Endurance Training and Consumption of Hydroalcoholic Zingiber Officinale Extract Regulated PPARγ, PGC1-ɑ/TNF-ɑ Expression Level in Myocardial Infarction Rats

Jorjani Biomedicine Journal Pub Date : 2022-05-01 DOI:10.52547/jorjanibiomedj.10.2.24

Monireh Omomi, F. Taghian, G. Sharifi

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Abstract

Background and objectives: Zingiber officinale extract can control cardiovascular risk factors. Moreover, endurance training may effectively rehabilitate myocardial infarction by strengthening the myocardial muscle tissue. In-silico analysis identified essential genes involved in the heart damage process based on data from the DisGeNET database. Hence, we estimated the affinity of chemical and bioactive molecules for PPARγ. Therefore, this study aimed to investigate the effect of endurance exercise alone or combined with Zingiber officinale extract on Myocardial infarction rats. Material and Methods: Twenty-five male rats were randomly divided into five groups, including (1) group of Myocardial Infarctions (MI) induced by subcutaneous injection of isoproterenol, (2) Myocardial Infarction+Exercise (MI+EX), (3) Myocardial Infarction+Zingiber Officinale extraction administered orally (MI+GE), (4) myocardial infarction+exercise+Zingiber Officinale extract (MI+EX+GE), and (5) Control group. The qPCR-Real Time technique was used to measure the expression of PGC1- ɑ , PPARγ, and TNF- ɑ genes. We evaluated the concentration of Troponin-1 as a vital myocardial ischemia marker. Results: In bioinformatics analysis, we found that the PPARγ, PGC1- ɑ , and TNF- ɑ pathways were critical in heart injury. Also, the effects of Zingiber officinale on heart tissue were detected through PPARγ by drug design. Endurance training combined with Zingiber officinale consumption reduced the expression of TNF- ɑ , Troponin-1 and increased the PGC1- ɑ , PPARγ genes. Furthermore, consumption of Zingiber officinale extraction improved the levels of PGC1- ɑ , PPARγ, TNF- ɑ , and Troponin-1. Conclusion: Our data indicated that six weeks of endurance training and consumption of Zingiber officinale extract could reduce the relative expression of the TNF- ɑ and significantly increase the level of PGC1- ɑ , PPARγ.

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耐力训练和饮用氢醇姜提取物可调节心肌梗死大鼠PPARγ、PGC1- α /TNF- α的表达水平

背景与目的:生姜提取物具有控制心血管危险因素的作用。此外，耐力训练可以通过加强心肌组织有效地恢复心肌梗死。基于DisGeNET数据库的数据，计算机分析确定了参与心脏损伤过程的必要基因。因此，我们估计了化学和生物活性分子对PPARγ的亲和力。因此，本研究旨在探讨耐力运动单独或联合生姜提取物对心肌梗死大鼠的影响。材料与方法:将25只雄性大鼠随机分为5组，分别为(1)皮下注射异丙肾上腺素致心肌梗死(MI)组、(2)心肌梗死+运动(MI+EX)组、(3)心肌梗死+口服青姜提取物(MI+GE)组、(4)心肌梗死+运动+青姜提取物(MI+EX+GE)组和(5)对照组。采用qPCR-Real Time技术检测PGC1- α、PPARγ和TNF- α基因的表达。我们评估了肌钙蛋白-1的浓度作为心肌缺血的重要标志。结果:在生物信息学分析中，我们发现PPARγ、PGC1- α和TNF- α通路在心脏损伤中起关键作用。采用药物设计法，通过PPARγ检测生姜对心脏组织的影响。耐力训练联合服用生姜可降低TNF- α、肌钙蛋白-1的表达，增加PGC1- α、PPARγ基因的表达。此外，食用生姜提取物可提高PGC1- α、PPARγ、TNF- α和肌钙蛋白-1的水平。结论:我们的数据表明，6周耐力训练和食用生姜提取物可降低TNF- α的相对表达，显著提高PGC1- α、PPARγ的水平。

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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Jorjani Biomedicine Journal

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