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依美泊赛德作用模式研究:对猪蛔虫膜电位和电压激活电流的缓慢作用。

On the mode of action of emodepside: slow effects on membrane potential and voltage-activated currents in Ascaris suum.

机构信息

Department of Biomedical Sciences, Iowa State University, Ames, IA, USA.

出版信息

Br J Pharmacol. 2011 Sep;164(2b):453-70. doi: 10.1111/j.1476-5381.2011.01428.x.

DOI:10.1111/j.1476-5381.2011.01428.x
PMID:21486286
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3188918/
Abstract

BACKGROUND AND PURPOSE

Anthelmintics are required for treatment and prophylaxis of nematode parasites of humans and domestic animals. Emodepside, a cyclooctadepsipeptide, is a modern anthelmintic that has a novel mode of action involving a Ca-activated K channel (SLO-1) in Caenorhabditis elegans, sometimes mediated by a latrophilin (LAT) receptor. We examined mechanisms of action of emodepside in a parasitic nematode, Ascaris suum.

EXPERIMENTAL APPROACH

RT-PCR was used to investigate expression of slo-1 and lat-1 in A. suum muscle flaps, and two-micropipette current-clamp and voltage-clamp techniques were used to record electrophysiological effects of emodepside.

KEY RESULTS

Expression of slo-1 and lat-1 were detected. Emodepside produced a slow time-dependent (20 min), 4-aminopyridine sensitive, concentration-dependent hyperpolarization and increase in voltage-activated K currents. Sodium nitroprusside increased the hyperpolarizations and K currents. N-nitro-L-arginine inhibited the hyperpolarizations and K currents. Phorbol-12-myristate-13 acetate increased the K currents, while staurosporine inhibited the hyperpolarizations and K currents. Iberiotoxin reduced these emodepside K currents. The effect of emodepside was reduced in Ca-free solutions. Emodepside had no effect on voltage-activated Ca currents.

CONCLUSIONS AND IMPLICATIONS

Asu-slo-1 and Asu-lat-1 are expressed in adult A. suum muscle flaps and emodepside produces slow activation of voltage-activated Ca-dependent SLO-1-like K channels. The effect of emodepside was enhanced by stimulation of protein kinase C and NO pathways. The data are consistent with a model in which NO, PKC and emodepside signalling pathways are separate and converge on the K channels, or in which emodepside activates NO and PKC signalling pathways to increase opening of the K channels.

摘要

背景与目的

抗蠕虫药是治疗和预防人体和家畜线虫寄生虫的必需药物。依美普肽是一种新型的环八肽驱虫药,其作用机制新颖,涉及秀丽隐杆线虫中的钙激活钾通道(SLO-1),有时由拉普罗林(LAT)受体介导。我们研究了依美普肽在寄生性线虫猪蛔虫中的作用机制。

实验方法

采用 RT-PCR 检测 slo-1 和 lat-1 在猪蛔虫肌肉瓣中的表达,并用双微电极电流钳和电压钳技术记录依美普肽的电生理效应。

主要结果

检测到 slo-1 和 lat-1 的表达。依美普肽产生缓慢的时间依赖性(20 分钟)、4-氨基吡啶敏感、浓度依赖性超极化和电压激活的 K 电流增加。硝普钠增加超极化和 K 电流。N-硝基-L-精氨酸抑制超极化和 K 电流。佛波醇 12-肉豆蔻酸 13-乙酸酯增加 K 电流,而 staurosporine 抑制超极化和 K 电流。 Iberiotoxin 减少了这些依美普肽 K 电流。无钙溶液中依美普肽的作用减弱。依美普肽对电压激活的 Ca 电流没有影响。

结论和意义

Asu-slo-1 和 Asu-lat-1 在猪蛔虫成虫肌肉瓣中表达,依美普肽产生缓慢激活电压激活的 Ca 依赖性 SLO-1 样 K 通道。蛋白激酶 C 和 NO 途径的刺激增强了依美普肽的作用。这些数据与一种模型一致,即 NO、PKC 和依美普肽信号通路是独立的,并汇集到 K 通道上,或者依美普肽激活 NO 和 PKC 信号通路以增加 K 通道的开放。

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