1. N6-methyladenosine mRNA marking promotes selective translation of regulons required for human erythropoiesis.
- Author
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Kuppers, Daniel A., Arora, Sonali, Lim, Yiting, Lim, Andrea R., Carter, Lucas M., Corrin, Philip D., Plaisier, Christopher L., Basom, Ryan, Delrow, Jeffrey J., Wang, Shiyan, Hansen He, Housheng, Torok-Storb, Beverly, Hsieh, Andrew C., and Paddison, Patrick J.
- Subjects
RNA-binding proteins ,ERYTHROPOIETIN receptors ,O6-Methylguanine-DNA Methyltransferase ,HISTONE methyltransferases ,RIBOSOMES ,MESSENGER RNA ,ERYTHROPOIESIS ,GENE regulatory networks - Abstract
Many of the regulatory features governing erythrocyte specification, maturation, and associated disorders remain enigmatic. To identify new regulators of erythropoiesis, we utilize a functional genomic screen for genes affecting expression of the erythroid marker CD235a/GYPA. Among validating hits are genes coding for the N
6 -methyladenosine (m6 A) mRNA methyltransferase (MTase) complex, including, METTL14, METTL3, and WTAP. We demonstrate that m6 A MTase activity promotes erythroid gene expression programs through selective translation of ~300 m6 A marked mRNAs, including those coding for SETD histone methyltransferases, ribosomal components, and polyA RNA binding proteins. Remarkably, loss of m6 A marks results in dramatic loss of H3K4me3 marks across key erythroid-specific KLF1 transcriptional targets (e.g., Heme biosynthesis genes). Further, each m6 A MTase subunit and a subset of their mRNAs targets are required for human erythroid specification in primary bone-marrow derived progenitors. Thus, m6 A mRNA marks promote the translation of a network of genes required for human erythropoiesis. Erythropoiesis can be regulated by transcriptional, epigenetic, and post-transcriptional mechanisms. Here the authors report that N6 -methyladenosine mRNA methyltransferase complex stimulates erythropoiesis by promoting translation of specific mRNAs. [ABSTRACT FROM AUTHOR]- Published
- 2019
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