Edlyn Wu scite author profile

To understand how miRNA-mediated silencing impacts on embryonic mRNAs, we conducted a functional survey of abundant maternal and zygotic miRNA families in the C. elegans embryo. We show that the miR-35-42, and the miR-51-56 miRNA families define maternal and zygotic miRNA-induced silencing complexes (miRISCs), respectively, that share a large number of components. Using a novel cell-free C. elegans embryonic extract, we demonstrate that the miRISC directs the rapid deadenylation of reporter mRNAs with natural 3’UTRs. The deadenylated targets are translationally suppressed and remarkably stable. Sampling of the predicted miR-35-42 targets reveals that roughly half are deadenylated in a miRNA-dependent manner, but with each target displaying a distinct efficiency and pattern of deadenylation. Finally, we demonstrate that functional cooperation between distinct miRISCs within 3’UTRs is required to potentiate deadenylation. With this report, we reveal the extensive and direct impact of miRNA-mediated deadenylation on embryonic mRNAs.

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Poly(A)-binding proteins are required for microRNA-mediated silencing and to promote target deadenylation inC. elegans

Flamand

Vashisht

et al. 2016

Nucleic Acids Res

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Cytoplasmic poly(A)-binding proteins (PABPs) link mRNA 3′ termini to translation initiation factors, but they also play key roles in mRNA regulation and decay. Reports from mice, zebrafish and Drosophila further involved PABPs in microRNA (miRNA)-mediated silencing, but through seemingly distinct mechanisms. Here, we implicate the two Caenorhabditis elegans PABPs (PAB-1 and PAB-2) in miRNA-mediated silencing, and elucidate their mechanisms of action using concerted genetics, protein interaction analyses, and cell-free assays. We find that C. elegans PABPs are required for miRNA-mediated silencing in embryonic and larval developmental stages, where they act through a multi-faceted mechanism. Depletion of PAB-1 and PAB-2 results in loss of both poly(A)-dependent and -independent translational silencing. PABPs accelerate miRNA-mediated deadenylation, but this contribution can be modulated by 3′UTR sequences. While greater distances with the poly(A) tail exacerbate dependency on PABP for deadenylation, more potent miRNA-binding sites partially suppress this effect. Our results refine the roles of PABPs in miRNA-mediated silencing and support a model wherein they enable miRNA-binding sites by looping the 3′UTR poly(A) tail to the bound miRISC and deadenylase.

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A continuum of mRNP complexes in embryonic microRNA-mediated silencing

Vashisht

Chapat

et al. 2016

Nucleic Acids Res

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MicroRNAs (miRNAs) impinge on the translation and stability of their target mRNAs, and play key roles in development, homeostasis and disease. The gene regulation mechanisms they instigate are largely mediated through the CCR4–NOT deadenylase complex, but the molecular events that occur on target mRNAs are poorly resolved. We observed a broad convergence of interactions of germ granule and P body mRNP components on AIN-1/GW182 and NTL-1/CNOT1 in Caenorhabditis elegans embryos. We show that the miRISC progressively matures on the target mRNA from a scanning form into an effector mRNP particle by sequentially recruiting the CCR4–NOT complex, decapping and decay, or germ granule proteins. Finally, we implicate intrinsically disordered proteins, key components in mRNP architectures, in the embryonic function of lsy-6 miRNA. Our findings define dynamic steps of effector mRNP assembly in miRNA-mediated silencing, and identify a functional continuum between germ granules and P bodies in the C. elegans embryo.

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Oncogenic Biogenesis of pri-miR-17∼92 Reveals Hierarchy and Competition among Polycistronic MicroRNAs

et al. 2019

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The microRNAs encoded by the miR-17$92 polycistron are commonly overexpressed in cancer and orchestrate a wide range of oncogenic functions. Here, we identify a mechanism for miR-17$92 oncogenic function through the disruption of endogenous microRNA (miRNA) processing. We show that, upon oncogenic overexpression of the miR-17$92 primary transcript (pri-miR-17$92), the microprocessor complex remains associated with partially processed intermediates that aberrantly accumulate. These intermediates reflect a series of hierarchical and conserved steps in the early processing of the pri-miR-17$92 transcript. Encumbrance of the microprocessor by miR-17$92 intermediates leads to the broad but selective downregulation of co-expressed polycistronic miRNAs, including miRNAs derived from tumor-suppressive miR-34b/c and from the Dlk1-Dio3 polycistrons. We propose that the identified steps of polycistronic miR-17$92 biogenesis contribute to the oncogenic re-wiring of gene regulation networks. Our results reveal previously unappreciated functional paradigms for polycistronic miRNAs in cancer. 124 nt 82 nt 112 nt 79 nt 80 nt 56 nt 59 nt 63 nt 59nt 58 nt 61 nt 973 nt Hs miR-17-18a spacer 79 nt 80 nt 60 nt

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Edlyn Wu

Pervasive and Cooperative Deadenylation of 3′UTRs by Embryonic MicroRNA Families

Poly(A)-binding proteins are required for microRNA-mediated silencing and to promote target deadenylation inC. elegans

A continuum of mRNP complexes in embryonic microRNA-mediated silencing

Oncogenic Biogenesis of pri-miR-17∼92 Reveals Hierarchy and Competition among Polycistronic MicroRNAs

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