Intraplantar aminoglutethimide, a P450scc inhibitor, reduced the induction of mechanical allodynia in a rat model of thrombus-induced ischemic pain.

IF 3.3 3区医学 Q2 NEUROSCIENCES

Molecular Brain Pub Date : 2024-08-02 DOI:10.1186/s13041-024-01125-2

Soon-Gu Kwon, Hoon-Seong Choi, Seo-Yeon Yoon, Dae-Hyun Roh, Jang-Hern Lee

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引用次数: 0

Abstract

Neuroactive steroids (NASs) directly affect neuronal excitability. Despite their role in the nervous system is intimately linked to pain control, knowledge is currently limited. This study investigates the peripheral involvement of NASs in chronic ischemic pain by targeting the cytochrome P450 side-chain cleavage enzyme (P450scc). Using a rat model of hind limb thrombus-induced ischemic pain (TIIP), we observed an increase in P450scc expression in the ischemic hind paw skin. Inhibiting P450scc with intraplantar aminoglutethimide (AMG) administration from post-operative day 0 to 3 significantly reduced the development of mechanical allodynia. However, AMG administration from post-operative day 3 to 6 did not affect established mechanical allodynia. In addition, we explored the role of the peripheral sigma-1 receptor (Sig-1R) by co-administering PRE-084 (PRE), a Sig-1R agonist, with AMG. PRE reversed the analgesic effects of AMG during the induction phase. These findings indicate that inhibiting steroidogenesis with AMG alleviates peripheral ischemic pain during the induction phase via Sig-1Rs.

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在血栓诱发缺血性疼痛的大鼠模型中，P450scc抑制剂氨鲁米特可减少机械异感的诱导。

神经活性类固醇（NAs）直接影响神经元的兴奋性。尽管神经活性类固醇在神经系统中的作用与疼痛控制密切相关，但目前人们对其的了解还很有限。本研究以细胞色素P450侧链裂解酶（P450scc）为靶点，研究NASs在慢性缺血性疼痛中的外周参与。利用大鼠后肢血栓诱发缺血性疼痛（TIIP）模型，我们观察到缺血后爪皮肤中 P450scc 的表达增加。从术后第 0 天到第 3 天，通过氨鲁米特（AMG）跖内给药抑制 P450scc，可显著减少机械异感的发生。然而，在术后第 3 到 6 天服用 AMG 并不会影响已建立的机械异感。此外，我们还探索了外周σ-1受体（Sig-1R）的作用，将Sig-1R激动剂PRE-084（PRE）与AMG联合给药。在诱导阶段，PRE 逆转了 AMG 的镇痛作用。这些研究结果表明，用 AMG 抑制类固醇生成可通过 Sig-1R 缓解诱导阶段的外周缺血性疼痛。

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

Molecular Brain NEUROSCIENCES-

CiteScore

7.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Molecular Brain is an open access, peer-reviewed journal that considers manuscripts on all aspects of studies on the nervous system at the molecular, cellular, and systems level providing a forum for scientists to communicate their findings. Molecular brain research is a rapidly expanding research field in which integrative approaches at the genetic, molecular, cellular and synaptic levels yield key information about the physiological and pathological brain. These studies involve the use of a wide range of modern techniques in molecular biology, genomics, proteomics, imaging and electrophysiology.