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Voltage-gated calcium channels of Paramecium cilia.草履虫纤毛的电压门控钙通道。
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纤毛 Ca2+ 泵可调节动作电位引起的纤毛内 Ca2+,并可能与纤毛电压门控 Ca2+ 通道共定位。

Ciliary Ca2+ pumps regulate intraciliary Ca2+ from the action potential and may co-localize with ciliary voltage-gated Ca2+ channels.

机构信息

Department of Biology, University of Vermont, Burlington, VT 05405, USA.

出版信息

J Exp Biol. 2021 May 1;224(9). doi: 10.1242/jeb.232074. Epub 2021 May 4.

DOI:10.1242/jeb.232074
PMID:33944932
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9563298/
Abstract

Calcium ions (Ca2+) entering cilia through the ciliary voltage-gated calcium channels (CaV) during the action potential causes reversal of the ciliary power stroke and backward swimming in Paramecium tetraurelia. How calcium is returned to the resting level is not yet clear. Our focus is on calcium pumps as a possible mechanism. There are 23 P. tetraurelia genes for calcium pumps that are members of the family of plasma membrane Ca2+ ATPases (PMCAs). They have domains homologous to those found in mammalian PMCAs. Of the 13 pump proteins previously identified in cilia, ptPMCA2a and ptPMCA2b are most abundant in the cilia. We used RNAi to examine which PMCA might be involved in regulating intraciliary Ca2+ after the action potential. RNAi for only ptPMCA2a and ptPMCA2b causes cells to significantly prolong their backward swimming, which indicates that Ca2+ extrusion in the cilia is impaired when these PMCAs are depleted. We used immunoprecipitations (IP) to find that ptPMCA2a and ptPMCA2b are co-immunoprecipitated with the CaV channel α1 subunits that are found only in the cilia. We used iodixanol (OptiPrep) density gradients to show that ptPMCA2a and ptPMCA2b and CaV1c are found in the same density fractions. These results suggest that ptPMCA2a and ptPMCA2b are located in the proximity of ciliary CaV channels.

摘要

钙离子(Ca2+)通过动作电位期间纤毛中的电压门控钙通道(CaV)进入纤毛,导致纤毛动力冲程的反转和四膜虫的向后游动。钙如何回到静息水平尚不清楚。我们关注的是钙泵作为一种可能的机制。四膜虫有 23 个钙泵基因,它们是质膜 Ca2+-ATP 酶(PMCAs)家族的成员。它们具有与哺乳动物 PMCAs 中发现的同源结构域。在以前在纤毛中鉴定的 13 种泵蛋白中,ptPMCA2a 和 ptPMCA2b 在纤毛中最为丰富。我们使用 RNAi 来研究在动作电位后哪种 PMCA 可能参与调节纤毛内的 Ca2+。仅针对 ptPMCA2a 和 ptPMCA2b 的 RNAi 会导致细胞显著延长向后游动,这表明当这些 PMCAs 耗尽时,纤毛中的 Ca2+外排受到损害。我们使用免疫沉淀(IP)发现,ptPMCA2a 和 ptPMCA2b 与仅在纤毛中发现的 CaV 通道α1 亚基共免疫沉淀。我们使用碘克沙醇(OptiPrep)密度梯度显示,ptPMCA2a 和 ptPMCA2b 与 CaV1c 位于相同的密度部分。这些结果表明,ptPMCA2a 和 ptPMCA2b 位于纤毛 CaV 通道的附近。