Transcriptome-based exploration of potential molecular targets and mechanisms of selenomethionine in alleviating renal ischemia–reperfusion injury

肾缺血 转录组 机制(生物学) MAPK/ERK通路 炎症 缺血 药理学 生物 生物信息学 再灌注损伤 医学 信号转导 细胞生物学 内科学 化学 基因表达 基因 生物化学 有机化学 哲学 认识论
作者
Jun Pei,Xiao‐Mao Tian,Chengjun Yu,Jin Luo,Yifan Hong,Jie Zhang,Sheng Wen,Yi Hua,Guanghui Wei
出处
期刊:Clinical Science [Portland Press]
卷期号:137 (18): 1477-1498 被引量:7
标识
DOI:10.1042/cs20230818
摘要

Renal ischemia-reperfusion injuries (IRIs) are one of the leading causes of acute kidney injuries (AKIs). Selenium, as an essential trace element, is able to antioxidant stress and reduces inflammatory responses. The regulation mechanism of selenomethionine, one of the major forms of selenium intake by humans, is not yet clear in renal IRIs. Therefore, we aimed to explore the key targets and related mechanisms of selenomethionine regulation in renal IRIs and provide new ideas for the treatment of selenomethionine with renal IRIs. We used transcriptome sequencing data from public databases as well as animal experiments to explore the key target genes and related mechanisms regulated by selenomethionine in renal IRI. We found that selenomethionine can effectively alleviate renal IRI by a mechanism that may be achieved by inhibiting the MAPK signaling pathway. Meanwhile, we also found that the key target of selenomethionine regulation in renal IRI might be selenoprotein GPX3 based on the PPI protein interaction network and machine learning. Through a comprehensive analysis of bioinformatic techniques and animal experiments, we found that Gpx3 might serve as a key gene for the regulation of selenomethionine in renal IRIs. Selenomethionine may exert a protective effect against renal IRI by up-regulating GPX3, inhibiting the MAPK signaling pathway, increased production of antioxidants, decreasing inflammation levels, mitigation of apoptosis in renal tubular epithelial cells, this reduces renal histopathological damage and protects renal function. Providing a theoretical basis for the mechanism of selenomethionine actions in renal IRIs.
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