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Genome-wide alternation and effect of DNA methylation in the impairments of steroidogenesis and spermatogenesis after PM2.5 exposure

DNA甲基化 生物 甲基化 表观遗传学 转录组 DNA损伤 精子发生 基因 遗传学 表观遗传学 内分泌学 基因表达 DNA
作者
Zhonghao Zhang,Jiankang Wang,Fuquan Shi,Ying-Qing Li,Peng Zou,Ying Tang,Chang Liu,Yimeng Wang,Xi Ling,Lei Sun,Cuiqing Liu,Yanshu Zhang,Fei Gao,Qing Chen,Lin Ao,Fei Han,Jinyi Liu,Jia Cao
出处
期刊:Environment International [Elsevier BV]
卷期号:169: 107544-107544 被引量:14
标识
DOI:10.1016/j.envint.2022.107544
摘要

The effects of ambient fine particles on male reproductive health have raised widespread concern. The particular underlying mechanisms of the damage remain largely unclear and demand more research in new directions. Previous research has revealed that DNA methylation plays an important role in male reproductive development and is also vulnerable to environmental influences. However, there hasn't been enough investigation into the involvement of DNA methylation in PM2.5-induced male reproductive toxicity. Here, we establish a real-time PM2.5 exposure model and revealed that PM2.5 exposure could lead to testicular dysfunction including spermatogenesis impairment and steroid hormone dysfunction. In particular, the decrease in the testicular global level of 5-methylcytosine (5mC) indicated a possible association of DNA methylation with testicular injury induced by PM2.5 exposure. Further genome-wide methylation analysis revealed genomic hypomethylation of testicular DNA and identified more than 1000 differentially methylated regions in both CAP and UA versus FA, indicating that PM2.5 exposure, even low-dose, could modulate the testicular methylome. Furthermore, integrated analysis of methylome and transcriptome identified some key methylated genes and networks, which may be involved in spermatogenesis and synthesis of steroid hormone. The testicular methylation levels of key genes especially Cyp11a1 and Pax8 raised, and their consequent reduced expression may impair the testosterone and sperm production process. Our research provides fundamental knowledge as well as novel insights into the possible involvement of DNA methylation in PM2.5-induced male reproductive harm.
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