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慢性应激后,空泡型质子泵(V-ATPase)介导的肌肉酸化导致大鼠肌肉机械性伤害感受过敏,涉及细胞外基质蛋白聚糖和 ASIC3。

Vacuolar-ATPase-mediated muscle acidification caused muscular mechanical nociceptive hypersensitivity after chronic stress in rats, which involved extracellular matrix proteoglycan and ASIC3.

机构信息

Department of Biomedical Sciences, College of Life and Health Sciences, Chubu University, Matsumoto-Cho, Kasugai, 487-8501, Japan.

Graduate School of Life and Health Sciences, Chubu University, Matsumoto-Cho, Kasugai, 487-8501, Japan.

出版信息

Sci Rep. 2023 Aug 21;13(1):13585. doi: 10.1038/s41598-023-39633-1.

DOI:10.1038/s41598-023-39633-1
PMID:37604935
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10442418/
Abstract

Although widespread pain, such as fibromyalgia, is considered to have a central cause, peripheral input is important. We used a rat repeated cold stress (RCS) model with many characteristics common to fibromyalgia and studied the possible involvement of decreased muscle pH in muscle mechanical hyperalgesia. After a 5-day RCS, the muscle pH and the muscular mechanical withdrawal threshold (MMWT) decreased significantly. Subcutaneously injected specific inhibitor of vacuolar ATPase (V-ATPase), bafilomycin A1, reversed both changes almost completely. It also reversed the increased mechanical response of muscle thin-fibre afferents after RCS. These results show that V-ATPase activation caused muscle pH drop, which led to mechanical hypersensitivity after RCS. Since extracellular matrix proteoglycan and acid sensitive ion channels (TRPV1 and ASIC3) have been considered as possible mechanisms for sensitizing/activating nociceptors by protons, we investigated their involvement. Manipulating the extracellular matrix proteoglycan with chondroitin sulfate and chondroitinase ABC reversed the MMWT decrease after RCS, supporting the involvement of the extracellular mechanism. Inhibiting ASIC3, but not TRPV1, reversed the decreased MMWT after RCS, and ASIC3 mRNA and protein in the dorsal root ganglia were upregulated, indicating ASIC3 involvement. These findings suggest that extracellular mechanism and ASIC3 play essential roles in proton-induced mechanical hyperalgesia after RCS.

摘要

尽管广泛的疼痛,如纤维肌痛,被认为有一个中枢原因,但外周输入很重要。我们使用了一种具有许多纤维肌痛共同特征的大鼠反复冷应激(RCS)模型,并研究了肌肉 pH 值降低在肌肉机械性痛觉过敏中的可能作用。在 5 天的 RCS 后,肌肉 pH 值和肌肉机械性撤回阈值(MMWT)显著降低。皮下注射液泡型三磷酸腺苷酶(V-ATPase)的特异性抑制剂巴弗洛霉素 A1 几乎完全逆转了这两种变化。它还逆转了 RCS 后肌肉细纤维传入纤维机械反应的增加。这些结果表明,V-ATPase 的激活导致肌肉 pH 值下降,从而导致 RCS 后的机械性敏感性增加。由于细胞外基质蛋白聚糖和酸敏感离子通道(TRPV1 和 ASIC3)已被认为是质子使伤害感受器敏化/激活的可能机制,因此我们研究了它们的参与。用硫酸软骨素和软骨素酶 ABC 处理细胞外基质蛋白聚糖,可逆转 RCS 后 MMWT 的降低,支持细胞外机制的参与。抑制 ASIC3,但不是 TRPV1,可逆转 RCS 后 MMWT 的降低,并且背根神经节中的 ASIC3 mRNA 和蛋白上调,表明 ASIC3 的参与。这些发现表明,细胞外机制和 ASIC3 在 RCS 后质子诱导的机械性痛觉过敏中起关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/03e5/10442418/ff029203942c/41598_2023_39633_Fig10_HTML.jpg
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