Involvement of interaction of Cav3.2 and nociceptive TRPA1 in pathological pain transmission

Biomedical research Pub Date : 2024-02-06 DOI:10.2220/biomedres.45.45

Minami NAKAGAWA, Kenji TAKAHASHI, Yuki NISHIZAWA, Toshio OHTA

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Abstract

T-type Ca2+ channels and TRPA1 expressed in sensory neurons are involved in pain. We previously demonstrated a functional interaction of these channels under physiological conditions. Here we investigated the possible involvement of these channels in inflammatory pain condition. We also evaluated the relationship of these channels endogenously expressed in RIN-14B, a rat pancreatic islet tumor cell line. In dorsal root ganglion (DRG) neurons innervated inflammatory side, [Ca2+]i increases induced by 15 mM KCl (15K) were enhanced in neurons responded to AITC. This enhancement was not observed in genetically TRPA1-deficient neurons. The T-type and AITC-induced currents were larger in neurons of the inflammatory side than in those of the control one. In DRGs of the inflammatory side, the protein expression of Cav3.2, but not TRPA1, was increased. In RIN-14B, 15K-induced [Ca2+]i increases were decreased by blockers of T-type Ca2+ channel and TRPA1, and by TRPA1-silencing. Immunoprecipitation suggested the coexistent of these channels in sensory neurons and RIN-14B. In mice with inflammation, mechanical hypersensitivity was suppressed by blockers of both channels. These data suggest that the interaction of Cav3.2 with TRPA1 in sensory neurons is enhanced via the augmentation of the activities of both channels under inflammatory conditions, indicating that both channels are therapeutic targets for inflammatory pain.

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Cav3.2 和痛觉 TRPA1 相互作用参与病理痛觉传递

感觉神经元中表达的 T 型 Ca2+ 通道和 TRPA1 与疼痛有关。我们之前证明了这些通道在生理条件下的功能相互作用。在此，我们研究了这些通道可能参与炎症性疼痛的情况。我们还评估了在大鼠胰岛肿瘤细胞系 RIN-14B 中内源性表达的这些通道之间的关系。在支配炎症侧的背根神经节（DRG）神经元中，15 mM KCl（15K）诱导的[Ca2+]i增加在对 AITC 有反应的神经元中得到增强。在基因 TRPA1 缺失的神经元中没有观察到这种增强。炎症侧神经元的 T 型电流和 AITC 诱导的电流大于对照侧神经元。在炎症侧的 DRGs 中，Cav3.2 蛋白表达增加，但 TRPA1 蛋白表达没有增加。在 RIN-14B 中，T 型 Ca2+ 通道和 TRPA1 的阻断剂以及 TRPA1 的沉默均可降低 15K 诱导的[Ca2+]i 升高。免疫沉淀表明这些通道在感觉神经元和 RIN-14B 中同时存在。在患有炎症的小鼠中，这两种通道的阻断剂抑制了机械过敏性。这些数据表明，在炎症条件下，Cav3.2与TRPA1在感觉神经元中的相互作用通过增强这两种通道的活性而得到加强，这表明这两种通道都是炎症性疼痛的治疗靶点。

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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Biomedical research

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