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首页> 外文期刊>Research and Reviews in BioSciences >Alterations of testicular selenium-dependent and independent glutathione peroxidase activities during experimentally L-thyroxine induced hyperthyroidism and n-propyl thiouracil induced hypothyroidism in adult rats
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Alterations of testicular selenium-dependent and independent glutathione peroxidase activities during experimentally L-thyroxine induced hyperthyroidism and n-propyl thiouracil induced hypothyroidism in adult rats

机译:实验性L-甲状腺素诱发甲状腺功能亢进和正丙基硫氧嘧啶诱发甲状腺功能减退的过程中睾丸硒依赖性和独立性谷胱甘肽过氧化物酶活性的变化

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Hyper- and hypothyroidism states are known to alter testicular antioxidant defence parameters in adult as well as in immature rats. Glutathione peroxidases represent a family of enzymes which metabolizes toxic hydroperoxides and are, along with superoxide dismutase and catalase, part of the enzymatic antioxidant defenses to protect cells from free-radical-mediated attacks. In mammalian testis, total GPx activity is contributed by both Selenium-dependent glutathione peroxidases (Se-D GPxs) and the Se-independent glutathione peroxidaes (Se-I GPx). Due to persistent hypothyroidism, both Se-D-GPx and Se-I-GPx were reduced in adult testicular post-mitochondrial as well as in mitochondrial fraction (MF); while, during transient hypothyroidism, both Se-D-GPx and Se-I-GPx were reduced in adult testicular post-mitochondrial fraction (PMF) with only decrease in mitochondrial Se-D-GPx activity. However, both Se-dependent and Se-independent GPx activities elevated in adult testicular PMF of L-thyroxine treated(group- T_4), T_4 with vitamin E (group- T_4+Vit.E), T_4 along with curcumin and vitamin E (group-T_4+Cur+Vit.E) with only increase in SeD-GPx in T_4 with curcumin (group- T+Cur) treated rats. In case of MF, Se-dependent GPx showed no alteration in response to curcumin and/or vitamin E treatment to T_4 treated rats (groups-T+Cur, T_4+Vit.E and T_4+Cur+Vit.E), however its level increased in T_4 treated rats (group-T_4). Se-independent GPx elevated significantly in response to T_4 (group-T_4), T_4 with curcumin (group- T_4+Cur), T_4 with vitamin E (group- T_4+Vit.E) and T_4 along with curcumin and vitamin E (group- T_4+Cur+Vit.E) treated rats respectively. Hence, hypothyroid as well as hyperthyroid states influencing testicular Se-D- and Se-1- GPx activities along with other antioxidant defence enzymes, might regulate testicular physiology and oxidative stress.
机译:甲状腺功能亢进和甲状腺功能减退状态会改变成年和未成熟大鼠的睾丸抗氧化防御参数。谷胱甘肽过氧化物酶代表一类酶,其代谢有毒的氢过氧化物,并且与超氧化物歧化酶和过氧化氢酶一起,是酶促抗氧化剂防御的一部分,以保护细胞免受自由基介导的攻击。在哺乳动物的睾丸中,总的GPx活性是由硒依赖性谷胱甘肽过氧化物酶(Se-D GPxs)和非硒依赖性谷胱甘肽过氧化物酶(Se-1 GPx)共同贡献的。由于持续性甲状腺功能减退,成人睾丸线粒体后以及线粒体分数(MF)中的Se-D-GPx和Se-I-GPx均降低;而在短暂性甲状腺功能减退期间,成年睾丸线粒体后部分(PMF)的Se-D-GPx和Se-I-GPx均降低,而线粒体Se-D-GPx活性仅降低。然而,在L-甲状腺素治疗的成人睾丸PMF(组T_4),含维生素E的T_4(组T_4 + Vit.E),含姜黄素和维生素E的T_4中,硒依赖性和硒依赖性GPx活性均升高( (T_4 + Cur + Vit.E组),仅姜黄素(T + Cur组)处理的大鼠在T_4中SeD-GPx升高。对于MF,Se-依赖性GPx对姜黄素和/或维生素E处理的T_4治疗大鼠(T + Cur,T_4 + Vit.E和T_4 + Cur + Vit.E组)无反应。 T_4处理的大鼠(T_4组)中血脂水平升高。与硒无关的GPx显着升高,对T_4(T_4组),T_4姜黄素(T_4 + Cur组),T_4维生素E(T_4 + Vit.E组)和T_4以及姜黄素和维生素E(组)有显着升高-T_4 + Cur + Vit.E)分别处理了大鼠。因此,影响睾丸Se-D-和Se-1-GPx活性的甲状腺功能减退和甲状腺功能亢进状态以及其他抗氧化剂防御酶,可能会调节睾丸生理和氧化应激。

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