Dual Strategies for Argonaute2-Mediated Biogenesis of Erythroid miRNAs Underlie Conserved Requirements for Slicing in Mammals

David Jee, Jr Shiuan Yang, Sun Mi Park, D'Juan T. Farmer, Jiayu Wen, Timothy Chou, Arthur Chow, Michael T. McManus, Michael G. Kharas, Eric C. Lai*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

46 Citations (Scopus)

Abstract

While Slicer activity of Argonaute is central to RNAi, conserved roles of slicing in endogenous regulatory biology are less clear, especially in mammals. Biogenesis of erythroid Dicer-independent mir-451 involves Ago2 catalysis, but mir-451-KO mice do not phenocopy Ago2 catalytic-dead (Ago2-CD) mice, suggesting other needs for slicing. Here, we reveal mir-486 as another dominant erythroid miRNA with atypical biogenesis. While it is Dicer dependent, it requires slicing to eliminate its star strand. Thus, in Ago2-CD conditions, miR-486-5p is functionally inactive due to duplex arrest. Genome-wide analyses reveal miR-486 and miR-451 as the major slicing-dependent miRNAs in the hematopoietic system. Moreover, mir-486-KO mice exhibit erythroid defects, and double knockout of mir-486/451 phenocopies the cell-autonomous effects of Ago2-CD in the hematopoietic system. Finally, we observe that Ago2 is the dominant-expressed Argonaute in maturing erythroblasts, reflecting a specialized environment for processing slicing-dependent miRNAs. Overall, the mammalian hematopoietic system has evolved multiple conserved requirements for Slicer-dependent miRNA biogenesis. Jee et al. reveal that a major conserved rationale for mammalian Argonaute2 slicing is for the combined maturation of miR-486 and miR-451, miRNAs necessary for erythroid development. Their loss phenocopies the erythroid defects of slicing-deficient mice, and this slicing requirement explains the unique Ago2-only expression pattern found in erythroid tissue.

Original languageEnglish
Pages (from-to)265-278.e6
JournalMolecular Cell
Volume69
Issue number2
DOIs
Publication statusPublished - 18 Jan 2018
Externally publishedYes

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