Literature DB >> 27745833

Variants in the Oxidoreductase PYROXD1 Cause Early-Onset Myopathy with Internalized Nuclei and Myofibrillar Disorganization.

Gina L O'Grady1, Heather A Best2, Tamar E Sztal3, Vanessa Schartner4, Myriam Sanjuan-Vazquez5, Sandra Donkervoort6, Osorio Abath Neto4, Roger Bryan Sutton7, Biljana Ilkovski8, Norma Beatriz Romero9, Tanya Stojkovic10, Jahannaz Dastgir6, Leigh B Waddell8, Anne Boland11, Ying Hu6, Caitlin Williams3, Avnika A Ruparelia3, Thierry Maisonobe10, Anthony J Peduto12, Stephen W Reddel13, Monkol Lek14, Taru Tukiainen14, Beryl B Cummings14, Himanshu Joshi8, Juliette Nectoux15, Susan Brammah16, Jean-François Deleuze11, Viola Oorschot Ing17, Georg Ramm18, Didem Ardicli19, Kristen J Nowak20, Beril Talim19, Haluk Topaloglu19, Nigel G Laing20, Kathryn N North21, Daniel G MacArthur14, Sylvie Friant5, Nigel F Clarke2, Robert J Bryson-Richardson3, Carsten G Bönnemann6, Jocelyn Laporte22, Sandra T Cooper23.   

Abstract

This study establishes PYROXD1 variants as a cause of early-onset myopathy and uses biospecimens and cell lines, yeast, and zebrafish models to elucidate the fundamental role of PYROXD1 in skeletal muscle. Exome sequencing identified recessive variants in PYROXD1 in nine probands from five families. Affected individuals presented in infancy or childhood with slowly progressive proximal and distal weakness, facial weakness, nasal speech, swallowing difficulties, and normal to moderately elevated creatine kinase. Distinctive histopathology showed abundant internalized nuclei, myofibrillar disorganization, desmin-positive inclusions, and thickened Z-bands. PYROXD1 is a nuclear-cytoplasmic pyridine nucleotide-disulphide reductase (PNDR). PNDRs are flavoproteins (FAD-binding) and catalyze pyridine-nucleotide-dependent (NAD/NADH) reduction of thiol residues in other proteins. Complementation experiments in yeast lacking glutathione reductase glr1 show that human PYROXD1 has reductase activity that is strongly impaired by the disease-associated missense mutations. Immunolocalization studies in human muscle and zebrafish myofibers demonstrate that PYROXD1 localizes to the nucleus and to striated sarcomeric compartments. Zebrafish with ryroxD1 knock-down recapitulate features of PYROXD1 myopathy with sarcomeric disorganization, myofibrillar aggregates, and marked swimming defect. We characterize variants in the oxidoreductase PYROXD1 as a cause of early-onset myopathy with distinctive histopathology and introduce altered redox regulation as a primary cause of congenital muscle disease.
Copyright © 2016 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 27745833      PMCID: PMC5097943          DOI: 10.1016/j.ajhg.2016.09.005

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


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