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Merck

RNA-Binding Protein IGF2BP2/IMP2 is a Critical Maternal Activator in Early Zygotic Genome Activation.

Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2019-08-14)
Hong-Bin Liu, Tahir Muhammad, Yueshuai Guo, Meng-Jing Li, Qian-Qian Sha, Chuan-Xin Zhang, Hui Liu, Shi-Gang Zhao, Han Zhao, Hao Zhang, Yan-Zhi Du, Kang Sun, Kui Liu, Gang Lu, Xue-Jiang Guo, Jiahao Sha, Heng-Yu Fan, Fei Gao, Zi-Jiang Chen
RESUMO

A number of genes involved in zygotic genome activation (ZGA) have been identified, but the RNA-binding maternal factors that are directly related to ZGA in mice remain unclear. The present study shows that maternal deletion of Igf  2bp2 (also commonly known as Imp2) in mouse embryos causes early embryonic developmental arrest in vitro at the 2-cell-stage. Transcriptomics and proteomics analyses of 2-cell-stage embryos in mice reveal that deletion of IMP2 downregulates the expression of Ccar1 and Rps14, both of which are required for early embryonic developmental competence. IGF2, a target of IMP2, when added in culture media, increases the proportion of wild-type embryos that develop successfully to the blastocyst stage: from 29% in untreated controls to 65% (50 × 10-9 m IGF2). Furthermore, in an experiment related to embryo transfer, foster mothers receiving IGF2-treated embryos deliver more pups per female than females who receive untreated control embryos. In clinically derived human oocytes, the addition of IGF2 to the culture media significantly enhances the proportion of embryos that develop successfully. Collectively, the findings demonstrate that IMP2 is essential for the regulation and activation of genes known to be involved in ZGA and reveal the potential embryonic development-related utility of IGF2 for animal biotechnology and for assisted reproduction in humans.