Downregulation of Tnf-α and Cat Expression in a Wistar Rat Diabetic Model during Diabetes Onset.

IF 2.4 Q3 ENDOCRINOLOGY & METABOLISM
Catherine Giovanna Costas Arcia, Jéssica Freitas Araújo Encinas, Joyce Regina Santos Raimundo, Katharyna Cardoso de Gois, Beatriz da Costa Aguiar Alves, Matheus Moreira Perez, Thais Moura Gascón, Fernando Luiz Affonso Fonseca, Glaucia Luciano da Veiga
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Abstract

Introduction: Diabetes Mellitus (DM) is a metabolic disorder characterized by persistent hyperglycemia and/or insulin resistance. If left uncontrolled, it can lead to a combination of cardiac and renal alterations known as cardiorenal syndrome. Additionally, oxidative stress and inflammation contribute to tissue damage, thereby reducing the life expectancy of individuals with diabetes.

Aim: The aim of this study was to identify early molecular markers associated with cardiorenal syndrome, oxidative stress, and inflammation, and to investigate their correlation with the duration of exposure to DM.

Methods: An experimental DM model was employed using Wistar rats. The rats were divided into four groups: diabetic rats at 7 days (DM7), diabetic rats at 30 days (DM30), control sham at 7 days (CS7), and control sham at 30 days (CS30). Blood and brain tissue from the brainstem region were collected at 7 and 30 days after confirming DM induction. Gene expression analysis of Bnp, Anp, Cat, Gpx, Sod, Tnf-α, and Il-6 was performed.

Results: The analysis revealed lower expression values of Cat in the brainstem tissue of the DM7 group compared to the NDS7 group. Moreover, diabetic animals exhibited statistically lower levels of Tnf-α in their peripheral blood compared to the control animals.

Conclusion: This study concluded that DM alters the oxidative balance in the brainstem after 7 days of DM induction, resulting in lower Cat expression levels. Although some genes did not show statistical differences after 30 days of DM induction, other genes exhibited no expression values, indicating possible gene silencing. The study identified an imbalance in the studied pathways and concluded that the organism undergoes a compensatory state in response to the initial metabolic alterations caused by DM.

糖尿病发病过程中 Wistar 大鼠糖尿病模型中 Tnf-α 和 Cat 的表达下调
简介糖尿病(DM)是一种以持续高血糖和/或胰岛素抵抗为特征的代谢性疾病。如果不加以控制,可导致心脏和肾脏的综合病变,即心肾综合征。目的:本研究旨在确定与心肾综合征、氧化应激和炎症相关的早期分子标记物,并研究它们与糖尿病暴露时间的相关性:方法:使用 Wistar 大鼠建立实验性 DM 模型。大鼠分为四组:糖尿病 7 天组(DM7)、糖尿病 30 天组(DM30)、对照组假糖尿病 7 天组(CS7)和对照组假糖尿病 30 天组(CS30)。在确认DM诱导后的7天和30天采集脑干区域的血液和脑组织。对Bnp、Anp、Cat、Gpx、Sod、Tnf-α和Il-6进行了基因表达分析:结果:分析发现,与 NDS7 组相比,DM7 组脑干组织中 Cat 的表达值较低。此外,与对照组动物相比,糖尿病动物外周血中 Tnf-α 的水平也较低:本研究得出结论:DM诱导7天后,DM改变了脑干的氧化平衡,导致Cat表达水平降低。虽然一些基因在 DM 诱导 30 天后没有显示出统计学差异,但其他基因没有显示出表达值,这表明可能存在基因沉默。这项研究确定了所研究途径的失衡,并得出结论认为,生物体在应对 DM 引起的初始代谢改变时会出现一种补偿状态。
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来源期刊
Current diabetes reviews
Current diabetes reviews ENDOCRINOLOGY & METABOLISM-
CiteScore
6.30
自引率
0.00%
发文量
158
期刊介绍: Current Diabetes Reviews publishes frontier reviews on all the latest advances on diabetes and its related areas e.g. pharmacology, pathogenesis, complications, epidemiology, clinical care, and therapy. The journal"s aim is to publish the highest quality review articles dedicated to clinical research in the field. The journal is essential reading for all researchers and clinicians who are involved in the field of diabetes.
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