Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy

Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy

<p>Abstract</p> <p>Background</p> <p>Spinal muscular atrophy (SMA) is a neurodegenerative disorder associated with mutations of the <it>survival motor neuron </it>gene <it>SMN </it>and is characterized by muscle weakness and atrophy caused by deg...

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Main Authors: Millino Caterina, Fanin Marina, Vettori Andrea, Laveder Paolo, Mostacciuolo Maria, Angelini Corrado, Lanfranchi Gerolamo
Format: Article
Language:English
Published: BMC 2009-04-01
Series:BMC Medicine
Online Access:http://www.biomedcentral.com/1741-7015/7/14
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spelling doaj-31120f1625d6451a81a10d2bb3868a652020-11-24T22:23:22ZengBMCBMC Medicine1741-70152009-04-01711410.1186/1741-7015-7-14Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophyMillino CaterinaFanin MarinaVettori AndreaLaveder PaoloMostacciuolo MariaAngelini CorradoLanfranchi Gerolamo<p>Abstract</p> <p>Background</p> <p>Spinal muscular atrophy (SMA) is a neurodegenerative disorder associated with mutations of the <it>survival motor neuron </it>gene <it>SMN </it>and is characterized by muscle weakness and atrophy caused by degeneration of spinal motor neurons. SMN has a role in neurons but its deficiency may have a direct effect on muscle tissue.</p> <p>Methods</p> <p>We applied microarray and quantitative real-time PCR to study at transcriptional level the effects of a defective <it>SMN </it>gene in skeletal muscles affected by the two forms of SMA: the most severe type I and the mild type III.</p> <p>Results</p> <p>The two forms of SMA generated distinct expression signatures: the SMA III muscle transcriptome is close to that found under normal conditions, whereas in SMA I there is strong alteration of gene expression. Genes implicated in signal transduction were up-regulated in SMA III whereas those of energy metabolism and muscle contraction were consistently down-regulated in SMA I. The expression pattern of gene networks involved in atrophy signaling was completed by qRT-PCR, showing that specific pathways are involved, namely IGF/PI3K/Akt, TNF-α/p38 MAPK and Ras/ERK pathways.</p> <p>Conclusion</p> <p>Our study suggests a different picture of atrophy pathways in each of the two forms of SMA. In particular, p38 may be the regulator of protein synthesis in SMA I. The SMA III profile appears as the result of the concurrent presence of atrophic and hypertrophic fibers. This more favorable condition might be due to the over-expression of MTOR that, given its role in the activation of protein synthesis, could lead to compensatory hypertrophy in SMA III muscle fibers.</p> http://www.biomedcentral.com/1741-7015/7/14
collection DOAJ
language English
format Article
sources DOAJ
author Millino Caterina
Fanin Marina
Vettori Andrea
Laveder Paolo
Mostacciuolo Maria
Angelini Corrado
Lanfranchi Gerolamo
spellingShingle Millino Caterina
Fanin Marina
Vettori Andrea
Laveder Paolo
Mostacciuolo Maria
Angelini Corrado
Lanfranchi Gerolamo
Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
BMC Medicine
author_facet Millino Caterina
Fanin Marina
Vettori Andrea
Laveder Paolo
Mostacciuolo Maria
Angelini Corrado
Lanfranchi Gerolamo
author_sort Millino Caterina
title Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
title_short Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
title_full Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
title_fullStr Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
title_full_unstemmed Different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
title_sort different atrophy-hypertrophy transcription pathways in muscles affected by severe and mild spinal muscular atrophy
publisher BMC
series BMC Medicine
issn 1741-7015
publishDate 2009-04-01
description <p>Abstract</p> <p>Background</p> <p>Spinal muscular atrophy (SMA) is a neurodegenerative disorder associated with mutations of the <it>survival motor neuron </it>gene <it>SMN </it>and is characterized by muscle weakness and atrophy caused by degeneration of spinal motor neurons. SMN has a role in neurons but its deficiency may have a direct effect on muscle tissue.</p> <p>Methods</p> <p>We applied microarray and quantitative real-time PCR to study at transcriptional level the effects of a defective <it>SMN </it>gene in skeletal muscles affected by the two forms of SMA: the most severe type I and the mild type III.</p> <p>Results</p> <p>The two forms of SMA generated distinct expression signatures: the SMA III muscle transcriptome is close to that found under normal conditions, whereas in SMA I there is strong alteration of gene expression. Genes implicated in signal transduction were up-regulated in SMA III whereas those of energy metabolism and muscle contraction were consistently down-regulated in SMA I. The expression pattern of gene networks involved in atrophy signaling was completed by qRT-PCR, showing that specific pathways are involved, namely IGF/PI3K/Akt, TNF-α/p38 MAPK and Ras/ERK pathways.</p> <p>Conclusion</p> <p>Our study suggests a different picture of atrophy pathways in each of the two forms of SMA. In particular, p38 may be the regulator of protein synthesis in SMA I. The SMA III profile appears as the result of the concurrent presence of atrophic and hypertrophic fibers. This more favorable condition might be due to the over-expression of MTOR that, given its role in the activation of protein synthesis, could lead to compensatory hypertrophy in SMA III muscle fibers.</p>
url http://www.biomedcentral.com/1741-7015/7/14
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AT faninmarina differentatrophyhypertrophytranscriptionpathwaysinmusclesaffectedbysevereandmildspinalmuscularatrophy
AT vettoriandrea differentatrophyhypertrophytranscriptionpathwaysinmusclesaffectedbysevereandmildspinalmuscularatrophy
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AT mostacciuolomaria differentatrophyhypertrophytranscriptionpathwaysinmusclesaffectedbysevereandmildspinalmuscularatrophy
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AT lanfranchigerolamo differentatrophyhypertrophytranscriptionpathwaysinmusclesaffectedbysevereandmildspinalmuscularatrophy
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