PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly

PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly

Summary: The regulation of mitochondrial RNA life cycles and their roles in ribosome biogenesis and energy metabolism are not fully understood. We used CRISPR/Cas9 to generate heart- and skeletal-muscle-specific knockout mice of the pentatricopeptide repeat domain protein 1, PTCD1, and show that its...

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Main Authors: Kara L. Perks, Giulia Rossetti, Irina Kuznetsova, Laetitia A. Hughes, Judith A. Ermer, Nicola Ferreira, Jakob D. Busch, Danielle L. Rudler, Henrik Spahr, Thomas Schöndorf, Ann-Marie J. Shearwood, Helena M. Viola, Stefan J. Siira, Livia C. Hool, Dusanka Milenkovic, Nils-Göran Larsson, Oliver Rackham, Aleksandra Filipovska
Format: Article
Language:English
Published: Elsevier 2018-04-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124718303759
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author Kara L. Perks
Giulia Rossetti
Irina Kuznetsova
Laetitia A. Hughes
Judith A. Ermer
Nicola Ferreira
Jakob D. Busch
Danielle L. Rudler
Henrik Spahr
Thomas Schöndorf
Ann-Marie J. Shearwood
Helena M. Viola
Stefan J. Siira
Livia C. Hool
Dusanka Milenkovic
Nils-Göran Larsson
Oliver Rackham
Aleksandra Filipovska
spellingShingle Kara L. Perks
Giulia Rossetti
Irina Kuznetsova
Laetitia A. Hughes
Judith A. Ermer
Nicola Ferreira
Jakob D. Busch
Danielle L. Rudler
Henrik Spahr
Thomas Schöndorf
Ann-Marie J. Shearwood
Helena M. Viola
Stefan J. Siira
Livia C. Hool
Dusanka Milenkovic
Nils-Göran Larsson
Oliver Rackham
Aleksandra Filipovska
PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly
Cell Reports
author_facet Kara L. Perks
Giulia Rossetti
Irina Kuznetsova
Laetitia A. Hughes
Judith A. Ermer
Nicola Ferreira
Jakob D. Busch
Danielle L. Rudler
Henrik Spahr
Thomas Schöndorf
Ann-Marie J. Shearwood
Helena M. Viola
Stefan J. Siira
Livia C. Hool
Dusanka Milenkovic
Nils-Göran Larsson
Oliver Rackham
Aleksandra Filipovska
author_sort Kara L. Perks
title PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly
title_short PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly
title_full PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly
title_fullStr PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly
title_full_unstemmed PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome Assembly
title_sort ptcd1 is required for 16s rrna maturation complex stability and mitochondrial ribosome assembly
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2018-04-01
description Summary: The regulation of mitochondrial RNA life cycles and their roles in ribosome biogenesis and energy metabolism are not fully understood. We used CRISPR/Cas9 to generate heart- and skeletal-muscle-specific knockout mice of the pentatricopeptide repeat domain protein 1, PTCD1, and show that its loss leads to severe cardiomyopathy and premature death. Our detailed transcriptome-wide and functional analyses of these mice enabled us to identify the molecular role of PTCD1 as a 16S rRNA-binding protein essential for its stability, pseudouridylation, and correct biogenesis of the mitochondrial large ribosomal subunit. We show that impaired mitoribosome biogenesis can have retrograde signaling effects on nuclear gene expression through the transcriptional activation of the mTOR pathway and upregulation of cytoplasmic protein synthesis and pro-survival factors in the absence of mitochondrial translation. Taken together, our data show that impaired assembly of the mitoribosome exerts its consequences via differential regulation of mitochondrial and cytoplasmic protein synthesis. : Perks et al. engineered intron-exon boundaries using CRISPR/Cas9 to conditionally knock out Ptcd1 in mice. The RNA-binding protein PTCD1 is essential for heart function and regulates the stability and maturation of the 16S rRNA. PTCD1 is required for mitoribosome biogenesis, mitochondrial function, and coordinated nuclear transcription. Keywords: RNA, cardiomyopathy, regulatory RNAs, RNA-seq, mitochondrial ribosome, RNA-binding proteins, mitochondria, mitochondrial gene expression, ribosome biogenesis
url http://www.sciencedirect.com/science/article/pii/S2211124718303759
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spelling doaj-8dbb75c8694646508ff8f39a311f3b3c2020-11-25T01:52:32ZengElsevierCell Reports2211-12472018-04-01231127142PTCD1 Is Required for 16S rRNA Maturation Complex Stability and Mitochondrial Ribosome AssemblyKara L. Perks0Giulia Rossetti1Irina Kuznetsova2Laetitia A. Hughes3Judith A. Ermer4Nicola Ferreira5Jakob D. Busch6Danielle L. Rudler7Henrik Spahr8Thomas Schöndorf9Ann-Marie J. Shearwood10Helena M. Viola11Stefan J. Siira12Livia C. Hool13Dusanka Milenkovic14Nils-Göran Larsson15Oliver Rackham16Aleksandra Filipovska17Harry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaDepartment of Mitochondrial Biology, Max Planck Institute for Biology of Ageing, 50931 Cologne, GermanyHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaDepartment of Mitochondrial Biology, Max Planck Institute for Biology of Ageing, 50931 Cologne, GermanyDepartment of Mitochondrial Biology, Max Planck Institute for Biology of Ageing, 50931 Cologne, GermanyHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaSchool of Human Sciences (Physiology), The University of Western Australia, Crawley, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, AustraliaSchool of Human Sciences (Physiology), The University of Western Australia, Crawley, Western Australia 6009, Australia; Victor Chang Cardiac Research Institute, Darlinghurst, NSW 2010, AustraliaDepartment of Mitochondrial Biology, Max Planck Institute for Biology of Ageing, 50931 Cologne, GermanyDepartment of Mitochondrial Biology, Max Planck Institute for Biology of Ageing, 50931 Cologne, Germany; Department of Medical Biochemistry and Biophysics, Karolinska Institutet, Stockholm 17177, SwedenHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, Australia; School of Molecular Sciences, The University of Western Australia, Crawley, Western Australia 6009, AustraliaHarry Perkins Institute of Medical Research, Centre for Medical Research, QEII Medical Centre, The University of Western Australia, Nedlands, Western Australia 6009, Australia; School of Molecular Sciences, The University of Western Australia, Crawley, Western Australia 6009, Australia; Corresponding authorSummary: The regulation of mitochondrial RNA life cycles and their roles in ribosome biogenesis and energy metabolism are not fully understood. We used CRISPR/Cas9 to generate heart- and skeletal-muscle-specific knockout mice of the pentatricopeptide repeat domain protein 1, PTCD1, and show that its loss leads to severe cardiomyopathy and premature death. Our detailed transcriptome-wide and functional analyses of these mice enabled us to identify the molecular role of PTCD1 as a 16S rRNA-binding protein essential for its stability, pseudouridylation, and correct biogenesis of the mitochondrial large ribosomal subunit. We show that impaired mitoribosome biogenesis can have retrograde signaling effects on nuclear gene expression through the transcriptional activation of the mTOR pathway and upregulation of cytoplasmic protein synthesis and pro-survival factors in the absence of mitochondrial translation. Taken together, our data show that impaired assembly of the mitoribosome exerts its consequences via differential regulation of mitochondrial and cytoplasmic protein synthesis. : Perks et al. engineered intron-exon boundaries using CRISPR/Cas9 to conditionally knock out Ptcd1 in mice. The RNA-binding protein PTCD1 is essential for heart function and regulates the stability and maturation of the 16S rRNA. PTCD1 is required for mitoribosome biogenesis, mitochondrial function, and coordinated nuclear transcription. Keywords: RNA, cardiomyopathy, regulatory RNAs, RNA-seq, mitochondrial ribosome, RNA-binding proteins, mitochondria, mitochondrial gene expression, ribosome biogenesishttp://www.sciencedirect.com/science/article/pii/S2211124718303759

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