Role of voltage-gated sodium channels in axonal signal propagation of trigeminal ganglion neurons after infraorbital nerve entrapment

Q2 Medicine Neurobiology of Pain Pub Date : 2022-01-01 DOI:10.1016/j.ynpai.2022.100084
Yatendra Mulpuri , Toru Yamamoto , Ichiro Nishimura , Igor Spigelman
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引用次数: 2

Abstract

Chronic pain arising from peripheral nerve injuries represents a significant clinical challenge because even the most efficacious anticonvulsant drug treatments are limited by their side effects profile. We investigated pain behavior, changes in axonal signal conduction and excitability of trigeminal neurons, and expression of voltage-gated sodium channels (NaVs) in the infraorbital nerve and trigeminal ganglion (TG) after infraorbital nerve entrapment (IoNE). Compared to Sham, IoNE rats had increased A- and C-fiber compound action potentials (CAPs) and Aδ component of A-CAP area from fibers innervating the vibrissal pad. After IoNE, A- and C-fiber CAPs were more sensitive to blockade by tetrodotoxin (TTX), and those fibers that were TTX-resistant were more sensitive to blockade by the NaV1.8 selective blocker, A-803467. Although NaV1.7 blocker, ICA-121431 alone, did not affect Aδ-fiber signal propagation, cumulative application with A-803467 and 4,9-anhydro-TTX significantly reduced the Aδ-fiber CAP in IoNE rats. In patch clamp recordings from small- and medium-sized TG neurons, IoNE resulted in reduced action potential (AP) depolarizing current threshold, hyperpolarized AP voltage threshold, increased AP duration, and a more depolarized membrane potential. While the transcripts of most NaVs were reduced in the ipsilateral TG after IoNE, NaV1.3, NaV1.7, and NaV1.8 mRNAs, and NaV1.8 protein, were significantly increased in the nerve. Altogether, our data suggest that axonal redistribution of NaV1.8, and to a lesser extent NaV1.3, and NaV1.7 contributes to enhanced nociceptive signal propagation in peripheral nerve after IoNE.

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电压门控钠通道在眶下神经夹持后三叉神经节神经元轴突信号传播中的作用
周围神经损伤引起的慢性疼痛是一个重大的临床挑战,因为即使是最有效的抗惊厥药物治疗也受到其副作用的限制。我们研究了三叉神经夹压(IoNE)后的疼痛行为、三叉神经轴突信号传导和兴奋性的变化,以及眶下神经和三叉神经节(TG)中电压门控钠通道(nav)的表达。与Sham相比,IoNE大鼠的A-和c -纤维复合动作电位(CAPs)和A- cap区域的Aδ组分增加。经IoNE处理后,A-纤维和c -纤维的cap对河蟹毒素(TTX)的阻断更敏感,抗TTX的纤维对NaV1.8选择性阻断剂A-803467的阻断更敏感。虽然单独使用NaV1.7阻滞剂ICA-121431不影响a - δ纤维信号的传播,但A-803467和4,9-无水ttx的累积应用显著降低了IoNE大鼠的a - δ纤维CAP。在小、中型TG神经元的膜片钳记录中,IoNE导致动作电位(AP)去极化电流阈值降低,AP超极化电压阈值降低,AP持续时间增加,膜电位去极化增加。虽然IoNE后同侧TG中大多数nav的转录物减少,但神经中NaV1.3、NaV1.7和NaV1.8 mrna以及NaV1.8蛋白显著增加。综上所述,我们的数据表明,IoNE后,NaV1.8、NaV1.3和NaV1.7的轴突再分布有助于外周神经中伤害性信号的传播。
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来源期刊
Neurobiology of Pain
Neurobiology of Pain Medicine-Anesthesiology and Pain Medicine
CiteScore
4.40
自引率
0.00%
发文量
29
审稿时长
54 days
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