ESRP2–microRNA-122 axis promotes the postnatal onset of liver polyploidization and maturation

Sushant Bangru; Jackie Chen; Nicholas Baker; Diptatanu Das; Ullas V. Chembazhi; Jessica M. Derham; Sandip Chorghade; Waqar Arif; Frances Alencastro; Andrew W. Duncan; Russ P. Carstens; Auinash Kalsotra

doi:10.1101/gad.352129.124

ESRP2–microRNA-122 axis promotes the postnatal onset of liver polyploidization and maturation

Sushant Bangru, Jackie Chen, Nicholas Baker, Diptatanu Das, Ullas V. Chembazhi, Jessica M. Derham, Sandip Chorghade, Waqar Arif, Frances Alencastro, Andrew W. Duncan, Russ P. Carstens, Auinash Kalsotra

Research output: Contribution to journal › Article › peer-review

Abstract

Hepatocyte polyploidy and maturity are critical to acquiring specialized liver functions. Multiple intracellular and extracellular factors influence ploidy, but how they cooperate temporally to steer liver polyploidization and maturation or how post-transcriptional mechanisms integrate into these paradigms is unknown. Here, we identified an important regulatory hierarchy in which postnatal activation of epithelial splicing regulatory protein 2 (ESRP2) stimulates processing of liver-specific microRNA (miR-122) to facilitate polyploidization, maturation, and functional competence of hepatocytes. By determining transcriptome-wide protein–RNA interactions in vivo and integrating them with single-cell and bulk hepatocyte RNA-seq data sets, we delineated an ESRP2-driven RNA processing program that drives sequential replacement of fetal-to-adult transcript isoforms. Specifically, ESRP2 binds the primary miR-122 host gene transcript to promote its processing/biogenesis. Combining constitutive and inducible ESRP2 gain- and loss-of-function mouse models with miR-122 rescue experiments, we demonstrated that timed activation of ESRP2 augments the miR-122-driven program of cytokinesis failure, ensuring the proper onset and extent of hepatocyte polyploidization.

Original language	English (US)
Pages (from-to)	325-347
Number of pages	23
Journal	Genes and Development
Volume	39
Issue number	5-6
Early online date	Jan 10 2025
DOIs	https://doi.org/10.1101/gad.352129.124
State	Published - Mar 1 2025

Keywords

eCLIP
ESRP2
genome editing
hepatocyte maturation]
microRNA
polyploidy
protein–RNA interactions
RNA processing
single-cell transcriptomics

ASJC Scopus subject areas

General Medicine

Online availability

10.1101/gad.352129.124

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@article{b440e67a67dc4772a02a8f16372a1da7,

title = "ESRP2–microRNA-122 axis promotes the postnatal onset of liver polyploidization and maturation",

abstract = "Hepatocyte polyploidy and maturity are critical to acquiring specialized liver functions. Multiple intracellular and extracellular factors influence ploidy, but how they cooperate temporally to steer liver polyploidization and maturation or how post-transcriptional mechanisms integrate into these paradigms is unknown. Here, we identified an important regulatory hierarchy in which postnatal activation of epithelial splicing regulatory protein 2 (ESRP2) stimulates processing of liver-specific microRNA (miR-122) to facilitate polyploidization, maturation, and functional competence of hepatocytes. By determining transcriptome-wide protein–RNA interactions in vivo and integrating them with single-cell and bulk hepatocyte RNA-seq data sets, we delineated an ESRP2-driven RNA processing program that drives sequential replacement of fetal-to-adult transcript isoforms. Specifically, ESRP2 binds the primary miR-122 host gene transcript to promote its processing/biogenesis. Combining constitutive and inducible ESRP2 gain- and loss-of-function mouse models with miR-122 rescue experiments, we demonstrated that timed activation of ESRP2 augments the miR-122-driven program of cytokinesis failure, ensuring the proper onset and extent of hepatocyte polyploidization.",

keywords = "eCLIP, ESRP2, genome editing, hepatocyte maturation], microRNA, polyploidy, protein–RNA interactions, RNA processing, single-cell transcriptomics",

author = "Sushant Bangru and Jackie Chen and Nicholas Baker and Diptatanu Das and Chembazhi, {Ullas V.} and Derham, {Jessica M.} and Sandip Chorghade and Waqar Arif and Frances Alencastro and Duncan, {Andrew W.} and Carstens, {Russ P.} and Auinash Kalsotra",

note = "We thank the members of the Kalsotra laboratory for valuable discussions and comments on the manuscript. This work was supported through National Institutes of Health (NIH) grants R01AA010154, R01HL126845, and R21HD104039 to A.K., and R01DK103645 to A.W.D.; a Chan Zuckerberg Biohub Chicago Award, and Muscular Dystrophy Association research grant MDA1072487 to A.K.; the Commonwealth of Pennsylvania (A.W.D); the NIH Tissue Microenvironment Training Program (T32-EB019944) and University of Illinois Urbana-Champaign (UIUC) Scott Dissertation Completion Fellowship to S.B.; the NIH Chemistry\u2013Biology Interface Training Program (T32-GM070421) to N.B; the Herbert E. Carter Fellowship in Biochemistry to U.V.C.; the Danica Dabich Fellowship in Biochemistry to J.M.D.; and NIH Predoctoral National Research Service Award Fellowship F30DK108567 to W.A. The Transgenic Mouse Core, High-Throughput Sequencing/Genotyping Core, and Histology/Microscopy Core Facilities at UIUC and the Pittsburgh Liver Research Center Advanced Cell Tissue and Imaging Core (P30DK120531) supported this project.",

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doi = "10.1101/gad.352129.124",

language = "English (US)",

volume = "39",

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journal = "Genes and Development",

issn = "0890-9369",

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AU - Bangru, Sushant

AU - Chen, Jackie

AU - Baker, Nicholas

AU - Das, Diptatanu

AU - Chembazhi, Ullas V.

AU - Derham, Jessica M.

AU - Chorghade, Sandip

AU - Arif, Waqar

AU - Alencastro, Frances

AU - Duncan, Andrew W.

AU - Carstens, Russ P.

AU - Kalsotra, Auinash

N1 - We thank the members of the Kalsotra laboratory for valuable discussions and comments on the manuscript. This work was supported through National Institutes of Health (NIH) grants R01AA010154, R01HL126845, and R21HD104039 to A.K., and R01DK103645 to A.W.D.; a Chan Zuckerberg Biohub Chicago Award, and Muscular Dystrophy Association research grant MDA1072487 to A.K.; the Commonwealth of Pennsylvania (A.W.D); the NIH Tissue Microenvironment Training Program (T32-EB019944) and University of Illinois Urbana-Champaign (UIUC) Scott Dissertation Completion Fellowship to S.B.; the NIH Chemistry\u2013Biology Interface Training Program (T32-GM070421) to N.B; the Herbert E. Carter Fellowship in Biochemistry to U.V.C.; the Danica Dabich Fellowship in Biochemistry to J.M.D.; and NIH Predoctoral National Research Service Award Fellowship F30DK108567 to W.A. The Transgenic Mouse Core, High-Throughput Sequencing/Genotyping Core, and Histology/Microscopy Core Facilities at UIUC and the Pittsburgh Liver Research Center Advanced Cell Tissue and Imaging Core (P30DK120531) supported this project.

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N2 - Hepatocyte polyploidy and maturity are critical to acquiring specialized liver functions. Multiple intracellular and extracellular factors influence ploidy, but how they cooperate temporally to steer liver polyploidization and maturation or how post-transcriptional mechanisms integrate into these paradigms is unknown. Here, we identified an important regulatory hierarchy in which postnatal activation of epithelial splicing regulatory protein 2 (ESRP2) stimulates processing of liver-specific microRNA (miR-122) to facilitate polyploidization, maturation, and functional competence of hepatocytes. By determining transcriptome-wide protein–RNA interactions in vivo and integrating them with single-cell and bulk hepatocyte RNA-seq data sets, we delineated an ESRP2-driven RNA processing program that drives sequential replacement of fetal-to-adult transcript isoforms. Specifically, ESRP2 binds the primary miR-122 host gene transcript to promote its processing/biogenesis. Combining constitutive and inducible ESRP2 gain- and loss-of-function mouse models with miR-122 rescue experiments, we demonstrated that timed activation of ESRP2 augments the miR-122-driven program of cytokinesis failure, ensuring the proper onset and extent of hepatocyte polyploidization.

AB - Hepatocyte polyploidy and maturity are critical to acquiring specialized liver functions. Multiple intracellular and extracellular factors influence ploidy, but how they cooperate temporally to steer liver polyploidization and maturation or how post-transcriptional mechanisms integrate into these paradigms is unknown. Here, we identified an important regulatory hierarchy in which postnatal activation of epithelial splicing regulatory protein 2 (ESRP2) stimulates processing of liver-specific microRNA (miR-122) to facilitate polyploidization, maturation, and functional competence of hepatocytes. By determining transcriptome-wide protein–RNA interactions in vivo and integrating them with single-cell and bulk hepatocyte RNA-seq data sets, we delineated an ESRP2-driven RNA processing program that drives sequential replacement of fetal-to-adult transcript isoforms. Specifically, ESRP2 binds the primary miR-122 host gene transcript to promote its processing/biogenesis. Combining constitutive and inducible ESRP2 gain- and loss-of-function mouse models with miR-122 rescue experiments, we demonstrated that timed activation of ESRP2 augments the miR-122-driven program of cytokinesis failure, ensuring the proper onset and extent of hepatocyte polyploidization.

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KW - ESRP2

KW - genome editing

KW - hepatocyte maturation]

KW - microRNA

KW - polyploidy

KW - protein–RNA interactions

KW - RNA processing

KW - single-cell transcriptomics

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ER -

ESRP2–microRNA-122 axis promotes the postnatal onset of liver polyploidization and maturation

Abstract

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