PWWP3A deficiency accelerates testicular senescence in aged mice.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-03 DOI:10.1111/andr.13774
Zhen Chen, Cong Liu, Wei Qu, Yan Han, Xiaoyu Zhu, Zejia Li, Dupeng Ma, Mengya Huang, Weihao Gong, Qi Sun, Junhao Lei, Rui Guo, Mengcheng Luo
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Abstract

Background: The PWWP domain-containing proteins are involved in chromatin-associated biological processes, including transcriptional regulation and DNA repair, and most of them are significant for gametogenesis and early embryonic development in mammals. PWWP3A, one of the PWWP domain proteins, is a reader of H3K36me2/H3K36me3 and a response factor to DNA damage. However, the physiological role of PWWP3A in spermatogenesis and fertility remains unclear.

Objective: The goal of this study was to explore the function and mechanism of PWWP3A in the process of spermatogenesis.

Materials and methods: We generated V5-Pwwp3a KI mice and PWWP3A polyclonal antibody to observe the localization of PWWP3A in vivo. Meanwhile, Pwwp3a KO mice was used to explore the function in spermatogenesis.

Results: We reported that PWWP3A is a predominant expression in the testis of mice. During spermatogenesis, PWWP3A exhibits the temporal expression from early-pachytene to the round spermatids. The results of spermatocyte spreading and immunostaining showed that PWWP3A aggregated on the XY body, which then diffused as the XY chromosome separated at late-diplotene. Although the depletion of PWWP3A had no obvious reproductive defects in young male mice, there were observed morphological abnormalities in sperm heads. Immunoprecipitation demonstrated the interaction of PWWP3A with DNA repair proteins SMC5/6; however, PWWP3A deficiency did not result in any meiotic defects. Notably, the testes of aged male Pwwp3a KO mice displayed pronounced degeneration, and were characterized by the presence of vacuolated seminiferous tubules. Furthermore, RNA-seq analysis revealed an upregulation in the expression of genes which may be involving in immunoregulatory and inflammatory response pathways in aged Pwwp3a KO mice with testicular degeneration.

Conclusions: Our study showed that PWWP3A was highly enriched in the mouse testis, and the Pwwp3a KO mice were fertile. However, the aged Pwwp3a KO male mice displayed testicular atrophy that may be due to changes in the immune micro-environment or abnormal repair of DNA damage.

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PWWP3A 缺乏会加速老龄小鼠睾丸的衰老。
背景:含PWWP结构域的蛋白参与染色质相关的生物学过程,包括转录调控和DNA修复,其中大多数对哺乳动物的配子发生和早期胚胎发育具有重要意义。PWWP3A 是 PWWP 结构域蛋白之一,是 H3K36me2/H3K36me3 的阅读器,也是 DNA 损伤的反应因子。然而,PWWP3A 在精子发生和生育中的生理作用仍不清楚:本研究旨在探索 PWWP3A 在精子发生过程中的功能和机制:材料:我们制备了V5-Pwwp3a KI小鼠和PWWP3A多克隆抗体,以观察PWWP3A在体内的定位。同时,利用Pwwp3a KO小鼠探讨其在精子发生中的功能:结果:我们发现PWWP3A在小鼠睾丸中呈优势表达。结果:我们发现PWWP3A在小鼠睾丸中呈优势表达,在精子发生过程中,PWWP3A表现出从早幼粒细胞到圆形精子的时间性表达。精母细胞扩散和免疫染色的结果显示,PWWP3A聚集在XY体上,然后随着XY染色体在二分裂后期的分离而扩散。虽然消耗 PWWP3A 对幼年雄性小鼠没有明显的生殖缺陷,但却观察到精子头部的形态异常。免疫沉淀显示 PWWP3A 与 DNA 修复蛋白 SMC5/6 相互作用;然而,PWWP3A 的缺乏并没有导致任何减数分裂缺陷。值得注意的是,Pwwp3a KO 雄性小鼠的睾丸出现了明显的退化,其特征是存在空泡化的曲细精管。此外,RNA-seq分析显示,在睾丸退化的Pwwp3a KO小鼠中,可能参与免疫调节和炎症反应通路的基因表达上调:我们的研究表明,PWWP3A 在小鼠睾丸中高度富集,Pwwp3a KO 小鼠具有生育能力。结论:我们的研究表明,PWWP3A在小鼠睾丸中高度富集,且Pwwp3a KO小鼠具有生育能力,但老年Pwwp3a KO雄性小鼠出现睾丸萎缩,这可能是由于免疫微环境发生变化或DNA损伤修复异常所致。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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