Frontiers | Disease-Modifying rdHSV-CA8* Non-Opioid Analgesic Gene Therapy Treats Chronic Osteoarthritis Pain by Activating Kv7 Voltage-Gated Potassium Channels

IF 3.5 3区医学 Q2 NEUROSCIENCES

Frontiers in Molecular Neuroscience Pub Date : 2024-06-13 DOI:10.3389/fnmol.2024.1416148

Gerald Z. Zhuang, William F. Goins, Munal Kandel, Marco Marzulli, Mingdi Zhang, Joseph C. Glorioso, Yuan Kang, Alexandra E. Levitt, Konstantinos D. Sarantopoulos, Roy C. Levitt

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Abstract

Chronic pain is common in our population, and most of these patients are inadequately treated, making the development of safer analgesics a high priority. Knee osteoarthritis (OA) is a primary cause of chronic pain and disability worldwide, and lower extremity OA is a major contributor to loss of quality-adjusted life-years. In this study we tested the hypothesis that a novel JDNI8 replication-defective herpes simplex-1 viral vector (rdHSV) incorporating a modified carbonic anhydrase-8 transgene (CA8*) produces analgesia and treats monoiodoacetate-induced (MIA) chronic knee pain due to OA. We observed transduction of lumbar DRG sensory neurons with these viral constructs (vHCA8*) (~40% of advillin-positive cells and ~ 50% of TrkA-positive cells colocalized with V5-positive cells) using the intra-articular (IA) knee joint (KJ) route of administration. vHCA8* inhibited chronic mechanical OA knee pain induced by MIA was dose- and time-dependent. Mechanical thresholds returned to Baseline by D17 after IA KJ vHCA8* treatment, and exceeded Baseline (analgesia) through D65, whereas negative controls failed to reach Baseline responses. Weight-bearing and automated voluntary wheel running were improved by vHCA8*, but not negative controls. Kv7 voltage-gated potassium channel-specific inhibitor XE-991 reversed vHCA8*-induced analgesia. Using IHC, IA KJ of vHCA8* activated DRG Kv7 channels via dephosphorylation, but negative controls failed to impact Kv7 channels. XE-991 stimulated Kv7.2–7.5 and Kv7.3 phosphorylation using western blotting of differentiated SH-SY5Y cells, which was inhibited by vHCA8* but not by negative controls. The observed prolonged dose-dependent therapeutic effects of IA KJ administration of vHCA8* on MIA-induced chronic KJ pain due to OA is consistent with the specific activation of Kv7 channels in small DRG sensory neurons. Together, these data demonstrate for the first-time local IA KJ administration of vHCA8* produces opioid-independent analgesia in this MIA-induced OA chronic pain model, supporting further therapeutic development.

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疾病修饰rdHSV-CA8*非阿片类镇痛剂基因疗法通过激活Kv7电压门控钾通道治疗慢性骨关节炎疼痛

慢性疼痛在我国人口中很常见，但大多数患者都没有得到适当的治疗，因此开发更安全的镇痛药成为当务之急。膝关节骨关节炎（OA）是全球慢性疼痛和残疾的主要原因，下肢OA是造成质量调整生命年损失的主要因素。在这项研究中，我们测试了这样一个假设：一种新型的 JDNI8 复制缺陷单纯疱疹-1 病毒载体（rdHSV）含有改良的碳酸酐酶-8 转基因（CA8*），它能产生镇痛作用并治疗单碘乙酸盐诱导的慢性膝关节疼痛。我们通过膝关节内（IA）给药途径观察到腰椎DRG感觉神经元转导了这些病毒构建体（vHCA8*）（约40%的Advillin阳性细胞和约50%的TrkA阳性细胞与V5阳性细胞共定位）。经IA KJ vHCA8*治疗后，机械阈值在D17时恢复到基线，并在D65时超过基线（镇痛），而阴性对照组未能达到基线反应。vHCA8*能改善负重和自动自主轮跑，而阴性对照组则不能。Kv7 电压门控钾通道特异性抑制剂 XE-991 逆转了 vHCA8* 诱导的镇痛。通过 IHC 检测，vHCA8* 的 IA KJ 可通过去磷酸化激活 DRG Kv7 通道，但阴性对照组未能影响 Kv7 通道。通过对分化的SH-SY5Y细胞进行Western印迹，XE-991可刺激Kv7.2-7.5和Kv7.3磷酸化，vHCA8*可抑制磷酸化，而阴性对照组则不能抑制磷酸化。vHCA8* 的 IA KJ 给药对 OA 引起的 MIA 诱导的慢性 KJ 疼痛具有长期剂量依赖性治疗效果，这与 Kv7 通道在小 DRG 感觉神经元中的特异性激活是一致的。总之，这些数据首次证明了在MIA诱导的OA慢性疼痛模型中，局部IA KJ给药vHCA8*可产生阿片类药物依赖性镇痛，支持进一步的治疗开发。

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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来源期刊

Frontiers in Molecular Neuroscience NEUROSCIENCES-

CiteScore

5.70

自引率

2.10%

发文量

669

审稿时长

14 weeks

期刊介绍： Frontiers in Molecular Neuroscience is a first-tier electronic journal devoted to identifying key molecules, as well as their functions and interactions, that underlie the structure, design and function of the brain across all levels. The scope of our journal encompasses synaptic and cellular proteins, coding and non-coding RNA, and molecular mechanisms regulating cellular and dendritic RNA translation. In recent years, a plethora of new cellular and synaptic players have been identified from reduced systems, such as neuronal cultures, but the relevance of these molecules in terms of cellular and synaptic function and plasticity in the living brain and its circuits has not been validated. The effects of spine growth and density observed using gene products identified from in vitro work are frequently not reproduced in vivo. Our journal is particularly interested in studies on genetically engineered model organisms (C. elegans, Drosophila, mouse), in which alterations in key molecules underlying cellular and synaptic function and plasticity produce defined anatomical, physiological and behavioral changes. In the mouse, genetic alterations limited to particular neural circuits (olfactory bulb, motor cortex, cortical layers, hippocampal subfields, cerebellum), preferably regulated in time and on demand, are of special interest, as they sidestep potential compensatory developmental effects.