MicroRNA biogenesis is broadly disrupted by inhibition of the splicing factor SF3B1

Author:

Downie Ruiz Velasco Angela1,Parsons Aimee L1,Heatley Matthew C2,Martin Athena R G1,Smart Alfredo D1,Shah Niraj2,Jopling Catherine L1ORCID

Affiliation:

1. School of Pharmacy, University of Nottingham , Nottingham NG7 2RD, UK

2. The Digital Research Service, University of Nottingham , Nottingham , NG7 2RD, UK

Abstract

Abstract In animals, microRNA (miRNA) biogenesis begins with cotranscriptional cleavage of the primary (pri-)miRNA by the Microprocessor complex. Cotranscriptional splicing has been shown to influence Microprocessor cleavage when miRNAs are hosted in introns of protein-coding pri-miRNAs, but the impact of splicing on production of miRNAs hosted in long non-coding (lnc)RNAs is largely unknown. Here, we investigated the role of splicing in the biogenesis of miR-122, an lncRNA-hosted, highly expressed, medically important, liver-specific miRNA. We found that splicing inhibition by the SF3B1 inhibitor pladienolide B (PlaB) led to strong and rapid reduction in transcription of endogenous, but not plasmid-encoded, pri-miR-122, resulting in reduced production of mature miR-122. To allow detection of rapid changes in miRNA biogenesis despite the high stability of mature miRNAs, we used SLAMseq to globally quantify the effects of short-term splicing inhibition on miRNA synthesis. We observed an overall decrease in biogenesis of mature miRNAs following PlaB treatment. Surprisingly, miRNAs hosted in exons and introns were similarly affected. Together, this study provides new insights into the emerging role of splicing in transcription, demonstrating novel biological importance in promotion of miR-122 biogenesis from an lncRNA, and shows that SF3B1 is important for global miRNA biogenesis.

Funder

Biotechnology and Biological Sciences Research Council

Engineering and Physical Sciences Research Council

Publisher

Oxford University Press (OUP)

Reference83 articles.

1. Metazoan microRNAs;Bartel;Cell,2018

2. Regulation of microRNA function in animals;Gebert;Nat. Rev. Mol. Cell Biol.,2019

3. MicroRNA therapeutics: towards a new era for the management of cancer and other diseases;Rupaimoole;Nat. Rev. Drug Discov.,2017

4. Emerging concepts of miRNA therapeutics: from cells to clinic;Diener;Trends Genet.,2022

5. Regulation of microRNA biogenesis;Ha;Nat. Rev. Mol. Cell Biol.,2014

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