作用于K+通道的蝎毒Pi4的合成与表征。

Sarrah M'Barek, Amor Mosbah, Guillaume Sandoz, Ziad Fajloun, Timoteo Olamendi-Portugal, Hervé Rochat, François Sampieri, J Iñaki Guijarro, Pascal Mansuelle, Muriel Delepierre, Michel De Waard, Jean-Marc Sabatier
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引用次数: 44

摘要

Pi4是一种由四个二硫桥交联的38个残留物毒素,从Chactidae scorpion Pandinus imperator的毒液中分离出来。Pi4与maurotoxin、Pi1、Pi7和HsTx1一起,属于作用于K+通道的四二硫短桥蝎子毒素α KTX6亚家族。由于其在毒液中的丰度很低,为了更好地表征其药理学和结构特性,我们化学合成了Pi4。对合成Pi4 (sPi4)的酶切表明,在Cys6-Cys27、Cys12-32、Cys16-34和Cys22-37之间存在半胱氨酸配对,表明这是一种传统的蝎子毒素网状结构(Pi1/HsTx1型)。体内小鼠脑室内注射sPi4具有致死性(LD50为0.2 μ g /只)。在体外,将sPi4添加到异种表达不同电压门控K+通道亚型的非洲爪蟾卵母细胞中,对大鼠Kv1.2通道(IC50为8 pm)和Shaker B通道(IC50为3 nm)的电流有明显的抑制作用,而对大鼠Kv1.1和Kv1.3通道没有影响。sPi4还被发现与125i标记的维生素a竞争,以结合大鼠脑突触体的小电导Ca(2+)激活的K+ (SK)通道(IC50值为0.5微米)。sPi4是Kv1.2通道的高亲和力阻滞剂。利用sPi4溶液结构和Kv1.2通道孔区分子模型,将毒素停靠在Kv通道上(BIGGER程序)。该模型表明,残基Arg10、Arg19、Lys26 (dyad)、Ile28、Lys30、Lys33和Tyr35 (dyad)在相互作用和相关的Kv1.2通道阻断中起关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and characterization of Pi4, a scorpion toxin from Pandinus imperator that acts on K+ channels.

Pi4 is a 38-residue toxin cross-linked by four disulfide bridges that has been isolated from the venom of the Chactidae scorpion Pandinus imperator. Together with maurotoxin, Pi1, Pi7 and HsTx1, Pi4 belongs to the alpha KTX6 subfamily of short four-disulfide-bridged scorpion toxins acting on K+ channels. Due to its very low abundance in venom, Pi4 was chemically synthesized in order to better characterize its pharmacology and structural properties. An enzyme-based cleavage of synthetic Pi4 (sPi4) indicated half-cystine pairings between Cys6-Cys27, Cys12-32, Cys16-34 and Cys22-37, which denotes a conventional pattern of scorpion toxin reticulation (Pi1/HsTx1 type). In vivo, sPi4 was lethal after intracerebroventricular injection to mice (LD50 of 0.2 microg per mouse). In vitro, addition of sPi4 onto Xenopus laevis oocytes heterologously expressing various voltage-gated K+ channel subtypes showed potent inhibition of currents from rat Kv1.2 (IC50 of 8 pm) and Shaker B (IC50 of 3 nm) channels, whereas no effect was observed on rat Kv1.1 and Kv1.3 channels. The sPi4 was also found to compete with 125I-labeled apamin for binding to small-conductance Ca(2+)-activated K+ (SK) channels from rat brain synaptosomes (IC50 value of 0.5 microm). sPi4 is a high affinity blocker of the Kv1.2 channel. The toxin was docked (BIGGER program) on the Kv channel using the solution structure of sPi4 and a molecular model of the Kv1.2 channel pore region. The model suggests a key role for residues Arg10, Arg19, Lys26 (dyad), Ile28, Lys30, Lys33 and Tyr35 (dyad) in the interaction and the associated blockage of the Kv1.2 channel.

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