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Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations

Laminopathies, mainly caused by mutations in the LMNA gene, are a group of inherited diseases with a highly variable penetrance; i.e., the disease spectrum in persons with identical LMNA mutations range from symptom-free conditions to severe cardiomyopathy and progeria, leading to early death. LMNA...

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Autores principales: Tamiello, Chiara, Kamps, Miriam A.F., van den Wijngaard, Arthur, Verstraeten, Valerie L. R. M., Baaijens, Frank P.T., Broers, Jos L.V., Bouten, Carlijn C.V.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Landes Bioscience 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3585029/
https://www.ncbi.nlm.nih.gov/pubmed/23324461
http://dx.doi.org/10.4161/nucl.23388
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author Tamiello, Chiara
Kamps, Miriam A.F.
van den Wijngaard, Arthur
Verstraeten, Valerie L. R. M.
Baaijens, Frank P.T.
Broers, Jos L.V.
Bouten, Carlijn C.V.
author_facet Tamiello, Chiara
Kamps, Miriam A.F.
van den Wijngaard, Arthur
Verstraeten, Valerie L. R. M.
Baaijens, Frank P.T.
Broers, Jos L.V.
Bouten, Carlijn C.V.
author_sort Tamiello, Chiara
collection PubMed
description Laminopathies, mainly caused by mutations in the LMNA gene, are a group of inherited diseases with a highly variable penetrance; i.e., the disease spectrum in persons with identical LMNA mutations range from symptom-free conditions to severe cardiomyopathy and progeria, leading to early death. LMNA mutations cause nuclear abnormalities and cellular fragility in response to cellular mechanical stress, but the genotype/phenotype correlations in these diseases remain unclear. Consequently, tools such as mutation analysis are not adequate for predicting the course of the disease.   Here, we employ growth substrate stiffness to probe nuclear fragility in cultured dermal fibroblasts from a laminopathy patient with compound progeroid syndrome. We show that culturing of these cells on substrates with stiffness higher than 10 kPa results in malformations and even rupture of the nuclei, while culture on a soft substrate (3 kPa) protects the nuclei from morphological alterations and ruptures. No malformations were seen in healthy control cells at any substrate stiffness. In addition, analysis of the actin cytoskeleton organization in this laminopathy cells demonstrates that the onset of nuclear abnormalities correlates to an increase in cytoskeletal tension. Together, these data indicate that culturing of these LMNA mutated cells on substrates with a range of different stiffnesses can be used to probe the degree of nuclear fragility. This assay may be useful in predicting patient-specific phenotypic development and in investigations on the underlying mechanisms of nuclear and cellular fragility in laminopathies.
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spelling pubmed-35850292013-03-11 Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations Tamiello, Chiara Kamps, Miriam A.F. van den Wijngaard, Arthur Verstraeten, Valerie L. R. M. Baaijens, Frank P.T. Broers, Jos L.V. Bouten, Carlijn C.V. Nucleus Research Paper Laminopathies, mainly caused by mutations in the LMNA gene, are a group of inherited diseases with a highly variable penetrance; i.e., the disease spectrum in persons with identical LMNA mutations range from symptom-free conditions to severe cardiomyopathy and progeria, leading to early death. LMNA mutations cause nuclear abnormalities and cellular fragility in response to cellular mechanical stress, but the genotype/phenotype correlations in these diseases remain unclear. Consequently, tools such as mutation analysis are not adequate for predicting the course of the disease.   Here, we employ growth substrate stiffness to probe nuclear fragility in cultured dermal fibroblasts from a laminopathy patient with compound progeroid syndrome. We show that culturing of these cells on substrates with stiffness higher than 10 kPa results in malformations and even rupture of the nuclei, while culture on a soft substrate (3 kPa) protects the nuclei from morphological alterations and ruptures. No malformations were seen in healthy control cells at any substrate stiffness. In addition, analysis of the actin cytoskeleton organization in this laminopathy cells demonstrates that the onset of nuclear abnormalities correlates to an increase in cytoskeletal tension. Together, these data indicate that culturing of these LMNA mutated cells on substrates with a range of different stiffnesses can be used to probe the degree of nuclear fragility. This assay may be useful in predicting patient-specific phenotypic development and in investigations on the underlying mechanisms of nuclear and cellular fragility in laminopathies. Landes Bioscience 2013-01-01 /pmc/articles/PMC3585029/ /pubmed/23324461 http://dx.doi.org/10.4161/nucl.23388 Text en Copyright © Landes Bioscience http://creativecommons.org/licenses/by-nc/3.0/ This is an open-access article licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported License. The article may be redistributed, reproduced, and reused for non-commercial purposes, provided the original source is properly cited.
spellingShingle Research Paper
Tamiello, Chiara
Kamps, Miriam A.F.
van den Wijngaard, Arthur
Verstraeten, Valerie L. R. M.
Baaijens, Frank P.T.
Broers, Jos L.V.
Bouten, Carlijn C.V.
Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations
title Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations
title_full Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations
title_fullStr Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations
title_full_unstemmed Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations
title_short Soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous LMNA mutations
title_sort soft substrates normalize nuclear morphology and prevent nuclear rupture in fibroblasts from a laminopathy patient with compound heterozygous lmna mutations
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3585029/
https://www.ncbi.nlm.nih.gov/pubmed/23324461
http://dx.doi.org/10.4161/nucl.23388
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