钠通道
药理学
钠通道阻滞剂
蝎子毒
止痛药
骨骼肌
毒液
离子通道
心肌
肽
化学
生物信息学
蝎子
医学
生物
钠
生物化学
内科学
受体
有机化学
作者
Fan Zhao,Liangyi Fang,Qi Wang,Qi Ye,Yanan He,Weizhuo Xu,Yongbo Song
出处
期刊:Toxins
[MDPI AG]
日期:2022-12-31
卷期号:15 (1): 33-33
被引量:2
标识
DOI:10.3390/toxins15010033
摘要
Voltage-gated sodium channels (VGSCs, or Nav) are important determinants of action potential generation and propagation. Efforts are underway to develop medicines targeting different channel subtypes for the treatment of related channelopathies. However, a high degree of conservation across its nine subtypes could lead to the off-target adverse effects on skeletal and cardiac muscles due to acting on primary skeletal muscle sodium channel Nav1.4 and cardiac muscle sodium channel Nav1.5, respectively. For a long evolutionary process, some peptide toxins from venoms have been found to be highly potent yet selective on ion channel subtypes and, therefore, hold the promising potential to be developed into therapeutic agents. In this research, all-atom molecular dynamic methods were used to elucidate the selective mechanisms of an analgesic-antitumor β-scorpion toxin (AGAP) with human Nav1.4 and Nav1.5 in order to unravel the primary reason for the production of its adverse reactions on the skeletal and cardiac muscles. Our results suggest that the rational distribution of residues with ring structures near position 38 and positive residues in the C-terminal on AGAP are critical factors to ensure its analgesic efficacy. Moreover, the substitution for residues with benzene is beneficial to reduce its side effects.
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