小鼠缺失 SGIP1 可减轻炎症引起的机械超敏反应。

IF 3.1 4区 医学 Q2 PHARMACOLOGY & PHARMACY
Oleh Durydivka, Martin Kuchar, Jaroslav Blahos
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引用次数: 0

摘要

背景:激活神经系统中的大麻素受体 1(CB1R)可调节急性和慢性疼痛的处理过程。CB1R 的活性受脱敏和内化调节。含 SH3 的类 GRB2 蛋白 3 交互蛋白 1(SGIP1)可抑制 CB1R 的内化。这导致脱敏后的受体与细胞膜上的 G 蛋白偶联受体激酶 3(GRK3)和β-arrestin 的结合增加并延长,并导致细胞外信号调节激酶 1/2(ERK1/2)通路的激活减少。小鼠遗传性缺失 SGIP1 会导致 CB1R 相关功能的改变,如焦虑样行为减少、大麻素四分体行为改变、急性痛觉减弱以及对镇痛剂的敏感性增加。在这项研究中,我们想知道 SGIP1 的缺失是否会影响小鼠的慢性痛觉以及 Δ9-四氢大麻酚(THC)和 WIN 55,212-2 (WIN)的镇痛效果。研究方法我们测量了野生型小鼠和 SGIP1 基因敲除小鼠后爪对压力增加的触觉反应。通过局部注射卡拉胶诱发小鼠爪部炎症。为了确定小鼠的机械敏感性,我们使用冯-弗雷(von Frey)电子仪器测量了小鼠爪子的退缩阈值(PWT),并测量了施加力的递增。结果显示动物对机械刺激的反应因性别、基因型和治疗方法而异。敲除 SGIP1 的雄性小鼠的 PWT 低于野生型雄性小鼠。相反,雌性小鼠的脉搏波速度相当。雄性小鼠经 THC 或 WIN 处理后,SGIP1 基因敲除雄性小鼠的脉搏波速度低于野生型雄性小鼠。对 SGIP1 基因敲除雌性小鼠进行 THC 处理后,其脉搏波速度高于对野生型雌性小鼠进行 THC 处理后的脉搏波速度。然而,SGIP1 基因敲除雌性小鼠和野生型雌性小鼠在 WIN 处理后表现出相似的脉搏波速度。结论我们提供的证据表明,SGIP1 可能通过与 CB1R 相互作用,参与处理对慢性疼痛的反应。SGIP1 的缺失会导致雄性小鼠对机械刺激的敏感性增强,而雌性小鼠则不会。在角叉菜胶诱导的慢性疼痛模型中,THC 对 SGIP1 基因敲除小鼠的抗痛觉作用优于 WIN。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SGIP1 Deletion in Mice Attenuates Mechanical Hypersensitivity Elicited by Inflammation.

Background: Activation of cannabinoid receptor 1 (CB1R) in the nervous system modulates the processing of acute and chronic pain. CB1R activity is regulated by desensitization and internalization. SH3-containing GRB2-like protein 3-interacting protein 1 (SGIP1) inhibits the internalization of CB1R. This causes increased and prolonged association of the desensitized receptor with G protein-coupled receptor kinase 3 (GRK3) and beta-arrestin on the cell membrane and results in decreased activation of extracellular signal-regulated kinase 1/2 (ERK1/2) pathway. Genetic deletion of SGIP1 in mice leads to altered CB1R-related functions, such as decreased anxiety-like behaviors, modified cannabinoid tetrad behaviors, reduced acute nociception, and increased sensitivity to analgesics. In this work, we asked if deletion of SGIP1 affects chronic nociception and analgesic effect of Δ9-tetrahydrocannabinol (THC) and WIN 55,212-2 (WIN) in mice. Methods: We measured tactile responses of hind paws to increasing pressure in wild-type and SGIP1 knock-out mice. Inflammation in the paw was induced by local injection of carrageenan. To determine the mechanical sensitivity, the paw withdrawal threshold (PWT) was measured using an electronic von Frey instrument with the progression of the applied force. Results: The responses to mechanical stimuli varied depending on the sex, genotype, and treatment. SGIP1 knock-out male mice exhibited lower PWT than wild-type males. On the contrary, the female mice exhibited comparable PWT. Following THC or WIN treatment in male mice, SGIP1 knock-out males exhibited PWT lower than wild-type males. THC treatment in SGIP1 knock-out females resulted in PWT higher than after THC treatment of wild-type females. However, SGIP1 knock-out and wild-type female mice exhibited similar PWT after WIN treatment. Conclusions: We provide evidence that SGIP1, possibly by interacting with CB1R, is involved in processing the responses to chronic pain. The absence of SGIP1 results in enhanced sensitivity to mechanical stimuli in males, but not females. The antinociceptive effect of THC is superior to that of WIN in SGIP1 knock-out mice in the carrageenan-induced model of chronic pain.

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来源期刊
Cannabis and Cannabinoid Research
Cannabis and Cannabinoid Research PHARMACOLOGY & PHARMACY-
CiteScore
6.80
自引率
7.90%
发文量
164
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