Yaseen Hussain, Abdullah, Fazlullah Khan, Waqas Alam, Haseeba Sardar, Muhammad Ajmal Khan, Xiaoyan Shen, Haroon Khan
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引用次数: 0
Abstract
Diabetes Mellitus (DM) is referred to as hyperglycemia in either fasting or postprandial phases. Oxidative stress, which is defined by an excessive amount of reactive oxygen species (ROS) production, increased exposure to external stress, and an excessive amount of the cellular defense system against them, results in cellular damage. Increased DNA damage is one of the main causes of genomic instability, and genetic changes are an underlying factor in the emergence of cancer. Through covalent connections with DNA and proteins, quercetin has been demonstrated to offer protection against the creation of oxidative DNA damage. It has been found that quercetin shields DNA from possible oxidative stress-related harm by reducing the production of ROS. Therefore, Quercetin helps to lessen DNA damage and improve the ability of DNA repair mechanisms. This review mainly focuses on the role of quercetin in repairing DNA damage and compensating for drug resistance in diabetic patients. Data on the target topic was obtained from major scientific databases, including SpringerLink, Web of Science, Google Scholar, Medline Plus, PubMed, Science Direct, and Elsevier. In preclinical studies, quercetin guards against DNA deterioration by regulating the degree of lipid peroxidation and enhancing the antioxidant defense system. By reactivating antioxidant enzymes, decreasing ROS levels, and decreasing the levels of 8-hydroxydeoxyguanosine, Quercetin protects DNA from oxidative damage. In clinical studies, it was found that quercetin supplementation was related to increased antioxidant capacity and decreased risk of type 2 diabetes mellitus in the experimental group as compared to the placebo group. It is concluded that quercetin has a significant role in DNA repair in order to overcome drug resistance in diabetes.
糖尿病(DM)是指空腹或餐后阶段的高血糖。氧化应激是指活性氧(ROS)产生过多、暴露于外界压力的机会增加以及细胞防御系统对活性氧的防御能力过强,从而导致细胞损伤。DNA 损伤的增加是导致基因组不稳定的主要原因之一,而基因变化则是导致癌症出现的根本因素。通过与 DNA 和蛋白质的共价连接,槲皮素已被证明能提供保护,防止 DNA 氧化损伤的产生。研究发现,槲皮素能减少 ROS 的产生,从而保护 DNA 免受可能与氧化压力有关的伤害。因此,槲皮素有助于减轻 DNA 损伤,提高 DNA 修复机制的能力。本综述主要关注槲皮素在修复 DNA 损伤和补偿糖尿病患者耐药性方面的作用。有关目标主题的数据来自各大科学数据库,包括 SpringerLink、Web of Science、Google Scholar、Medline Plus、PubMed、Science Direct 和 Elsevier。在临床前研究中,槲皮素通过调节脂质过氧化程度和增强抗氧化防御系统来防止 DNA 退化。通过重新激活抗氧化酶、降低 ROS 水平和 8-羟基脱氧鸟苷水平,槲皮素能保护 DNA 免受氧化损伤。临床研究发现,与安慰剂组相比,补充槲皮素可提高实验组的抗氧化能力,降低患 2 型糖尿病的风险。结论是,槲皮素在 DNA 修复方面具有重要作用,可克服糖尿病患者的耐药性。
期刊介绍:
Current Drug Targets aims to cover the latest and most outstanding developments on the medicinal chemistry and pharmacology of molecular drug targets e.g. disease specific proteins, receptors, enzymes, genes.
Current Drug Targets publishes guest edited thematic issues written by leaders in the field covering a range of current topics of drug targets. The journal also accepts for publication mini- & full-length review articles and drug clinical trial studies.
As the discovery, identification, characterization and validation of novel human drug targets for drug discovery continues to grow; this journal is essential reading for all pharmaceutical scientists involved in drug discovery and development.
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