p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival

p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival

Abstract Background Reversible ε‐amino acetylation of lysine residues regulates transcription as well as metabolic flux; however, roles for specific lysine acetyltransferases in skeletal muscle physiology and function are unknown. In this study, we investigated the role of the related acetyltransfer...

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Main Authors: Kristoffer Svensson, Samuel A. LaBarge, Abha Sathe, Vitor F. Martins, Shahriar Tahvilian, Jennifer M. Cunliffe, Roman Sasik, Sushil K. Mahata, Gretchen A. Meyer, Andrew Philp, Larry L. David, Samuel R. Ward, Carrie E. McCurdy, Joseph E. Aslan, Simon Schenk
Format: Article
Language:English
Published: Wiley 2020-04-01
Series:Journal of Cachexia, Sarcopenia and Muscle
Subjects:
Acetylation
Acetyltransferases
Transcriptomics
Proteomics
Muscle contraction
Online Access:https://doi.org/10.1002/jcsm.12522
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author Kristoffer Svensson
Samuel A. LaBarge
Abha Sathe
Vitor F. Martins
Shahriar Tahvilian
Jennifer M. Cunliffe
Roman Sasik
Sushil K. Mahata
Gretchen A. Meyer
Andrew Philp
Larry L. David
Samuel R. Ward
Carrie E. McCurdy
Joseph E. Aslan
Simon Schenk
spellingShingle Kristoffer Svensson
Samuel A. LaBarge
Abha Sathe
Vitor F. Martins
Shahriar Tahvilian
Jennifer M. Cunliffe
Roman Sasik
Sushil K. Mahata
Gretchen A. Meyer
Andrew Philp
Larry L. David
Samuel R. Ward
Carrie E. McCurdy
Joseph E. Aslan
Simon Schenk
p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
Journal of Cachexia, Sarcopenia and Muscle
Acetylation
Acetyltransferases
Transcriptomics
Proteomics
Muscle contraction
author_facet Kristoffer Svensson
Samuel A. LaBarge
Abha Sathe
Vitor F. Martins
Shahriar Tahvilian
Jennifer M. Cunliffe
Roman Sasik
Sushil K. Mahata
Gretchen A. Meyer
Andrew Philp
Larry L. David
Samuel R. Ward
Carrie E. McCurdy
Joseph E. Aslan
Simon Schenk
author_sort Kristoffer Svensson
title p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
title_short p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
title_full p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
title_fullStr p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
title_full_unstemmed p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
title_sort p300 and camp response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survival
publisher Wiley
series Journal of Cachexia, Sarcopenia and Muscle
issn 2190-5991
2190-6009
publishDate 2020-04-01
description Abstract Background Reversible ε‐amino acetylation of lysine residues regulates transcription as well as metabolic flux; however, roles for specific lysine acetyltransferases in skeletal muscle physiology and function are unknown. In this study, we investigated the role of the related acetyltransferases p300 and cAMP response element‐binding protein‐binding protein (CBP) in skeletal muscle transcriptional homeostasis and physiology in adult mice. Methods Mice with skeletal muscle‐specific and inducible knockout of p300 and CBP (PCKO) were generated by crossing mice with a tamoxifen‐inducible Cre recombinase expressed under the human α‐skeletal actin promoter with mice having LoxP sites flanking exon 9 of the Ep300 and Crebbp genes. Knockout of PCKO was induced at 13–15 weeks of age via oral gavage of tamoxifen for 5 days to both PCKO and littermate control [wildtype (WT)] mice. Body composition, food intake, and muscle function were assessed on day 0 (D0) through 5 (D5). Microarray and tandem mass tag mass spectrometry analyses were performed to assess global RNA and protein levels in skeletal muscle of PCKO and WT mice. Results At D5 after initiating tamoxifen treatment, there was a reduction in body weight (−15%), food intake (−78%), stride length (−46%), and grip strength (−45%) in PCKO compared with WT mice. Additionally, ex vivo contractile function [tetanic tension (kPa)] was severely impaired in PCKO vs. WT mice at D3 (~70–80% lower) and D5 (~80–95% lower) and resulted in lethality within 1 week—a phenotype that is reversed by the presence of a single allele of either p300 or CBP. The impaired muscle function in PCKO mice was paralleled by substantial transcriptional alterations (3310 genes; false discovery rate < 0.1), especially in gene networks central to muscle contraction and structural integrity. This transcriptional uncoupling was accompanied by changes in protein expression patterns indicative of impaired muscle function, albeit to a smaller magnitude (446 proteins; fold‐change > 1.25; false discovery rate < 0.1). Conclusions These data reveal that p300 and CBP are required for the control and maintenance of contractile function and transcriptional homeostasis in skeletal muscle and, ultimately, organism survival. By extension, modulating p300/CBP function may hold promise for the treatment of disorders characterized by impaired contractile function in humans.
topic Acetylation
Acetyltransferases
Transcriptomics
Proteomics
Muscle contraction
url https://doi.org/10.1002/jcsm.12522
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spelling doaj-19b284faa0d3446e92f314afabd7c7692020-11-25T02:12:32ZengWileyJournal of Cachexia, Sarcopenia and Muscle2190-59912190-60092020-04-0111246447710.1002/jcsm.12522p300 and cAMP response element‐binding protein‐binding protein in skeletal muscle homeostasis, contractile function, and survivalKristoffer Svensson0Samuel A. LaBarge1Abha Sathe2Vitor F. Martins3Shahriar Tahvilian4Jennifer M. Cunliffe5Roman Sasik6Sushil K. Mahata7Gretchen A. Meyer8Andrew Philp9Larry L. David10Samuel R. Ward11Carrie E. McCurdy12Joseph E. Aslan13Simon Schenk14Department of Orthopaedic Surgery University of California San Diego La Jolla CA USADepartment of Orthopaedic Surgery University of California San Diego La Jolla CA USADepartment of Orthopaedic Surgery University of California San Diego La Jolla CA USADepartment of Orthopaedic Surgery University of California San Diego La Jolla CA USADepartment of Orthopaedic Surgery University of California San Diego La Jolla CA USADepartment of Biochemistry and Molecular Biology, School of Medicine Oregon Health and Science University Portland OR USACenter for Computational Biology and Bioinformatics, Department of Medicine University of California San Diego La Jolla CA USAVA San Diego Healthcare System San Diego CA USAProgram in Physical Therapy and Departments of Neurology, Biomedical Engineering and Orthopaedic Surgery Washington University in St. Louis St. Louis MO USAGarvan Institute of Medical Research Darlinghurst Sydney New South Wales AustraliaDepartment of Biochemistry and Molecular Biology, School of Medicine Oregon Health and Science University Portland OR USADepartment of Orthopaedic Surgery University of California San Diego La Jolla CA USADepartment of Human Physiology University of Oregon Eugene OR USADepartment of Biochemistry and Molecular Biology, School of Medicine Oregon Health and Science University Portland OR USADepartment of Orthopaedic Surgery University of California San Diego La Jolla CA USAAbstract Background Reversible ε‐amino acetylation of lysine residues regulates transcription as well as metabolic flux; however, roles for specific lysine acetyltransferases in skeletal muscle physiology and function are unknown. In this study, we investigated the role of the related acetyltransferases p300 and cAMP response element‐binding protein‐binding protein (CBP) in skeletal muscle transcriptional homeostasis and physiology in adult mice. Methods Mice with skeletal muscle‐specific and inducible knockout of p300 and CBP (PCKO) were generated by crossing mice with a tamoxifen‐inducible Cre recombinase expressed under the human α‐skeletal actin promoter with mice having LoxP sites flanking exon 9 of the Ep300 and Crebbp genes. Knockout of PCKO was induced at 13–15 weeks of age via oral gavage of tamoxifen for 5 days to both PCKO and littermate control [wildtype (WT)] mice. Body composition, food intake, and muscle function were assessed on day 0 (D0) through 5 (D5). Microarray and tandem mass tag mass spectrometry analyses were performed to assess global RNA and protein levels in skeletal muscle of PCKO and WT mice. Results At D5 after initiating tamoxifen treatment, there was a reduction in body weight (−15%), food intake (−78%), stride length (−46%), and grip strength (−45%) in PCKO compared with WT mice. Additionally, ex vivo contractile function [tetanic tension (kPa)] was severely impaired in PCKO vs. WT mice at D3 (~70–80% lower) and D5 (~80–95% lower) and resulted in lethality within 1 week—a phenotype that is reversed by the presence of a single allele of either p300 or CBP. The impaired muscle function in PCKO mice was paralleled by substantial transcriptional alterations (3310 genes; false discovery rate < 0.1), especially in gene networks central to muscle contraction and structural integrity. This transcriptional uncoupling was accompanied by changes in protein expression patterns indicative of impaired muscle function, albeit to a smaller magnitude (446 proteins; fold‐change > 1.25; false discovery rate < 0.1). Conclusions These data reveal that p300 and CBP are required for the control and maintenance of contractile function and transcriptional homeostasis in skeletal muscle and, ultimately, organism survival. By extension, modulating p300/CBP function may hold promise for the treatment of disorders characterized by impaired contractile function in humans.https://doi.org/10.1002/jcsm.12522AcetylationAcetyltransferasesTranscriptomicsProteomicsMuscle contraction

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