Optimizing Nav1.7‐Targeted Analgesics: Revealing Off‐Target Effects of Spider Venom‐Derived Peptide Toxins and Engineering Strategies for Improvement

药效团 蜘蛛毒素 毒液 药理学 化学 钠通道 受体 生物 生物化学 谷氨酸受体 有机化学
作者
Sen Luo,Xi Zhou,Meijing Wu,Gongxin Wang,Li Wang,Xujun Feng,Hang Wu,Ren C. Luo,Minjuan Lu,Junxian Ju,Wenxing Wang,Lei Yuan,Xiaoqing Luo,Dezheng Peng,Li Yang,Qingfeng Zhang,Minzhi Chen,Songping Liang,Xiuming Dong,Guoliang Hao
出处
期刊:Advanced Science [Wiley]
卷期号:11 (42): e2406656-e2406656 被引量:8
标识
DOI:10.1002/advs.202406656
摘要

The inhibition of Nav1.7 is a promising strategy for the development of analgesic treatments. Spider venom-derived peptide toxins are recognized as significant sources of Nav1.7 inhibitors. However, their development has been impeded by limited selectivity. In this study, eight peptide toxins from three distinct spider venom Nav channel families demonstrated robust inhibition of hNav1.7, rKv4.2, and rKv4.3 (rKv4.2/4.3) currents, exhibiting a similar mode of action. The analysis of structure and function relationship revealed a significant overlap in the pharmacophore responsible for inhibiting hNav1.7 and rKv4.2 by HNTX-III, although Lys25 seems to play a more pivotal role in the inhibition of rKv4.2/4.3. Pharmacophore-guided rational design is employed for the development of an mGpTx1 analogue, mGpTx1-SA, which retains its inhibition of hNav1.7 while significantly reducing its inhibition of rKv4.2/4.3 and eliminating cardiotoxicity. Moreover, mGpTx1-SA demonstrates potent analgesic effects in both inflammatory and neuropathic pain models, accompanied by an improved in vivo safety profile. The results suggest that off-target inhibition of rKv4.2/4.3 by specific spider peptide toxins targeting hNav1.7 may arise from a conserved binding motif. This insight promises to facilitate the design of hNav1.7-specific analgesics, aimed at minimizing rKv4.2/4.3 inhibition and associated toxicity, thereby enhancing their suitability for therapeutic applications.
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