Emilie Boudreau scite author profile

Major nuclear envelope abnormalities, such as disruption and/or presence of intranuclear organelles, have rarely been described in cardiomyocytes from dilated cardiomyopathy (DCM) patients. In this study, we screened a series of 25 unrelated DCM patient samples for (a) cardiomyocyte nuclear abnormalities and (b) mutations in LMNA and TMPO as they are two DCM-causing genes that encode proteins involved in maintaining nuclear envelope architecture. Among the 25 heart samples investigated, we identified major cardiomyocyte nuclear abnormalities in 8 patients. Direct sequencing allowed the detection of three heterozygous LMNA mutations (p.D192G, p.Q353K and p.R541S) in three patients. By multiplex ligation-dependant probe amplification (MLPA)/quantitative real-time PCR, we found a heterozygous deletion encompassing exons 3-12 of the LMNA gene in one patient. Immunostaining demonstrated that this deletion led to a decrease in lamin A/C expression in cardiomyocytes from this patient. This LMNA deletion as well as the p.D192G mutation was found in patients displaying major cardiomyocyte nuclear envelope abnormalities, while the p.Q353K and p.R541S mutations were found in patients without specific nuclear envelope abnormalities. None of the DCM patients included in the study carried a mutation in the TMPO gene. Taken together, we found no evidence of a genotype-phenotype relationship between the onset and the severity of DCM, the presence of nuclear abnormalities and the presence or absence of LMNA mutations. We demonstrated that a large deletion in LMNA associated with reduced levels of the protein in the nuclear envelope suggesting a haploinsufficiency mechanism can lead to cardiomyocyte nuclear envelope disruption and thus underlie the pathogenesis of DCM.

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Specific contribution of lamin A and lamin C in the development of laminopathies

Sylvius

Hathaway

Boudreau

et al. 2008

Experimental Cell Research

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Mutations in the lamin A/C gene are involved in multiple human disorders for which the pathophysiological mechanisms are partially understood. Conflicting results prevail regarding the organization of lamin A and C mutants within the nuclear envelope (NE) and on the interactions of each lamin to its counterpart. We over-expressed various lamin A and C mutants both independently and together in COS7 cells. When expressed alone, lamin A with cardiac/muscular disorder mutations forms abnormal aggregates inside the NE and not inside the nucleoplasm. Conversely, the equivalent lamin C organizes as intranucleoplasmic aggregates that never connect to the NE as opposed to wild type lamin C. Interestingly, the lamin C molecules present within these aggregates exhibit an abnormal increased mobility. When co-expressed, the complex formed by lamin A/C aggregates in the NE. Lamin A and C mutants for lipodystrophy behave similarly to the wild type. These findings reveal that lamins A and C may be differentially affected depending on the mutation. This results in multiple possible physiological consequences which likely contribute in the phenotypic variability of laminopathies. The inability of lamin C mutants to join the nuclear rim in the absence of lamin A is a potential pathophysiological mechanism for laminopathies.

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Lamin A/C Mutants Disturb Sumo1 Localization and Sumoylation in Vitro and in Vivo

et al. 2012

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A-type lamins A and C are nuclear intermediate filament proteins in which mutations have been implicated in multiple disease phenotypes commonly known as laminopathies. A few studies have implicated sumoylation in the regulation of A-type lamins. Sumoylation is a post-translational protein modification that regulates a wide range of cellular processes through the attachment of small ubiquitin-related modifier (sumo) to various substrates. Here we showed that laminopathy mutants result in the mislocalization of sumo1 both in vitro (C2C12 cells overexpressing mutant lamins A and C) and in vivo (primary myoblasts and myopathic muscle tissue from the LmnaH222P /H222P mouse model). In C2C12 cells, we showed that the trapping of sumo1 in p.Asp192Gly, p.Gln353Lys, and p.Arg386Lys aggregates of lamin A/C correlated with an increased steady-state level of sumoylation. However, lamin A and C did not appear to be modified by sumo1. Our results suggest that mutant lamin A/C alters the dynamics of sumo1 and thus misregulation of sumoylation may be contributing to disease progression in laminopathies.

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Mutations in Lamin A/C and their binding partners and nuclear envelope phenotype in cardiomyocytes from Dilated cardiomoyopathy patients

Gupta

Bilińska²,

Sylvius

et al. 2007

FASEB j.

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Lamin A/C gene is one of most frequently reported mutated genes in dilated cardiomyopathy which is characterized by the dilatation of cardiac chambers and impaired contraction. Lamin A and C are major components of the nuclear lamina. From a cohort of DCM patients, we selected seven patients displaying major cardiomyocytes nucleus envelope abnormalities on electron microscopy images. In the DNA from these patients, we screened both Lamin A/C and thymopoietin genes for mutations by direct sequencing. Thymopoietin is the only lamin A/C binding partner previously shown to harbor a mutation in a DCM patient. Only one of these seven patients carried a mutation in the lamin A/C gene. No patient carried a mutation in the thymopoietin gene. In our control population of DCM patients with normal ultrastructural phenotype, two patients bore a lamin A/C gene mutation; none had a mutation in the thymopoietin gene. Taken together, our results suggest that patients with a clinical suspicion of lamin A/C mutation and with marked abnormality of cardiomyocytes nuclei might be free of both lamin A/C and thymopoietin germline mutation. These patients may therefore carry a mutation in another gene encoding a protein involved in the maintenance of the nuclear architecture or a somatic mutation. Furthermore, the occurrence of mutation in one of these genes does not necessary lead to cardiomyocyte nuclear envelope defects.

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Untitled

Boudreau¹,

Labib²,

Anne³

et al.

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Emilie Boudreau

Genetic and ultrastructural studies in dilated cardiomyopathy patients: a large deletion in the lamin A/C gene is associated with cardiomyocyte nuclear envelope disruption

Specific contribution of lamin A and lamin C in the development of laminopathies

Lamin A/C Mutants Disturb Sumo1 Localization and Sumoylation in Vitro and in Vivo

Mutations in Lamin A/C and their binding partners and nuclear envelope phenotype in cardiomyocytes from Dilated cardiomoyopathy patients

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