extracellular Ca(2+) can be explained by a "store-operated Ca(2+) influx" (SOC), i.e., a Ca(2+) influx superimposing store activation. AED stimulation in presence of Mn(2+)(o) causes fluorescence quenching in Fura-2 loaded cells, indicating involvement of unspecific cation channels. Such channels, known to occur in Paramecium, share some general characteristics of SOC-type Ca(2+) influx channels. In conclusion, we assume the following sequence of events during AED stimulated exocytosis: (i) activation of an extracellular Ca(2+)/polyamine-sensing receptor, (ii) release of Ca(2+) from subplasmalemmal stores, (iii) and Ca(2+) influx via unspecific cation channels. All three steps are required to produce a steep cortical [Ca(2+)] signal increase to a level required for full exocytosis activation. In addition, we show formation of [Ca(2+)] microdomains (
机译:多胺促分泌素,氨基乙基右旋糖酐(AED),导致草履虫细胞中的皮质[Ca(2+)]瞬变,通过荧光成像分析。我们最重要的发现是:(i)当在快速Ca(2+)螯合剂BAPTA存在下应用AED时,皮质Ca(2+)信号也会出现。 (ii)细胞外La(3+)的应用在几秒钟内引起快速,可逆的荧光信号,其可逆性可归因于生理性[Ca(2 +)](i)瞬态(而注入的La(3+)引起持续的荧光信号)。 (iii)仅增加[Ca(2 +)](o)会导致类似的快速,短暂的[Ca(2 +)](i)瞬变。所有这些现象(i-iii)与某些高级真核系统中已知的细胞外“ Ca(2 +)/(多价阳离子)-感应受体”的激活兼容,其中该传感器(响应Ca(2+) ,La(3+)和一些带多个电荷的阳离子)与皮质钙存储相关联,因此被激活。在草履虫中,此类浆膜下储存(“肺泡囊”)物理连接到细胞膜,它们也可以被Ca(2+)释放剂4-氯-间甲酚激活,就像在肌浆网中一样。由于此药也会在没有Ca(2 +)(o)的情况下引起皮质Ca(2+)信号,因此我们很大程度上排除了“ Ca(2+)诱导的Ca(2+)释放”(CICR)机制。我们的存储皮层耗尽和细胞外Ca(2+)重新添加后增加皮质Ca(2+)信号的发现可以通过“存储操作的Ca(2+)涌入”(SOC)来解释,即Ca( 2+)涌入叠加商店激活。 AED刺激存在Mn(2 +)(o)导致Fura-2加载的细胞中的荧光猝灭,表明涉及非特异性阳离子通道。这种通道,已知发生在草履虫中,共享一些SOC型Ca(2+)流入通道的一般特征。总之,我们假设在AED刺激的胞吐过程中发生以下事件:(i)激活细胞外Ca(2 +)/多胺感应受体,(ii)从浆膜下存储释放Ca(2 +),(iii)和Ca(2+)通过非特异性阳离子通道流入。所有这三个步骤都需要使陡峭的皮质[Ca(2+)]信号增加到完全胞吐作用激活所需的水平。此外,我们显示刺激后形成[Ca(2+)]微域(

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