氯化肉碱减轻实验性高同型半胱氨酸血症的严重程度并促进大鼠附睾线粒体部分对乳酸的利用

IF 0.6 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
V. I. Zvyagina, E. S. Belskikh
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引用次数: 1

摘要

高同型半胱氨酸血症是许多疾病的危险因素,包括男性生殖障碍。左旋肉碱在医疗实践中用于纠正受损的生物能量条件;在患有特发性不孕症的患者中,其效果与精子参数的改善有关。然而,外源性左旋肉碱对生殖腺组织中同型半胱氨酸水平的影响,作为生育能力受损的危险因素,尚未研究。本研究旨在研究雄性Wistar大鼠附睾线粒体部分生物能酶活性、高同型半胱氨酸血症引起的氧化应激条件下细胞质和线粒体乳酸水平、LDH活性、总肉碱含量的动态变化以及这些细胞的氧化状态,并在蛋氨酸给药条件下评价氯化肉碱对这些参数的影响。蛋氨酸以3 g/kg的剂量给药3周,可导致严重的高同型半胱氨酸血症,血清同型半胱氨酸浓度超过100 μmol/L。这伴随着参与细胞生物能量过程的酶活性的降低:附睾头部和尾部的组织呼吸(琥珀酸脱氢酶)和氧化磷酸化(H+- atp酶)。乳酸代谢的变化包括附睾头线粒体和细胞质部分以及附睾尾线粒体乳酸代谢水平的升高,附睾头线粒体和细胞质乳酸乳酸代谢活性的降低具有统计学意义。在严重高同型半胱氨酸血症的雄性大鼠中,注意到线粒体SOD活性的增加伴随着附睾头部和尾部线粒体蛋白羰基化的增加。高同型半胱氨酸血症模型在氯化肉碱管理的条件下,导致研究组织的细胞在附睾头和尾匀浆中测定不同的反应。在附睾头部,氯化肉碱促进线粒体乳酸浓度的增加和细胞质乳酸浓度的降低,以及与线粒体部分相关的LDH活性的增加。这些变化伴随着附睾中H+- atp酶活性的增加,这表明在高同型半胱氨酸血症引起的氧化应激条件下,氯化肉碱刺激乳酸转运到线粒体并将其作为能量底物使用。在尾部组织中,这种变化在本质上是保护性的,并与氧化修饰蛋白形成的减少有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carnitine Chloride Reduces the Severity of Experimental Hyperhomocysteinemia and Promotes Lactate Utilization by the Mitochondrial Fraction of the Rat Epididymis

Hyperhomocysteinemia is a risk factor for many diseases, including reproductive disorders in men. L-carnitine is used in medical practice to correct impaired bioenergetic conditions; in patients with idiopathic forms of infertility its effects are associated with improvement of the sperm parameters. However, the effect of exogenous L-carnitine on the level of homocysteine in the gonadal tissues, as a risk factor for impaired fertility, has not been investigated yet. The aim of this study was to investigate activity of bioenergetic enzymes in the epididymal mitochondrial fraction, the dynamics of changes in the cytoplasmic and mitochondrial lactate levels and LDH activity, the total carnitine content, as well as the oxidative status of these cells under conditions of oxidative stress caused by hyperhomocysteinemia, and to assess the effect of carnitine chloride on these parameters under conditions of methionine administration to male Wistar rats. Methionine administration to animals for three weeks at a dose of 3 g/kg, resulted in development of the severe form of hyperhomocysteinemia with serum homocysteine concentrations exceeding 100 μmol/L. This was accompanied by a decrease in the activity of enzymes involved in the bioenergetic processes of the cell: tissue respiration (succinate dehydrogenase) and oxidative phosphorylation (H+-ATPase) in the epididymal head and tail. The change in lactate metabolism included an increase in its level in both the mitochondrial and cytoplasmic fractions of the epididymal head and mitochondria of the epididymal tail, and also simultaneous statistically significant decrease in LDH activity in the mitochondria and cytoplasm of the epididymal head. In male rats with severe hyperhomocysteinemia, an increase in the activity of mitochondrial SOD accompanied by an increase in the carbonylation of mitochondrial proteins in the head and tail of the epididymis was noted. Modeling of hyperhomocysteinemia under conditions of carnitine chloride administration led to different reactions of the cells of the studied tissues assayed in the epididymal head and tail homogenate. In the epididymal head, carnitine chloride promoted an increase in the mitochondrial lactate concentration and a decrease in the cytoplasmic lactate concentration, as well as an increase in the LDH activity associated with the mitochondrial fraction. These changes were accompanied by an increase in the activity of H+-ATPase in the epididymal, thus suggesting that carnitine chloride stimulated lactate transport into the mitochondria and its use as an energy substrate under conditions of oxidative stress caused by hyperhomocysteinemia. In the tail tissues, the changes were protective in nature and were associated with a decrease in the formation of oxidatively modified proteins.

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来源期刊
CiteScore
1.10
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0.00%
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31
期刊介绍: Biochemistry (Moscow), Supplement Series B: Biomedical Chemistry   covers all major aspects of biomedical chemistry and related areas, including proteomics and molecular biology of (patho)physiological processes, biochemistry, neurochemistry, immunochemistry and clinical chemistry, bioinformatics, gene therapy, drug design and delivery, biochemical pharmacology, introduction and advertisement of new (biochemical) methods into experimental and clinical medicine. The journal also publishes review articles. All issues of the journal usually contain solicited reviews.
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