Functional Exploration Of T-Type Calcium Channels (Cav3.2 And Cav3.3) And Their Sensitivity To Zinc.

Q3 Immunology and Microbiology Open Microbiology Journal Pub Date : 2018-07-31 eCollection Date: 2018-01-01 DOI:10.2174/1874285801812010280
Tahar Hazzaz Abouamal, Zineb Choukairi, Fechtali Taoufiq
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引用次数: 3

Abstract

Introduction: T-type Ca2+ channels (TTCC) are low Voltage-gated calcium channels, expressed in various tissues such as the brain and heart, and contribute to a variety of physiological functions including neuronal excitability, hormone secretion, muscle contraction, and pacemaker activity. At high concentrations, Zinc (Zn2+) is naturally attached to cell membranes and is therefore considered a reversible inhibitor of calcium. Zinc is also involved in the kinetics of sodium and potassium currents. Zinc is essential for many functions. A low zinc tenor is associated with emotional instability, digestive disorders, slow-growing and alteration of protein synthesis.

Material and methods: For the Cell Culture we used HEK-293/tsA-201, and for transfection, the pCDNA3 plasmid constructs encoding human CaV3.2, and CaV3.3 subunits. Electrophysiological experiments were performed using the whole cell configuration of the patch-clamp technique. T-type currents were recorded using a test pulse from a holding potential at (-100mV) to (-30 mV), data Acquisition and Analysis for Current-voltage relationships (I-V curves) were recorded for the two cloned T-type Ca2+ channels (Cav3.2, Cav3.3).

Results: Our studies describe the behavior of these channels Cav3.2 and Cav3.3 and also their current sensitivity to Zinc (Zn2+) in transfected HEK-293/tsA-201cells. Our results show that Zn2+ applies a modulatory effect on T-type calcium channels. We observe that Zn2+ differentially modulates the CaV3.2 and CaV3.3 channels. Zn2+ preferably inhibits Cav3.2.

Conclusion: We have demonstrated that Zn2+ differentially modulates two CaV3 channels (Cav3.2 and Cav3.3): It is a preferential blocker of CaV3.2 channels and it alters the gating behaviour of CaV3.3 channels.

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t型钙通道(Cav3.2和Cav3.3)的功能探索及其对锌的敏感性
t型Ca2+通道(TTCC)是一种低压门控钙通道,在大脑和心脏等多种组织中表达,并参与多种生理功能,包括神经元兴奋性,激素分泌,肌肉收缩和起搏器活性。在高浓度下,锌(Zn2+)自然附着在细胞膜上,因此被认为是钙的可逆抑制剂。锌也参与钠和钾电流的动力学。锌对许多功能都是必不可少的。锌含量低与情绪不稳定、消化系统紊乱、生长缓慢和蛋白质合成改变有关。材料和方法:细胞培养用HEK-293/tsA-201,转染用编码人CaV3.2和CaV3.3亚基的pCDNA3质粒。电生理实验采用膜片钳技术的全细胞结构进行。使用测试脉冲从保持电位(-100mV)到(- 30mv)记录t型电流,记录两个克隆的t型Ca2+通道(Cav3.2, Cav3.3)的电流-电压关系(I-V曲线)的数据采集和分析。结果:我们的研究描述了转染HEK-293/ tsa -201细胞中Cav3.2和Cav3.3通道的行为以及它们对锌(Zn2+)的电流敏感性。结果表明Zn2+对t型钙离子通道具有调节作用。我们观察到Zn2+对CaV3.2和CaV3.3通道有差异调节。Zn2+较好地抑制了Cav3.2。结论:我们已经证明了Zn2+对两个CaV3通道(Cav3.2和Cav3.3)的差异调节:它是Cav3.2通道的优先阻断剂,它改变了Cav3.3通道的门控行为。
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来源期刊
Open Microbiology Journal
Open Microbiology Journal Immunology and Microbiology-Immunology and Microbiology (all)
CiteScore
1.80
自引率
0.00%
发文量
24
期刊介绍: The Open Microbiology Journal is a peer-reviewed open access journal which publishes research articles, reviews/mini-reviews, case studies, guest edited thematic issues and short communications/letters covering theoretical and practical aspects of Microbial systematics, evolutionary microbiology, immunology, virology, parasitology , bacteriology, mycology, phycology, protozoology, microbial ecology, molecular biology, microbial physiology, biochemistry, microbial pathogenesis, host-microbe interaction, systems microbiology, synthetic microbiology, bioinformatics. The Open Microbiology Journal , a peer-reviewed journal, is an important and reliable source of current information on developments in the field. The emphasis will be on publishing quality papers rapidly and freely available to researchers worldwide.
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