用基于蜘蛛毒液的工程肽选择性靶向 Nav1.7。

Robert A Neff, Alan D Wickenden
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引用次数: 0

摘要

驱动神经系统中电信号传播的一个基本机制是激活电压门控钠通道。钠通道亚型 Nav1.7 对于疼痛相关信号的传递至关重要,Nav1.7 的功能增益突变会导致各种疼痛病症。功能缺失突变会导致神经系统功能正常的人对疼痛和嗅觉障碍完全不敏感,从而使 Nav1.7 成为治疗疼痛的一个有吸引力的靶点。尽管如此,迄今为止还没有一种 Nav1.7 选择性疗法被批准用作镇痛剂。在此,我们总结了有关将蜘蛛毒液中的肽工程化以生产 Nav1.7 选择性拮抗剂的研究。我们讨论了在不同毒液家族的各种支架上取得的进展,并强调了在生产 Nav1.7 选择性毒液型镇痛药方面仍然存在的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Selective Targeting of Nav1.7 with Engineered Spider Venom-Based Peptides.

Selective Targeting of Nav1.7 with Engineered Spider Venom-Based Peptides.

Selective Targeting of Nav1.7 with Engineered Spider Venom-Based Peptides.

Selective Targeting of Nav1.7 with Engineered Spider Venom-Based Peptides.

A fundamental mechanism that drives the propagation of electrical signals in the nervous system is the activation of voltage-gated sodium channels. The sodium channel subtype Nav1.7 is critical for the transmission of pain-related signaling, with gain-of-function mutations in Nav1.7 resulting in various painful pathologies. Loss-of-function mutations cause complete insensitivity to pain and anosmia in humans that otherwise have normal nervous system function, rendering Nav1.7 an attractive target for the treatment of pain. Despite this, no Nav1.7 selective therapeutic has been approved for use as an analgesic to date. Here we present a summary of research that has focused on engineering peptides found in spider venoms to produce Nav1.7 selective antagonists. We discuss the progress that has been made on various scaffolds from different venom families and highlight the challenges that remain in the effort to produce a Nav1.7 selective, venom-based analgesic.

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