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毛喉素的带电表面积决定了它与骨骼肌兰尼碱受体的相互作用。

Charged surface area of maurocalcine determines its interaction with the skeletal ryanodine receptor.

作者信息

Lukács Balázs, Sztretye Mónika, Almássy János, Sárközi Sándor, Dienes Beatrix, Mabrouk Kamel, Simut Cecilia, Szabó László, Szentesi Péter, De Waard Michel, Ronjat Michel, Jóna István, Csernoch László

机构信息

Department of Physiology, Research Centre for Molecular Medicine, Medical and Health Science Centre, University of Debrecen, Debrecen, Hungary.

出版信息

Biophys J. 2008 Oct;95(7):3497-509. doi: 10.1529/biophysj.107.120840. Epub 2008 Jul 11.

DOI:10.1529/biophysj.107.120840
PMID:18621823
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2547443/
Abstract

The 33 amino acid scorpion toxin maurocalcine (MCa) has been shown to modify the gating of the skeletal-type ryanodine receptor (RyR1). Here we explored the effects of MCa and its mutants ([Ala(8)]MCa, [Ala(19)]MCa, [Ala(20)]MCa, [Ala(22)]MCa, [Ala(23)]MCa, and [Ala(24)]MCa) on RyR1 incorporated into artificial lipid bilayers and on elementary calcium release events (ECRE) in rat and frog skeletal muscle fibers. The peptides induced long-lasting subconductance states (LLSS) on RyR1 that lasted for several seconds. However, their average length and frequency were decreased if the mutation was placed farther away in the 3D structure from the critical (24)Arg residue. The effect was strongly dependent on the direction of the current through the channel. If the direction was similar to that followed by calcium during release, the peptides were 8- to 10-fold less effective. In fibers long-lasting calcium release events were observed after the addition of the peptides. The average length of these events correlated well with the duration of LLSS. These data suggest that the effect of the peptide is governed by the large charged surface formed by residues Lys(20), Lys(22), Arg(23), Arg(24), and Lys(8). Our observations also indicate that the results from bilayer experiments mimic the in situ effects of MCa on RyR1.

摘要

33个氨基酸的蝎毒素毛罗钙素(MCa)已被证明可改变骨骼肌型兰尼碱受体(RyR1)的门控。在此,我们探究了MCa及其突变体([Ala(8)]MCa、[Ala(19)]MCa、[Ala(20)]MCa、[Ala(22)]MCa、[Ala(23)]MCa和[Ala(24)]MCa)对整合到人工脂质双分子层中的RyR1以及大鼠和青蛙骨骼肌纤维中基本钙释放事件(ECRE)的影响。这些肽在RyR1上诱导出持续数秒的持久亚电导状态(LLSS)。然而,如果突变在三维结构中距离关键的(24)Arg残基更远,其平均长度和频率会降低。这种效应强烈依赖于通过通道的电流方向。如果电流方向与钙释放时的方向相似,这些肽的效果会降低8至10倍。在纤维中,添加肽后观察到了持久的钙释放事件。这些事件的平均长度与LLSS的持续时间密切相关。这些数据表明,该肽的作用受Lys(20)、Lys(22)、Arg(23)、Arg(24)和Lys(8)残基形成的大带电表面的控制。我们的观察结果还表明,双分子层实验的结果模拟了MCa对RyR1的原位效应。

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