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Spider Knottin Pharmacology at Voltage-Gated Sodium Channels and Their Potential to Modulate Pain Pathways

机译：电压门控钠通道的Spider Knottin药理学及其调节疼痛途径的潜力

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摘要

Voltage-gated sodium channels (Na s) are a key determinant of neuronal signalling. Neurotoxins from diverse taxa that selectively activate or inhibit Na channels have helped unravel the role of Na channels in diseases, including chronic pain. Spider venoms contain the most diverse array of inhibitor cystine knot (ICK) toxins (knottins). This review provides an overview on how spider knottins modulate Na channels and describes the structural features and molecular determinants that influence their affinity and subtype selectivity. Genetic and functional evidence support a major involvement of Na subtypes in various chronic pain conditions. The exquisite inhibitory properties of spider knottins over key Na subtypes make them the best venom peptide leads for the development of novel analgesics to treat chronic pain.

机译：电压门控钠通道（Na s）是神经元信号传导的关键决定因素。选择性激活或抑制Na通道的多种类群的神经毒素已帮助阐明Na通道在疾病（包括慢性疼痛）中的作用。蜘蛛毒液中包含多种多样的抑制剂胱氨酸结（ICK）毒素（knottins）。这篇综述概述了蜘蛛结蛋白如何调节钠通道，并描述了影响其亲和力和亚型选择性的结构特征和分子决定簇。遗传和功能证据支持Na亚型主要参与各种慢性疼痛状况。蜘蛛结蛋白对关键的Na亚型具有出色的抑制特性，使其成为开发新型镇痛药以治疗慢性疼痛的最佳毒液肽。

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期刊名称 Toxins
作者
Yashad Dongol; Fernanda C. Cardoso; Richard J. Lewis;
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作者单位

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年(卷),期 2019(11),11
年度 2019
页码 -1
总页数 39
原文格式 PDF
正文语种
中图分类人体病毒学（致病病毒）;病毒（滤过性病毒）;
关键词
chronic pain; ICK peptide; knottins; Na;

机译：慢性疼痛;ICK肽;结蛋白;钠;

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专利

1. The insecticidal spider toxin SFI1 is a knottin peptide that blocks the pore of insect voltage-gated sodium channels via a large beta-hairpin loop [J] . Bende Niraj S., Dziemborowicz Slawomir, Herzig Volker, The FEBS journal . 2015,第5期

机译：杀虫蜘蛛毒素SFI1是一种结蛋白肽，可通过大的β-发夹环阻断昆虫电压门控钠通道的孔
2. Spider-venom peptides that target voltage-gated sodium channels: Pharmacological tools and potential therapeutic leads. [J] . Klint JK, Senff S, Rupasinghe DB, Toxicon: An International Journal Devoted to the Exchange of Knowledge on the Poisons Derived from Animals, Plants and Microorganisms . 2012,第4期

机译：靶向电压门控钠通道的蜘蛛毒肽：药理学工具和潜在的治疗先导。
3. Efficient Enzymatic Ligation of Inhibitor Cystine Knot Spider Venom Peptides: Using Sortase A To Form Double-Knottins That Probe Voltage-Gated Sodium Channel Na(v)1.7 [J] . Agwa Akello J., Blomster Linda V, Craik David J., Bioconjugate Chemistry . 2018,第10期

机译：高效酶联抑制剂胱氨酸结蜘蛛毒液肽：使用分子酶A形成探针电压门控钠通道Na（v）1.7的双旋钮
4. Single-channel properties of voltage-gated potassium and sodium channels [C] . Ozturk, E., Ozer, . 2005

机译：电压门控钾钠通道的单通道特性
5. Biophysical and pharmacological characterization of insect voltage-gated sodium channels. [D] . Zhao, Yong. 2001

机译：昆虫电压门控钠通道的生物物理和药理学表征。
6. Matrix Metalloproteinase (MMP) Proteolysis of the Extracellular Loop of Voltage-gated Sodium Channels and Potential Alterations in Pain Signaling [O] . Albert G. Remacle, Sonu Kumar, Khatereh Motamedchaboki, 2015

机译：电压门控钠通道的细胞外环的基质金属蛋白酶（MMP）蛋白水解和疼痛信号转导中的潜在变化。
7. The insecticidal spider toxin SFI1 is a knottin peptide that blocks the pore of insect voltage-gated sodium channels via a large β-hairpin loop [O] . Bende, Niraj S., Dziemborowicz, Sławomir, Herzig, Volker, 2015

机译：杀虫蜘蛛毒素SFI1是一种结蛋白肽，可通过大的β-发夹环封闭昆虫电压门控性钠离子通道的孔

Spider Knottin Pharmacology at Voltage-Gated Sodium Channels and Their Potential to Modulate Pain Pathways

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