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Pain. 2021 Feb 1;162(2):609-618. doi: 10.1097/j.pain.0000000000002043.
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ARRIVE 2.0 and the British Journal of Pharmacology: Updated guidance for 2020.ARRIVE 2.0与《英国药理学期刊》:2020年更新指南
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新型带电荷钠离子通道阻滞剂抑制炎性痛和咳嗽。

Inhibition of inflammatory pain and cough by a novel charged sodium channel blocker.

机构信息

F.M. Kirby Neurobiology Research Center, Boston Children's Hospital, Boston, Massachusetts, USA.

Department of Neurobiology, Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Br J Pharmacol. 2021 Oct;178(19):3905-3923. doi: 10.1111/bph.15531. Epub 2021 Jun 21.

DOI:10.1111/bph.15531
PMID:33988876
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8643097/
Abstract

BACKGROUND AND PURPOSE

Many pain-triggering nociceptor neurons express TRPV1 or TRPA1, cation-selective channels with large pores that enable permeation of QX-314, a cationic analogue of lidocaine. Co-application of QX-314 with TRPV1 or TRPA1 activators can silence nociceptors. In this study, we describe BW-031, a novel more potent cationic sodium channel inhibitor, and test whether its application alone can inhibit pain associated with tissue inflammation and whether this strategy can also inhibit cough.

EXPERIMENTAL APPROACH

We tested the ability of BW-031 to inhibit pain in three models of tissue inflammation:- inflammation in rat paws produced by complete Freund's adjuvant or by surgical incision and a mouse ultraviolet (UV) burn model. We tested the ability of BW-031 to inhibit cough induced by inhalation of dilute citric acid in guinea pigs.

KEY RESULTS

BW-031 inhibited Na 1.7 and Na 1.1 channels with approximately sixfold greater potency than QX-314 when introduced inside cells. BW-031 inhibited inflammatory pain in all three models tested, producing more effective and longer-lasting inhibition of pain than QX-314 in the mouse UV burn model. BW-031 was effective in reducing cough counts by 78%-90% when applied intratracheally under isoflurane anaesthesia or by aerosol inhalation in guinea pigs with airway inflammation produced by ovalbumin sensitization.

CONCLUSION AND IMPLICATIONS

BW-031 is a novel cationic sodium channel inhibitor that can be applied locally as a single agent to inhibit inflammatory pain. BW-031 can also effectively inhibit cough in a guinea pig model of citric acid-induced cough, suggesting a new clinical approach to treating cough.

摘要

背景与目的

许多引发疼痛的伤害感受器神经元表达 TRPV1 或 TRPA1,这两种阳离子选择性通道都具有大的孔,允许 QX-314 通透,QX-314 是利多卡因的阳离子类似物。TRPV1 或 TRPA1 激动剂与 QX-314 共同应用可使伤害感受器失活。在本研究中,我们描述了 BW-031,一种新型的、更强效的阳离子钠离子通道抑制剂,并检验了其单独应用是否能抑制与组织炎症相关的疼痛,以及这种策略是否也能抑制咳嗽。

实验方法

我们在三种组织炎症模型中测试了 BW-031 抑制疼痛的能力:完全弗氏佐剂或手术切口引起的大鼠足部炎症,以及小鼠紫外线(UV)烧伤模型。我们在豚鼠中通过吸入稀释柠檬酸来测试 BW-031 抑制咳嗽的能力。

主要结果

BW-031 对 Na 1.7 和 Na 1.1 通道的抑制作用比 QX-314 强约六倍,当 BW-031 被引入细胞内时。BW-031 抑制所有三种模型中的炎症性疼痛,在小鼠 UV 烧伤模型中,BW-031 对疼痛的抑制作用更有效、持续时间更长。BW-031 经气管内给药或经气道炎症豚鼠雾化吸入卵清蛋白致敏时,在抑制咳嗽次数方面的效果分别为 78%-90%,可有效降低咳嗽次数。

结论与意义

BW-031 是一种新型的阳离子钠离子通道抑制剂,可作为单一药物局部应用以抑制炎症性疼痛。BW-031 还可以有效地抑制柠檬酸诱导的咳嗽的豚鼠模型中的咳嗽,提示了一种治疗咳嗽的新临床方法。