Literature DB >> 25087613

SPEG interacts with myotubularin, and its deficiency causes centronuclear myopathy with dilated cardiomyopathy.

Pankaj B Agrawal1, Christopher R Pierson2, Mugdha Joshi3, Xiaoli Liu4, Gianina Ravenscroft5, Behzad Moghadaszadeh3, Tiffany Talabere6, Marissa Viola7, Lindsay C Swanson3, Göknur Haliloğlu8, Beril Talim9, Kyle S Yau5, Richard J N Allcock10, Nigel G Laing5, Mark A Perrella11, Alan H Beggs12.   

Abstract

Centronuclear myopathies (CNMs) are characterized by muscle weakness and increased numbers of central nuclei within myofibers. X-linked myotubular myopathy, the most common severe form of CNM, is caused by mutations in MTM1, encoding myotubularin (MTM1), a lipid phosphatase. To increase our understanding of MTM1 function, we conducted a yeast two-hybrid screen to identify MTM1-interacting proteins. Striated muscle preferentially expressed protein kinase (SPEG), the product of SPEG complex locus (SPEG), was identified as an MTM1-interacting protein, confirmed by immunoprecipitation and immunofluorescence studies. SPEG knockout has been previously associated with severe dilated cardiomyopathy in a mouse model. Using whole-exome sequencing, we identified three unrelated CNM-affected probands, including two with documented dilated cardiomyopathy, carrying homozygous or compound-heterozygous SPEG mutations. SPEG was markedly reduced or absent in two individuals whose muscle was available for immunofluorescence and immunoblot studies. Examination of muscle samples from Speg-knockout mice revealed an increased frequency of central nuclei, as seen in human subjects. SPEG localizes in a double line, flanking desmin over the Z lines, and is apparently in alignment with the terminal cisternae of the sarcoplasmic reticulum. Examination of human and murine MTM1-deficient muscles revealed similar abnormalities in staining patterns for both desmin and SPEG. Our results suggest that mutations in SPEG, encoding SPEG, cause a CNM phenotype as a result of its interaction with MTM1. SPEG is present in cardiac muscle, where it plays a critical role; therefore, individuals with SPEG mutations additionally present with dilated cardiomyopathy.
Copyright © 2014 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

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Year:  2014        PMID: 25087613      PMCID: PMC4129406          DOI: 10.1016/j.ajhg.2014.07.004

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


  23 in total

1.  Mutations in amphiphysin 2 (BIN1) disrupt interaction with dynamin 2 and cause autosomal recessive centronuclear myopathy.

Authors:  Anne-Sophie Nicot; Anne Toussaint; Valérie Tosch; Christine Kretz; Carina Wallgren-Pettersson; Erik Iwarsson; Helen Kingston; Jean-Marie Garnier; Valérie Biancalana; Anders Oldfors; Jean-Louis Mandel; Jocelyn Laporte
Journal:  Nat Genet       Date:  2007-08-05       Impact factor: 38.330

Review 2.  X-linked myotubular and centronuclear myopathies.

Authors:  Christopher R Pierson; Kinga Tomczak; Pankaj Agrawal; Behzad Moghadaszadeh; Alan H Beggs
Journal:  J Neuropathol Exp Neurol       Date:  2005-07       Impact factor: 3.685

3.  Striated muscle preferentially expressed genes alpha and beta are two serine/threonine protein kinases derived from the same gene as the aortic preferentially expressed gene-1.

Authors:  C M Hsieh; S Fukumoto; M D Layne; K Maemura; H Charles; A Patel; M A Perrella; M E Lee
Journal:  J Biol Chem       Date:  2000-11-24       Impact factor: 5.157

4.  Mutations in dynamin 2 cause dominant centronuclear myopathy.

Authors:  Marc Bitoun; Svetlana Maugenre; Pierre-Yves Jeannet; Emmanuelle Lacène; Xavier Ferrer; Pascal Laforêt; Jean-Jacques Martin; Jocelyn Laporte; Hanns Lochmüller; Alan H Beggs; Michel Fardeau; Bruno Eymard; Norma B Romero; Pascale Guicheney
Journal:  Nat Genet       Date:  2005-10-16       Impact factor: 38.330

5.  A gene mutated in X-linked myotubular myopathy defines a new putative tyrosine phosphatase family conserved in yeast.

Authors:  J Laporte; L J Hu; C Kretz; J L Mandel; P Kioschis; J F Coy; S M Klauck; A Poustka; N Dahl
Journal:  Nat Genet       Date:  1996-06       Impact factor: 38.330

6.  The human desmin locus: gene organization and LCR-mediated transcriptional control.

Authors:  Jennifer L Y Tam; Kostas Triantaphyllopoulos; Helen Todd; Selina Raguz; Ton de Wit; Jennifer E Morgan; Terence A Partridge; Eleni Makrinou; Frank Grosveld; Michael Antoniou
Journal:  Genomics       Date:  2006-03-20       Impact factor: 5.736

7.  Disruption of striated preferentially expressed gene locus leads to dilated cardiomyopathy in mice.

Authors:  Xiaoli Liu; Tripurasundari Ramjiganesh; Yen-Hsu Chen; Su Wol Chung; Sean R Hall; Scott L Schissel; Robert F Padera; Ronglih Liao; Kate G Ackerman; Jan Kajstura; Annarosa Leri; Piero Anversa; Shaw-Fang Yet; Matthew D Layne; Mark A Perrella
Journal:  Circulation       Date:  2008-12-31       Impact factor: 29.690

8.  Loss of myotubularin function results in T-tubule disorganization in zebrafish and human myotubular myopathy.

Authors:  James J Dowling; Andrew P Vreede; Sean E Low; Elizabeth M Gibbs; John Y Kuwada; Carsten G Bonnemann; Eva L Feldman
Journal:  PLoS Genet       Date:  2009-02-06       Impact factor: 5.917

9.  Phosphatase-dead myotubularin ameliorates X-linked centronuclear myopathy phenotypes in mice.

Authors:  Leonela Amoasii; Dimitri L Bertazzi; Hélène Tronchère; Karim Hnia; Gaëtan Chicanne; Bruno Rinaldi; Belinda S Cowling; Arnaud Ferry; Bruno Klaholz; Bernard Payrastre; Jocelyn Laporte; Sylvie Friant
Journal:  PLoS Genet       Date:  2012-10-11       Impact factor: 5.917

10.  AAV-mediated intramuscular delivery of myotubularin corrects the myotubular myopathy phenotype in targeted murine muscle and suggests a function in plasma membrane homeostasis.

Authors:  Anna Buj-Bello; Françoise Fougerousse; Yannick Schwab; Nadia Messaddeq; Danièle Spehner; Christopher R Pierson; Muriel Durand; Christine Kretz; Olivier Danos; Anne-Marie Douar; Alan H Beggs; Patrick Schultz; Marie Montus; Patrice Denèfle; Jean-Louis Mandel
Journal:  Hum Mol Genet       Date:  2008-04-22       Impact factor: 6.150
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  60 in total

1.  A map of the phosphoproteomic alterations that occur after a bout of maximal-intensity contractions.

Authors:  Gregory K Potts; Rachel M McNally; Rocky Blanco; Jae-Sung You; Alexander S Hebert; Michael S Westphall; Joshua J Coon; Troy A Hornberger
Journal:  J Physiol       Date:  2017-07-04       Impact factor: 5.182

2.  Characterization and genetic diagnosis of centronuclear myopathies in seven Chinese patients.

Authors:  Yan Zhao; Zhe Zhao; Hongrui Shen; Qi Bing; Jing Hu
Journal:  Neurol Sci       Date:  2018-09-19       Impact factor: 3.307

3.  Novel SPEG mutations in congenital myopathies: Genotype-phenotype correlations.

Authors:  Anita E Qualls; Sandra Donkervoort; Johanna C Herkert; Alissa M D'gama; Diana Bharucha-Goebel; James Collins; Katherine R Chao; A Reghan Foley; Mirthe H Schoots; Jan D H Jongbloed; Carsten G Bönnemann; Pankaj B Agrawal
Journal:  Muscle Nerve       Date:  2018-11-28       Impact factor: 3.217

Review 4.  Pathophysiological concepts in the congenital myopathies: blurring the boundaries, sharpening the focus.

Authors:  Gianina Ravenscroft; Nigel G Laing; Carsten G Bönnemann
Journal:  Brain       Date:  2014-12-31       Impact factor: 13.501

5.  Defining the Complexity of the Junctional Membrane Complex.

Authors:  Barry London
Journal:  Circ Res       Date:  2017-01-06       Impact factor: 17.367

6.  Pathogenic Variants in the Myosin Chaperone UNC-45B Cause Progressive Myopathy with Eccentric Cores.

Authors:  Sandra Donkervoort; Carl E Kutzner; Ying Hu; Xavière Lornage; John Rendu; Tanya Stojkovic; Jonathan Baets; Sarah B Neuhaus; Jantima Tanboon; Reza Maroofian; Véronique Bolduc; Magdalena Mroczek; Stefan Conijn; Nancy L Kuntz; Ana Töpf; Soledad Monges; Fabiana Lubieniecki; Riley M McCarty; Katherine R Chao; Serena Governali; Johann Böhm; Kanokwan Boonyapisit; Edoardo Malfatti; Tumtip Sangruchi; Iren Horkayne-Szakaly; Carola Hedberg-Oldfors; Stephanie Efthymiou; Satoru Noguchi; Sarah Djeddi; Aritoshi Iida; Gabriella di Rosa; Chiara Fiorillo; Vincenzo Salpietro; Niklas Darin; Julien Fauré; Henry Houlden; Anders Oldfors; Ichizo Nishino; Willem de Ridder; Volker Straub; Wojciech Pokrzywa; Jocelyn Laporte; A Reghan Foley; Norma B Romero; Coen Ottenheijm; Thorsten Hoppe; Carsten G Bönnemann
Journal:  Am J Hum Genet       Date:  2020-11-19       Impact factor: 11.025

7.  Striated Preferentially Expressed Protein Kinase (SPEG)-Deficient Skeletal Muscles Display Fewer Satellite Cells with Reduced Proliferation and Delayed Differentiation.

Authors:  Qifei Li; Jasmine Lin; Samantha M Rosen; Tian Zhang; Shideh Kazerounian; Shiyu Luo; Pankaj B Agrawal
Journal:  Am J Pathol       Date:  2020-09-11       Impact factor: 4.307

8.  Impaired excitation-contraction coupling in muscle fibres from the dynamin2R465W mouse model of centronuclear myopathy.

Authors:  Candice Kutchukian; Peter Szentesi; Bruno Allard; Delphine Trochet; Maud Beuvin; Christine Berthier; Yves Tourneur; Pascale Guicheney; Laszlo Csernoch; Marc Bitoun; Vincent Jacquemond
Journal:  J Physiol       Date:  2017-11-21       Impact factor: 5.182

9.  Striated muscle-specific serine/threonine-protein kinase beta segregates with high versus low responsiveness to endurance exercise training.

Authors:  Denis Kusić; Joanne Connolly; Heikki Kainulainen; Ekaterina A Semenova; Oleg V Borisov; Andrey K Larin; Daniil V Popov; Edward V Generozov; Ildus I Ahmetov; Steven L Britton; Lauren G Koch; Jatin G Burniston
Journal:  Physiol Genomics       Date:  2019-12-02       Impact factor: 3.107

10.  New massive parallel sequencing approach improves the genetic characterization of congenital myopathies.

Authors:  Jorge Oliveira; Ana Gonçalves; Ricardo Taipa; Manuel Melo-Pires; Márcia E Oliveira; José Luís Costa; José Carlos Machado; Elmira Medeiros; Teresa Coelho; Manuela Santos; Rosário Santos; Mário Sousa
Journal:  J Hum Genet       Date:  2016-02-04       Impact factor: 3.172
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