Differential Expression of MicroRNAs in the Kidneys of Rats Following Sustained Swimming Exercise

IF 0.5 4区生物学 Q4 BIOLOGY Biology Bulletin Pub Date : 2024-02-09 DOI:10.1134/s1062359023603063

Junling Li, Fengyuan Sun, Rongguang Hu, Xianwei Zhou, Anmin Zhang

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Abstract

Swimming exercise is reported to have protective effects on kidney function. Previous studies have indicated that microRNAs (miRNAs) are important for normal development, physiology, and pathophysiology of the kidney. Previous publications reported that swimming could modify miRNA expression profiles in the heart and brain. We studied the differential expression of miRNA in the kidneys of rats following sustained swimming exercise twice a day for 6 consecutive weeks. Small RNA libraries were made from the kidneys of sedentary control (SC) and sustained swimming exercised (SE) animals to identify the expression of miRNAs using high-throughput (deep) sequencing technology. We identified 521 and 516 known miRNAs and revealed 328 and 312 novel miRNA candidates with a total of 849 and 828 miRNAs in the kidneys of rats from the SC and SE libraries, respectively. Seventeen miRNAs were differentially expressed, of which 10 miRNAs were increased and 7 miRNAs were decreased in response to swimming exercise. The results showed that sustained swimming exercise could modulate renal miRNAs in rats. These differentially modified miRNA-s were investigated employing Gene Ontology (GO) terminologies and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways. The results implied that these swimming-responsive miRNAs may interact with many types of target genes to regulate renal functions. Analysis of KEGG pathways found that the significantly enriched target genes of the modified miRNAs were involved in the thyroid signaling (ko04919) and Hippo signaling pathways (ko04390). Our study data suggest that sustained swimming exercise could induce deferential expression of renal miRNAs, which might modulate an adaptive response of the kidney.

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持续游泳运动后大鼠肾脏中 MicroRNA 的差异表达

摘要据报道，游泳运动对肾功能有保护作用。以往的研究表明，微RNA（miRNA）对肾脏的正常发育、生理和病理生理学具有重要作用。以前的出版物报道，游泳可改变心脏和大脑中 miRNA 的表达谱。我们研究了连续 6 周、每天两次的持续游泳运动后大鼠肾脏中 miRNA 的不同表达。我们从静止对照组（SC）和持续游泳锻炼组（SE）动物的肾脏中提取小 RNA 文库，利用高通量（深度）测序技术鉴定 miRNA 的表达。我们分别从久坐对照组和持续游泳运动组大鼠的肾脏中鉴定出了 521 和 516 个已知 miRNA，并发现了 328 和 312 个候选新型 miRNA，共计 849 和 828 个 miRNA。17个miRNA在游泳运动中出现差异表达，其中10个miRNA的表达量增加，7个miRNA的表达量减少。结果表明，持续的游泳运动能调节大鼠肾脏的 miRNA。研究人员利用基因本体（GO）术语和《京都基因组百科全书》（KEGG）通路对这些发生不同改变的 miRNA 进行了研究。结果表明，这些游泳反应性 miRNA 可能与多种类型的靶基因相互作用，从而调控肾脏功能。KEGG通路分析发现，被修饰的miRNA的目标基因明显富集于甲状腺信号通路（ko04919）和Hippo信号通路（ko04390）。我们的研究数据表明，持续的游泳运动可诱导肾脏miRNA的递延表达，从而可能调节肾脏的适应性反应。

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来源期刊

Biology Bulletin 生物-生物学

CiteScore

0.70

自引率

20.00%

发文量

审稿时长

4-8 weeks

期刊介绍： Biology Bulletin (Izvestiya Rossiiskoi Akademii Nauk – Seriya Biologicheskaya) is an interdisciplinary journal of general biology. It focuses on fundamental studies in the fields of cell biology, biochemistry, zoology, botany, physiology, and ecology. This journal publishes current materials of experimental studies and surveys on current problems in general biology. It also publishes information on scientific conferences and new books in the fields of general biology.