Antioxidant system of the body of young Ukrainian beef cattle under the action of microelements

IF 0.5 Q4 BIOLOGY
D. Mylostуva, S. J. Farafonov, O. Puzniak, V. I. Stakhiv, V. Borshchenko, S. V. Tsisinska, S. V. Voloshin
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Abstract

Active forms of oxygen are formed in the course of the organism's vital activity in biochemical reactions. These forms, when the pro/antioxidant balance is disturbed, trigger a cascade of lipid peroxidation, which can be the cause of the development of various pathological conditions. To prevent the negative influence of lipid peroxidation products in the body, a powerful antioxidant system is activated. This system consists of an enzymatic and a non-enzymatic link. An important aspect of the normal functioning of this system is the provision of the body with important trace elements. A number of minerals are included in the active center of antioxidant enzymes or have an effect on the reactions of non-enzymatic antioxidants. Research was conducted on fattening bulls of the Ukrainian meat breed. During the monitoring of microelements in feed, it was found that the vast majority of farm feed was deficient in copper, selenium and manganese and for this reason the animals consumed an insufficient amount of these minerals. These data were confirmed by the low content of these trace elements in blood serum. The addition of inorganic salts of microelements to the basic diet led to an increase in the concentration of copper, manganese and selenium in the blood serum by 20.5%, 37.3% and 23.9%. The study of the content of lipid peroxidation products showed that during the 30 days of the experiment, the level of lipid hydroperoxide increased by 25.5%, diene conjugates by 22.8%, and malonic dialdehyde by 22.0%. This indicates that against the background of increased age-related metabolism in the body of young animals, the oxidation-reduction reactions that are a predictor of the start of peroxidation processes increase. It was also noted that with a deficiency of certain trace elements, the activity of both the enzymatic and non-enzymatic links of the antioxidant system was reduced. Thus, in 30 days, the level of catalase, superoxide dismutase, and glutathione peroxidase decreased by 9.4%, 15.3%, and 13.0%, respectively. During this time, the content of tocopherol and ceruloplasmin decreased by 16.8% and 9.8%. Additives also had a positive effect on the activity of the antioxidant system by increasing its components. Additives of trace elements had different effects on the activity of antioxidant enzymes. The greatest effect on the level of catalase and superoxide dismutase was observed when copper salts were added, when the increase of these enzymes was noted by 1.11 and 1.23 times, respectively. Accordingly, the level of glutathione peroxidase was the highest in animals that received additional selenium – 1.21 times. The addition of copper also had the greatest biological effect on the important non-enzymatic component of antioxidant protection – ceruloplasmin. Its level increased by 1.24 times under the action of copper sulfate. The level of tocopherol was higher under the action of manganese, when its concentration was 1.11 times higher than the control. Against this background, there was a decrease in the products of lipid peroxidation: lipid hydroperoxides – 1.19 times under the action of selenium; diene conjugates – by 1.22 times and malonіс dialdehyde – by 1.11 times under the influence of copper and manganese compounds, respectively.
微量元素作用下乌克兰小肉牛体内抗氧化系统
活性形式的氧是在生物体的生物化学反应中的重要活动过程中形成的。当促/抗氧化平衡受到干扰时,这些形式会引发脂质过氧化的级联反应,这可能是各种病理状况发展的原因。为了防止体内脂质过氧化产物的负面影响,激活了一个强大的抗氧化系统。该系统由酶和非酶连接组成。该系统正常运作的一个重要方面是为身体提供重要的微量元素。许多矿物质包含在抗氧化酶的活性中心,或对非酶抗氧化剂的反应有影响。对乌克兰肉种的育肥牛进行了研究。在监测饲料中的微量元素时,发现绝大多数农场饲料都缺乏铜、硒和锰,因此动物摄入的这些矿物质不足。这些数据通过血清中这些微量元素的低含量得到了证实。在基础日粮中添加微量元素无机盐可使血清中铜、锰和硒的浓度分别升高20.5%、37.3%和23.9%。脂质过氧化产物含量研究表明,在实验的30天内,脂质氢过氧化物水平升高25.5%,二烯结合物水平升高22.8%,丙二醛减少22.0%。这表明,在幼兽体内与年龄相关的代谢增加的背景下,作为过氧化过程开始的预测因素的氧化还原反应增加。还注意到,由于缺乏某些微量元素,抗氧化系统的酶和非酶环节的活性都会降低。因此,在30天内,过氧化氢酶、超氧化物歧化酶和谷胱甘肽过氧化物酶的水平分别下降了9.4%、15.3%和13.0%。在此期间,生育酚和铜蓝蛋白的含量分别下降了16.8%和9.8%。添加剂还通过增加其成分对抗氧化系统的活性产生了积极影响。微量元素添加剂对抗氧化酶活性的影响不同。当添加铜盐时,观察到对过氧化氢酶和超氧化物歧化酶水平的最大影响,当这些酶的增加分别为1.11和1.23倍时。因此,在接受额外硒的动物中,谷胱甘肽过氧化物酶的水平最高——为1.21倍。铜的添加对抗氧化保护的重要非酶组分铜蓝蛋白也有最大的生物作用。在硫酸铜的作用下,其水平提高了1.24倍。在锰的作用下,生育酚的含量较高,是对照的1.11倍。在此背景下,脂质过氧化产物减少:在硒的作用下,脂质氢过氧化物减少了1.19倍;在铜和锰化合物的影响下,二烯偶联物分别增加了1.22倍和丙二醛增加了1.11倍。
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
CiteScore
0.90
自引率
0.00%
发文量
25
审稿时长
10 weeks
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