Stomatin-like protein 3 modulates the responses of Aδ, but not C fiber bone afferent neurons to noxious mechanical stimulation in an animal model of acute experimental bone pain.

IF 2.8 3区 医学 Q2 NEUROSCIENCES Molecular Pain Pub Date : 2023-01-01 DOI:10.1177/17448069231222407
Michael Morgan, Jenny Thai, Sara Nencini, James Xu, Jason J Ivanusic
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Abstract

STOML3 is a membrane bound scaffolding protein that has been shown to facilitate the opening of mechanically sensitive ion channels and contribute to noxious mechanical sensation, allodynia and hyperalgesia. In this study, we aimed to determine the role of STOML3 in noxious mechanical sensitivity of bone afferent neurons and carrageenan-induced acute inflammation in the bone. An in vivo, electrophysiological bone-nerve preparation was used to make recordings of the activity and sensitivity of bone afferent neurons that innervate the tibial marrow cavity in anaesthetised rats, in response to noxious mechanical stimuli delivered to the marrow cavity, before and after injection of either the STOML3 oligomerisation inhibitor OB-1 or vehicle, in either naïve animals or animals with carrageenan-induced inflammation of the marrow cavity. A dynamic weight-bearing apparatus was used to measure weight bearing in response to inflammatory pain before and after injection of OB-1 or saline into the tibial marrow cavity in the presence of carrageenan-induced inflammation. Electrophysiological recordings revealed that Aδ, but not C bone afferent neurons have a reduced discharge frequency in response to mechanical stimulation, and that carrageenan-induced sensitisation of Aδ, but not C bone afferent neurons was attenuated by inhibition of STOML3 oligomerisation with OB-1. Animals treated with OB-1 spent a significantly greater amount of time on the limb injected with carrageenan than animals treated with saline. Our findings demonstrate that inhibition of STOML3 oligomerisation reduces inflammatory bone pain by reducing the sensitivity of Aδ bone afferent neurons to mechanical stimulation. Targeting STOML3 may be an effective approach to reduce pain from noxious pressure and/or painful inflammatory pathology in bone.

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在急性实验性骨痛动物模型中,类黏蛋白3能调节Aδ纤维骨传入神经元对有害机械刺激的反应,但不能调节C纤维骨传入神经元对有害机械刺激的反应。
STOML3 是一种膜结合支架蛋白,已被证明可促进机械敏感性离子通道的开放,并有助于毒性机械感觉、异动症和痛觉减退。本研究旨在确定 STOML3 在骨传入神经元的有害机械敏感性和角叉菜胶诱导的骨急性炎症中的作用。我们使用了一种体内电生理骨神经制备方法,记录了麻醉大鼠在注射 STOML3 寡聚化抑制剂 OB-1 或药物前后,胫骨骨髓腔内支配骨传入神经元的活动和敏感性,这些神经元对传递到骨髓腔的有害机械刺激做出了反应。在角叉菜胶诱发炎症的胫骨骨髓腔注射OB-1或生理盐水前后,使用动态负重仪测量负重对炎症疼痛的反应。电生理记录显示,Aδ骨传入神经元(而非 C 骨传入神经元)对机械刺激的放电频率降低,而用 OB-1 抑制 STOML3 的寡聚化后,角叉菜胶诱导的 Aδ骨传入神经元(而非 C 骨传入神经元)的敏感性减弱。用 OB-1 处理的动物在注射卡拉胶的肢体上花费的时间明显多于用生理盐水处理的动物。我们的研究结果表明,抑制 STOML3 的寡聚化可以降低 Aδ 骨传入神经元对机械刺激的敏感性,从而减轻炎性骨痛。以 STOML3 为靶点可能是减轻有害压力和/或骨炎性病变引起的疼痛的有效方法。
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来源期刊
Molecular Pain
Molecular Pain 医学-神经科学
CiteScore
5.60
自引率
3.00%
发文量
56
审稿时长
6-12 weeks
期刊介绍: Molecular Pain is a peer-reviewed, open access journal that considers manuscripts in pain research at the cellular, subcellular and molecular levels. Molecular Pain provides a forum for molecular pain scientists to communicate their research findings in a targeted manner to others in this important and growing field.
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