Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function

Nemaline myopathy is characterized by muscle weakness and the presence of rod-like (nemaline) bodies. The genetic etiology of nemaline myopathy is becoming increasingly understood with mutations in ten genes now known to cause the disease. Despite this, the mechanism by which skeletal muscle weaknes...

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Autores principales: Sztal, Tamar E., Zhao, Mo, Williams, Caitlin, Oorschot, Viola, Parslow, Adam C., Giousoh, Aminah, Yuen, Michaela, Hall, Thomas E., Costin, Adam, Ramm, Georg, Bird, Phillip I., Busch-Nentwich, Elisabeth M., Stemple, Derek L., Currie, Peter D., Cooper, Sandra T., Laing, Nigel G., Nowak, Kristen J., Bryson-Richardson, Robert J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2015
Materias:
Original Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4541704/
https://www.ncbi.nlm.nih.gov/pubmed/25931053
http://dx.doi.org/10.1007/s00401-015-1430-3
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author Sztal, Tamar E.
Zhao, Mo
Williams, Caitlin
Oorschot, Viola
Parslow, Adam C.
Giousoh, Aminah
Yuen, Michaela
Hall, Thomas E.
Costin, Adam
Ramm, Georg
Bird, Phillip I.
Busch-Nentwich, Elisabeth M.
Stemple, Derek L.
Currie, Peter D.
Cooper, Sandra T.
Laing, Nigel G.
Nowak, Kristen J.
Bryson-Richardson, Robert J.
author_facet Sztal, Tamar E.
Zhao, Mo
Williams, Caitlin
Oorschot, Viola
Parslow, Adam C.
Giousoh, Aminah
Yuen, Michaela
Hall, Thomas E.
Costin, Adam
Ramm, Georg
Bird, Phillip I.
Busch-Nentwich, Elisabeth M.
Stemple, Derek L.
Currie, Peter D.
Cooper, Sandra T.
Laing, Nigel G.
Nowak, Kristen J.
Bryson-Richardson, Robert J.
author_sort Sztal, Tamar E.
collection PubMed
description Nemaline myopathy is characterized by muscle weakness and the presence of rod-like (nemaline) bodies. The genetic etiology of nemaline myopathy is becoming increasingly understood with mutations in ten genes now known to cause the disease. Despite this, the mechanism by which skeletal muscle weakness occurs remains elusive, with previous studies showing no correlation between the frequency of nemaline bodies and disease severity. To investigate the formation of nemaline bodies and their role in pathogenesis, we generated overexpression and loss-of-function zebrafish models for skeletal muscle α-actin (ACTA1) and nebulin (NEB). We identify three distinct types of nemaline bodies and visualize their formation in vivo, demonstrating these nemaline bodies not only exhibit different subcellular origins, but also have distinct pathological consequences within the skeletal muscle. One subtype is highly dynamic and upon breakdown leads to the accumulation of cytoplasmic actin contributing to muscle weakness. Examination of a Neb-deficient model suggests this mechanism may be common in nemaline myopathy. Another subtype results from a reduction of actin and forms a more stable cytoplasmic body. In contrast, the final type originates at the Z-disk and is associated with myofibrillar disorganization. Analysis of zebrafish and muscle biopsies from ACTA1 nemaline myopathy patients demonstrates that nemaline bodies also possess a different protein signature. In addition, we show that the ACTA1(D286G) mutation causes impaired actin incorporation and localization in the sarcomere. Together these data provide a novel examination of nemaline body origins and dynamics in vivo and identifies pathological changes that correlate with muscle weakness. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00401-015-1430-3) contains supplementary material, which is available to authorized users.
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spelling pubmed-45417042015-08-21 Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function Sztal, Tamar E. Zhao, Mo Williams, Caitlin Oorschot, Viola Parslow, Adam C. Giousoh, Aminah Yuen, Michaela Hall, Thomas E. Costin, Adam Ramm, Georg Bird, Phillip I. Busch-Nentwich, Elisabeth M. Stemple, Derek L. Currie, Peter D. Cooper, Sandra T. Laing, Nigel G. Nowak, Kristen J. Bryson-Richardson, Robert J. Acta Neuropathol Original Paper Nemaline myopathy is characterized by muscle weakness and the presence of rod-like (nemaline) bodies. The genetic etiology of nemaline myopathy is becoming increasingly understood with mutations in ten genes now known to cause the disease. Despite this, the mechanism by which skeletal muscle weakness occurs remains elusive, with previous studies showing no correlation between the frequency of nemaline bodies and disease severity. To investigate the formation of nemaline bodies and their role in pathogenesis, we generated overexpression and loss-of-function zebrafish models for skeletal muscle α-actin (ACTA1) and nebulin (NEB). We identify three distinct types of nemaline bodies and visualize their formation in vivo, demonstrating these nemaline bodies not only exhibit different subcellular origins, but also have distinct pathological consequences within the skeletal muscle. One subtype is highly dynamic and upon breakdown leads to the accumulation of cytoplasmic actin contributing to muscle weakness. Examination of a Neb-deficient model suggests this mechanism may be common in nemaline myopathy. Another subtype results from a reduction of actin and forms a more stable cytoplasmic body. In contrast, the final type originates at the Z-disk and is associated with myofibrillar disorganization. Analysis of zebrafish and muscle biopsies from ACTA1 nemaline myopathy patients demonstrates that nemaline bodies also possess a different protein signature. In addition, we show that the ACTA1(D286G) mutation causes impaired actin incorporation and localization in the sarcomere. Together these data provide a novel examination of nemaline body origins and dynamics in vivo and identifies pathological changes that correlate with muscle weakness. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00401-015-1430-3) contains supplementary material, which is available to authorized users. Springer Berlin Heidelberg 2015-05-01 2015 /pmc/articles/PMC4541704/ /pubmed/25931053 http://dx.doi.org/10.1007/s00401-015-1430-3 Text en © The Author(s) 2015 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Original Paper
Sztal, Tamar E.
Zhao, Mo
Williams, Caitlin
Oorschot, Viola
Parslow, Adam C.
Giousoh, Aminah
Yuen, Michaela
Hall, Thomas E.
Costin, Adam
Ramm, Georg
Bird, Phillip I.
Busch-Nentwich, Elisabeth M.
Stemple, Derek L.
Currie, Peter D.
Cooper, Sandra T.
Laing, Nigel G.
Nowak, Kristen J.
Bryson-Richardson, Robert J.
Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
title Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
title_full Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
title_fullStr Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
title_full_unstemmed Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
title_short Zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
title_sort zebrafish models for nemaline myopathy reveal a spectrum of nemaline bodies contributing to reduced muscle function
topic Original Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4541704/
https://www.ncbi.nlm.nih.gov/pubmed/25931053
http://dx.doi.org/10.1007/s00401-015-1430-3
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