Humanized NaV1.8 rats overcome cross-species potency shifts in developing novel NaV1.8 inhibitors

Q2 Medicine

Neurobiology of Pain Pub Date : 2025-03-06 DOI:10.1016/j.ynpai.2025.100182

Dillon S. McDevitt , Joshua D. Vardigan , Xiaoping Zhou , Thomas W. Rosahl , Heather Zhou , Eric A. Price , Michelle K. Clements , Yuxing Li , Nissi Varghese , Alicja Krasowska-Zoladek , Shawn J. Stachel , Michael J. Breslin , Christopher S. Burgey , Richard L. Kraus , Parul S. Pall , Darrell A. Henze , Vincent P. Santarelli

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Abstract

Voltage-gated sodium channel isoform 1.8 (Na_V1.8) has emerged as a promising pharmaceutical target for the treatment of acute and chronic pain. However, highly selective and potent inhibitors for this channel have been difficult to develop and only recently have advanced to clinical testing. Our efforts to develop Na_V1.8 small molecule inhibitors yielded a series of molecules with favorable in vitro potency and selectivity against the human Na_V1.8 channel but exhibited dramatic rightward potency shifts against the rodent channel, severely limiting in vivo screening and candidate selection. In anticipation of supporting drug discovery efforts, a transgenic rat line expressing the human Na_V1.8 channel in lieu of the rodent channel was developed. Utilizing these humanized animals, the in vitro potency of our chemical matter in freshly isolated humanized rat DRG neurons was consistent with in vitro human potency values, enabling in vivo work to progress. We demonstrate capsaicin-induced nocifensive behaviors (CNB) as a moderate throughput in vivo screening assay, from which we demonstrate pharmacokinetic-pharmacodynamic (PK-PD) and in vitro-in vivo correlation (IVIVC) relationships. We identified MSD199 as a potent Na_V1.8 inhibitor with acute pain efficacy and assessed it in traditional inflammatory (Complete Freund’s Adjuvant) and neuropathic (spinal nerve ligation) behavioral chronic pain assays where it was shown to significantly reduce pain-related behaviors. Overall, we demonstrate the utility of humanized transgenic animals when cross-species potency shifts are observed within an otherwise promising chemical series.

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人源化的NaV1.8大鼠在开发新型NaV1.8抑制剂时克服了跨物种的效力变化

电压门控钠通道异构体1.8 （NaV1.8）已成为治疗急慢性疼痛的一个有前途的药物靶点。然而，这一通道的高选择性和强效抑制剂一直难以开发，直到最近才进入临床试验阶段。我们努力开发的NaV1.8小分子抑制剂产生了一系列对人类NaV1.8通道具有良好的体外效力和选择性的分子，但对啮齿动物通道表现出明显的右移效力，严重限制了体内筛选和候选物的选择。为了支持药物发现工作，开发了一种表达人类NaV1.8通道的转基因大鼠系来代替啮齿动物通道。利用这些人源化动物，我们的化学物质在新分离的人源化大鼠DRG神经元中的体外效力值与体外人效力值一致，使体内工作得以进行。我们证明了辣椒素诱导的有害行为（CNB）是一种中等通量的体内筛选试验，从中我们证明了药代动力学-药效学（PK-PD）和体外-体内相关（IVIVC）关系。我们确定MSD199是一种有效的NaV1.8抑制剂，具有急性疼痛疗效，并在传统的炎症（完全弗氏佐剂）和神经性（脊神经结扎）行为慢性疼痛试验中对其进行了评估，结果显示，MSD199可显著减少疼痛相关行为。总的来说，我们证明了当在其他有前途的化学系列中观察到跨物种效力变化时，人源化转基因动物的效用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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