Exercise Fatigue Induce the Oxidative Stress and the Expression of mGluR 4 and mGluR 5 on the Ventrolateral Thalamus in Rats

CONVERTER Pub Date : 2021-07-29 DOI:10.17762/converter.283
Meihua Su, Yong Mao, Dan Xu
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Abstract

Objective: The motor thalamus plays an important role during exercise. It aims to observe the changes of mGluR4 and mGluR5 in ventrolateral thalamus of rats induced by repeated exhaustive exercise, and to discuss the relationship of mGluR4, mGluR5 and oxidative damage occured during exhaustive exercise. Methods: There were 48 male wistar rats, which were randomly divided into four groups including CG, 0EG, 24EG and 48 EG, each group having 12 rats. Meanwhile, immunohistochemistry (IMM) technique was used to investigate the expression of positive cell and integrated optical density (IOD) of metabotropic glutamate receptor 4 (mGluR4) and metabotropic glutamate receptor 5 (mGluR5), and the impact of exhaustive exercise played on oxidative stress indexes such as malondialdehyde (MDA), glutathione peroxidase (GSH-PX) and superoxide dismutase (SOD) in ventrolateral thalamus of rats were also investigated in different groups. Results: Compared with CG, the expression of mGluR4 and mGluR5 protein of ventrolateral thalamus in 0EG and 24EG both significantly increased, and the value of mGluR4 in 48EG were still higher than control group, however the the value of mGluR5 in 48EG reduced to the rest level of control group. Meanwhile, the SOD activities of 0EG and 24EG group were significantly higher than the control group, and it was the same with GSH content in ventrolateral thalamus of rats. Meanwhile, MDA has been investigated that it increased significantly in 0EG and 24EG compared with control group, and the MDA level of 48EG was still significant higher than CG. Moreover, the indexes of muscle injury such as LD, CK and BUN all increased significantly post-exercise immediately and post-exercise 24 hours .Conclusion: Exercise fatigue could result in up-regulation of mGluR4 and mGluR5 and increace activity of SOD , GSH-PX and MDA in ventrolateral thalamus of rats, and it also induce the muscle injury by increase the level of LD, CK and BUN in serum, which suggested that ventrolateral thalamus was an important brain rigion to modulate the motor function, and mGluR4 and mGluR5 maybe two important receptors prevent from the increase of free radicals and muscle injury induced by exercise fatigue.
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运动疲劳诱导大鼠腹外侧丘脑氧化应激及mglur4和mglur5的表达
目的:运动丘脑在运动过程中发挥重要作用。观察反复穷尽运动诱导大鼠腹外侧丘脑mGluR4、mGluR5的变化,探讨mGluR4、mGluR5与穷尽运动中氧化损伤的关系。方法:雄性wistar大鼠48只,随机分为CG、0EG、24EG、48eg 4组,每组12只。同时,采用免疫组织化学(IMM)技术检测代谢性谷氨酸受体4 (mGluR4)和代谢性谷氨酸受体5 (mGluR5)的阳性细胞和综合光密度(IOD)的表达,并研究穷竭运动对不同组大鼠腹外侧丘脑丙二醛(MDA)、谷胱甘肽过氧化物酶(GSH-PX)、超氧化物歧化酶(SOD)等氧化应激指标的影响。结果:与CG相比,0EG和24EG大鼠腹侧丘脑mGluR4和mGluR5蛋白表达均显著升高,48EG大鼠mGluR4值仍高于对照组,48EG大鼠mGluR5值降至对照组水平。同时,0EG和24EG组SOD活性显著高于对照组,与大鼠腹外侧丘脑GSH含量相同。同时,我们研究了MDA在0EG和24EG组较对照组显著升高,48EG组的MDA水平仍显著高于CG组。运动后即刻及运动后24 h,肌肉损伤指标LD、CK、BUN均显著升高。运动疲劳可导致大鼠腹外侧丘脑mGluR4、mGluR5表达上调,SOD、GSH-PX、MDA活性升高,并通过提高血清LD、CK、BUN水平诱导肌肉损伤,提示腹外侧丘脑是调节运动功能的重要脑区,mGluR4和mGluR5可能是两个重要受体,可预防运动疲劳引起的自由基增加和肌肉损伤。
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