A programmed wave of uridylation-primed mRNA degradation is essential for meiotic progression and mammalian spermatogenesis

Several developmental stages of spermatogenesis are transcriptionally quiescent which presents major challenges associated with the regulation of gene expression. Here we identify that the zygotene to pachytene transition is not only associated with the resumption of transcription but also a wave of...

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Published inCell research Vol. 29; no. 3; pp. 221 - 232
Main Authors Morgan, Marcos, Kabayama, Yuka, Much, Christian, Ivanova, Ivayla, Di Giacomo, Monica, Auchynnikava, Tatsiana, Monahan, Jack Michael, Vitsios, Dimitrios Michael, Vasiliauskaitė, Lina, Comazzetto, Stefano, Rappsilber, Juri, Allshire, Robin Campbell, Porse, Bo Torben, Enright, Anton James, O’Carroll, Dónal
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.03.2019
Nature Publishing Group
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Summary:Several developmental stages of spermatogenesis are transcriptionally quiescent which presents major challenges associated with the regulation of gene expression. Here we identify that the zygotene to pachytene transition is not only associated with the resumption of transcription but also a wave of programmed mRNA degradation that is essential for meiotic progression. We explored whether terminal uridydyl transferase 4- (TUT4-) or TUT7-mediated 3′ mRNA uridylation contributes to this wave of mRNA degradation during pachynema. Indeed, both TUT4 and TUT7 are expressed throughout most of spermatogenesis, however, loss of either TUT4 or TUT7 does not have any major impact upon spermatogenesis. Combined TUT4 and TUT7 (TUT4/7) deficiency results in embryonic growth defects, while conditional gene targeting revealed an essential role for TUT4/7 in pachytene progression. Loss of TUT4/7 results in the reduction of miRNA, piRNA and mRNA 3′ uridylation. Although this reduction does not greatly alter miRNA or piRNA expression, TUT4/7-mediated uridylation is required for the clearance of many zygotene-expressed transcripts in pachytene cells. We find that TUT4/7-regulated transcripts in pachytene spermatocytes are characterized by having long 3′ UTRs with length-adjusted enrichment for AU-rich elements. We also observed these features in TUT4/7-regulated maternal transcripts whose dosage was recently shown to be essential for sculpting a functional maternal transcriptome and meiosis. Therefore, mRNA 3′ uridylation is a critical determinant of both male and female germline transcriptomes. In conclusion, we have identified a novel requirement for 3′ uridylation-programmed zygotene mRNA clearance in pachytene spermatocytes that is essential for male meiotic progression.
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ISSN:1001-0602
1748-7838
DOI:10.1038/s41422-018-0128-1