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在细胞中的安培测量支持了在胞吐作用期间 dynamin 在融合孔扩张中的作用。

Amperometric measurements at cells support a role for dynamin in the dilation of the fusion pore during exocytosis.

机构信息

Department of Chemistry and Molecular Biology, University of Gothenburg, S-41296 Gothenburg, Sweden.

出版信息

Chemphyschem. 2013 Jul 22;14(10):2295-301. doi: 10.1002/cphc.201300319. Epub 2013 Jul 3.

DOI:10.1002/cphc.201300319
PMID:23824748
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3794367/
Abstract

Dynamin is a GTPase mechanochemical enzyme involved in the late steps of endocytosis, where it separates the endocytotic vesicle from the cell membrane. However, recent reports have emphasized its role in exocytosis. In this case, dynamin may contribute to the control of the exocytotic pore, thus suggesting a direct control on the efflux of neurotransmitters. Dynasore, a selective inhibitor of the GTPase activity of dynamin, was used to investigate the role of dynamin in exocytosis. Exocytosis was analyzed by amperometry, thus revealing that dynasore inhibits exocytosis in a dose-dependent manner. Analysis of the exocytotic peaks shows that the inhibition of the GTPase activity of dynamin leads to shorter, smaller events. This observation, together with the rapid effect of dynasore, suggests that the blocking of the GTPase induces the formation of a more narrow and short-lived fusion pore. These results suggest that the GTPase properties of dynamin are involved in the duration and kinetics of exocytotic release. Interestingly, and in strong contrast with its role in endocytosis, the mechanochemical properties of dynamin appear to contribute to the dilation and stability of the pore during exocytosis.

摘要

动力蛋白是一种 GTP 酶机械化学酶,参与胞吞作用的后期步骤,在此过程中,它将内吞小泡与细胞膜分离。然而,最近的报道强调了它在胞吐作用中的作用。在这种情况下,动力蛋白可能有助于控制胞吐孔,从而对神经递质的外流进行直接控制。Dynasore 是一种动力蛋白 GTP 酶活性的选择性抑制剂,用于研究动力蛋白在胞吐作用中的作用。通过安培法分析胞吐作用,结果表明 Dynasore 以剂量依赖性方式抑制胞吐作用。对外排峰的分析表明,动力蛋白 GTP 酶活性的抑制导致较短、较小的事件。这一观察结果,加上 Dynasore 的快速作用,表明 GTP 酶的阻断诱导了更窄、更短暂的融合孔的形成。这些结果表明,动力蛋白的 GTP 酶特性参与了胞吐释放的持续时间和动力学。有趣的是,与它在胞吞作用中的作用形成强烈对比的是,动力蛋白的机械化学特性似乎有助于胞吐作用过程中孔的扩张和稳定。

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