DAZL regulates mRNA deadenylation independently of translation in germ cells

Aberrant gene expression during gametogenesis is one of the factors underlying infertility, which affects roughly 15% of couples worldwide. Deleted-in-Azoospermia-Like (DAZL), a member of the DAZ-gene family, encodes an mRNA-specific regulator of translation which is essential for gametogenesis in both sexes. In this study we show that DAZL controls gene expression in oocytes by regulating the length of the mRNA poly(A) tail, a major determinant of temporal and amplitudinal gene regulation in germ cells, in which gene expression is regulated entirely post-transcriptionally. We show that DAZL does not induce polyadenylation but that binding of DAZL efficiently inhibits mRNA deadenylation induced by oocyte maturation. We reveal that this activity depends on DAZL-mediated recruitment of poly(A)-binding protein, PABP, to the mRNA. Although DAZL also activates mRNA translation via PABP recruitment, mechanistic analysis revealed that neither translation nor translational activation are required for DAZL to stabilise the poly(A) tail, suggesting two mutually independent posttranscriptional roles for the DAZL-PABP complex. We show that recruited PABP must maintain its ability to bind RNA, leading to a model in which DAZL recruits PABP and/or stabilises PABP binding to poly(A) thereby preventing access of deadenylases. These results indicate that the role of DAZL in regulating germ-cell mRNA fate is more complex than previously thought and inform on the poorly understood links between mRNA translation and deadenylation, showing that they can be mechanistically separable. ### Competing Interest Statement The authors have declared no competing interest.