The Study of Antioxidant Endogenous Levels of Obesity Mice That Induced by 2-Nitropropane

Childhood Stunting, Wasting, and Obesity, as the Critical Global Health Issues: Forging Cross-Sectoral Solutions Pub Date : 2020-11-19 DOI:10.26911/the7thicph-FP.02.06

M. S. Thadeus, Tiwuk Susantiningsih, Agneta Irmarahayu

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Abstract

ABSTRACT Background: Obesity are linked to more deaths worldwide. In obesity, there will be dysregulation of growth signals such as tumorigenesis, angiogenesis, as well as chronic minimalist inflammation that lasts a long time. The mechanism by which 2-NP causes toxicity is poorly understood. This study aimed to determine the effect of induction of 2-Nitropropane in obesity mice on antioxidant status seen from MDA, and GSH enzyme specific activity. Subjects and Method: This was a randomized controlled trial with posttest-only control group design conducted at Biochemstry Laboratory, with laboratory experimental research. A sample of 20 mice were selected and then randomized into 4 groups: N (normal control), O (obesity control), 2NP1x (obesity mice induced by 2-Nitropropane 20mg/kgBW once), and 2NP2x (obesity mice induced by 2-Nitropropane 20 mg/kg twice). The dependent variable was MDA levels. The independent variable was obesity mice. The mice in the intervention group were treated with induction of 2-Nitropropane. The difference of MDA levels, GSH levels between groups was compared and tested by one way Anova. Results: After intervention, mean of MDA Level group 2NP2x (Mean= 4.99; SD= 1.05) was highest than group N (Mean= 2.49; SD= 0.37), O (Mean= 3.77; SD= 0.41) and 2NP1x (Mean= 4.48; SD= 0.69), and it was statistically significant (p< 0.001). After intervention, mean of GSH Level group 2NP2x (Mean= 0.86; SD= 0.02) was lowest than group N (Mean= 1.72; SD= 0.23), O (Mean= 1.44; SD= 0.19), and 2NP1x (Mean= 0.95; SD= 0.04), it was statistically significant (p< 0.001). Conclusions: Induction of 2-Nitropropane 20mg/kgBW once and twice had an effect on decreasing of oxidative status of obesity mice with increasing of MDA liver level (p< 0,000) compared to normal control (N). A decreased endogenous antioxidant status of obesity mice was seen from decreasing GSH activity liver level of obesity mice that induced by 2-Nitropropane 20mg/kgBW once and twice (p< 0.000) compared with normal controls (N). There was an increase in MDA levels in the liver of mice and a decrease in the specific activity of the liver GSH enzyme in obese mice as a sign of oxidative stress after 2-Nitropropane induction. Keywords: 2-Nitropropane, Obesity, MDA, GSH. Correspondence: Maria Selvester Thadeus. Faculty of Medicine, UPN Veteran, Jakarta. Jl. RS Fatmawati No 1 Pondok Labu, South Jakarta. E-mail: maria_fkupn@yahoo.co.id. Mobile: +628129355354 DOI: https://doi.org/10.26911/the7thicph.05.09

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2-硝基丙烷致肥胖小鼠内源性抗氧化水平的研究

背景:在世界范围内，肥胖与更多的死亡有关。在肥胖中，会出现肿瘤发生、血管生成等生长信号的失调，以及持续很长时间的慢性极简炎症。2-NP引起毒性的机制尚不清楚。本研究旨在探讨2-硝基丙烷诱导肥胖小鼠抗氧化能力的影响，从丙二醛和谷胱甘肽酶特异性活性的角度观察。对象与方法:本研究是在生物化学实验室进行的一项随机对照试验，采用后验组设计，进行实验室实验研究。选取20只小鼠，随机分为N组(正常对照组)、O组(肥胖对照组)、2NP1x组(2-硝基丙烷20mg/kg诱导肥胖小鼠1次)、2NP2x组(2-硝基丙烷20mg/kg诱导肥胖小鼠2次)。因变量为丙二醛水平。自变量是肥胖小鼠。干预组小鼠给予2-硝基丙烷诱导。采用单因素方差分析比较各组间MDA、GSH水平的差异。结果:干预后，MDA水平2NP2x组平均(mean = 4.99;SD= 1.05)高于N组(Mean= 2.49;SD= 0.37)， 0 (Mean= 3.77;SD= 0.41)和2NP1x (Mean= 4.48;SD= 0.69)，差异有统计学意义(p< 0.001)。干预后，GSH水平组平均2NP2x(均值= 0.86;SD= 0.02)低于N组(Mean= 1.72;SD= 0.23)， 0 (Mean= 1.44;SD= 0.19)， 2NP1x(均值= 0.95;SD= 0.04)，差异有统计学意义(p< 0.001)。结论:感应2-Nitropropane 20毫克/ kgBW一次和两次氧化状态的影响减少肥胖小鼠肝脏MDA水平的增加(p < 0000),而正常控制(N)。减少内源性抗氧化状态的肥胖老鼠被认为从减少肝脏谷胱甘肽活动水平引起的肥胖老鼠2-Nitropropane 20毫克/ kgBW一次和两次(p < 0.000),而与正常对照组(N),小鼠的肝脏MDA含量的增加和减少肥胖小鼠肝GSH酶的特异性活性作为2-硝基丙烷诱导后氧化应激的标志。关键词:2-硝基丙烷，肥胖，丙二醛，谷胱甘肽通信:Maria Selvester Thadeus。雅加达UPN退伍军人医学院。杰。RS Fatmawati 1 Pondok Labu，南雅加达。电子邮件:maria_fkupn@yahoo.co.id。手机:+628129355354 DOI: https://doi.org/10.26911/the7thicph.05.09

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Childhood Stunting, Wasting, and Obesity, as the Critical Global Health Issues: Forging Cross-Sectoral Solutions

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