BMC Biology (Apr 2023)

Regulation of Miwi-mediated mRNA stabilization by Ck137956/Tssa is essential for male fertility

  • Yu Chen,
  • Xiangzheng Zhang,
  • Jiayin Jiang,
  • Mengjiao Luo,
  • Haixia Tu,
  • Chen Xu,
  • Huanhuan Tan,
  • Xin Zhou,
  • Hong Chen,
  • Xudong Han,
  • Qiuling Yue,
  • Yueshuai Guo,
  • Ke Zheng,
  • Yaling Qi,
  • Chenghao Situ,
  • Yiqiang Cui,
  • Xuejiang Guo

DOI
https://doi.org/10.1186/s12915-023-01589-z
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 17

Abstract

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Abstract Background Sperm is formed through spermiogenesis, a highly complex process involving chromatin condensation that results in cessation of transcription. mRNAs required for spermiogenesis are transcribed at earlier stages and translated in a delayed fashion during spermatid formation. However, it remains unknown that how these repressed mRNAs are stabilized. Results Here we report a Miwi-interacting testis-specific and spermiogenic arrest protein, Ck137956, which we rename Tssa. Deletion of Tssa led to male sterility and absence of sperm formation. The spermiogenesis arrested at the round spermatid stage and numerous spermiogenic mRNAs were down-regulated in Tssa −/− mice. Deletion of Tssa disrupted the localization of Miwi to chromatoid body, a specialized assembly of cytoplasmic messenger ribonucleoproteins (mRNPs) foci present in germ cells. We found that Tssa interacted with Miwi in repressed mRNPs and stabilized Miwi-interacting spermiogenesis-essential mRNAs. Conclusions Our findings indicate that Tssa is indispensable in male fertility and has critical roles in post-transcriptional regulations by interacting with Miwi during spermiogenesis.

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