Literature DB >> 29618008

Variable rescue of microtubule and physiological phenotypes in mdx muscle expressing different miniaturized dystrophins.

D'anna M Nelson1, Angus Lindsay1,2, Luke M Judge3, Dongsheng Duan4, Jeffrey S Chamberlain3, Dawn A Lowe2, James M Ervasti1.   

Abstract

Delivery of miniaturized dystrophin genes via adeno-associated viral vectors is one leading approach in development to treat Duchenne muscular dystrophy. Here we directly compared the functionality of five mini- and micro-dystrophins via skeletal muscle-specific transgenic expression in dystrophin-deficient mdx mice. We evaluated their ability to rescue defects in the microtubule network, passive stiffness and contractility of skeletal muscle. Transgenic mdx mice expressing the short dystrophin isoform Dp116 served as a negative control. All mini- and micro-dystrophins restored elevated detyrosinated α-tubulin and microtubule density of mdx muscle to values not different from C57BL/10, however, only mini-dystrophins restored the transverse component of the microtubule lattice back to C57BL/10. Passive stiffness values in mdx muscles expressing mini- or micro-dystrophins were not different from C57BL/10. While all mini- and micro-dystrophins conferred significant protection from eccentric contraction-induced force loss in vivo and ex vivo compared to mdx, removal of repeats two and three resulted in less protection from force drop caused by eccentric contraction ex vivo. Our data reveal subtle yet significant differences in the relative functionalities for different therapeutic constructs of miniaturized dystrophin in terms of protection from ex vivo eccentric contraction-induced force loss and restoration of an organized microtubule lattice.

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Year:  2018        PMID: 29618008      PMCID: PMC5985723          DOI: 10.1093/hmg/ddy113

Source DB:  PubMed          Journal:  Hum Mol Genet        ISSN: 0964-6906            Impact factor:   5.121


  68 in total

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3.  rAAV6-microdystrophin rescues aberrant Golgi complex organization in mdx skeletal muscles.

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6.  A new directionality tool for assessing microtubule pattern alterations.

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Journal:  Cytoskeleton (Hoboken)       Date:  2014-02-14

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Journal:  Mol Ther Methods Clin Dev       Date:  2017-07-27       Impact factor: 6.698

10.  Obscurin is required for ankyrinB-dependent dystrophin localization and sarcolemma integrity.

Authors:  Davide Randazzo; Emiliana Giacomello; Stefania Lorenzini; Daniela Rossi; Enrico Pierantozzi; Bert Blaauw; Carlo Reggiani; Stephan Lange; Angela K Peter; Ju Chen; Vincenzo Sorrentino
Journal:  J Cell Biol       Date:  2013-02-18       Impact factor: 10.539
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  21 in total

1.  Persistent upregulation of the β-tubulin tubb6, linked to muscle regeneration, is a source of microtubule disorganization in dystrophic muscle.

Authors:  Davide Randazzo; Umara Khalique; Joseph J Belanto; Aster Kenea; Dana M Talsness; John T Olthoff; Michelle D Tran; Kristien J Zaal; Katherine Pak; Iago Pinal-Fernandez; Andrew L Mammen; Dan Sackett; James M Ervasti; Evelyn Ralston
Journal:  Hum Mol Genet       Date:  2019-04-01       Impact factor: 6.150

Review 2.  Cardiac microtubules in health and heart disease.

Authors:  Matthew A Caporizzo; Christina Yingxian Chen; Benjamin L Prosser
Journal:  Exp Biol Med (Maywood)       Date:  2019-08-09

3.  CRISPR-Induced Deletion with SaCas9 Restores Dystrophin Expression in Dystrophic Models In Vitro and In Vivo.

Authors:  Benjamin L Duchêne; Khadija Cherif; Jean-Paul Iyombe-Engembe; Antoine Guyon; Joel Rousseau; Dominique L Ouellet; Xavier Barbeau; Patrick Lague; Jacques P Tremblay
Journal:  Mol Ther       Date:  2018-08-16       Impact factor: 11.454

4.  Variable cytoplasmic actin expression impacts the sensitivity of different dystrophin-deficient mdx skeletal muscles to eccentric contraction.

Authors:  Angus Lindsay; William M Southern; Preston M McCourt; Alexie A Larson; James S Hodges; Dawn A Lowe; James M Ervasti
Journal:  FEBS J       Date:  2019-04-11       Impact factor: 5.542

5.  Dystrophinopathy-associated dysfunction of Krebs cycle metabolism.

Authors:  Angus Lindsay; Christopher M Chamberlain; Bruce A Witthuhn; Dawn A Lowe; James M Ervasti
Journal:  Hum Mol Genet       Date:  2019-03-15       Impact factor: 6.150

6.  Differential YAP nuclear signaling in healthy and dystrophic skeletal muscle.

Authors:  Shama R Iyer; Sameer B Shah; Christopher W Ward; Joseph P Stains; Espen E Spangenburg; Eric S Folker; Richard M Lovering
Journal:  Am J Physiol Cell Physiol       Date:  2019-04-17       Impact factor: 4.249

Review 7.  Mechanisms of microtubule organization in differentiated animal cells.

Authors:  Anna Akhmanova; Lukas C Kapitein
Journal:  Nat Rev Mol Cell Biol       Date:  2022-04-05       Impact factor: 113.915

8.  Dystrophin As a Molecular Shock Absorber.

Authors:  Shimin Le; Miao Yu; Ladislav Hovan; Zhihai Zhao; James Ervasti; Jie Yan
Journal:  ACS Nano       Date:  2018-11-27       Impact factor: 15.881

9.  Isometric resistance training increases strength and alters histopathology of dystrophin-deficient mouse skeletal muscle.

Authors:  Angus Lindsay; Alexie A Larson; Mayank Verma; James M Ervasti; Dawn A Lowe
Journal:  J Appl Physiol (1985)       Date:  2018-12-20

10.  Proteomic analysis identifies key differences in the cardiac interactomes of dystrophin and micro-dystrophin.

Authors:  Hong Wang; Elena Marrosu; Daniel Brayson; Nalinda B Wasala; Eric K Johnson; Charlotte S Scott; Yongping Yue; Kwan-Leong Hau; Aaron J Trask; Stan C Froehner; Marvin E Adams; Liwen Zhang; Dongsheng Duan; Federica Montanaro
Journal:  Hum Mol Genet       Date:  2021-06-26       Impact factor: 6.150
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