Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026850 (muscular dystrophy)
 5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Laminopathies are a group of diseases due to mutations of type A-lamins, a group of proteins lining the inner aspect of cell nuclei. These diseases illustrate the complexity of the genotype-phenotype relationship characteristic of same genetic diseases. Since the discovery of the causal role of LMNA gene mutations in the genesis of Emery Dreifuss muscular dystrophy in 1999, no less than eight other diseases have been associated with mutations of this same gene! The tissue-specific nature of the clinical manifestations, contrasting with the ubiquitous expression of these proteins, has incited much research concerning the physiological role of lamins, considered to be much broader than the structural function initially put forward. Certain laminopathies, which combine insulin resistance, android distribution of adipose tissue, dyslipidemia, early atherosclerosis, and hepatic steatosis, appear very similar though more severe to the frequent dysmetabolism syndrome. The relationships of laminopathies with accelerated aging syndrome, Hutchinson-Gilford progeria, or progeroid syndromes, which are also related to A/C lamin anomalies, could provide new avenues of research on the pathogenesis of the metabolic syndrome. In addition, clinicians have to be aware of atypical and milder forms of laminopathies, that require specific investigations and molecular screening of relatives allowing an adequate medical management.
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PMID:[Laminopathies: lipodystrophies, insulin resistance, syndromes of accelerated ageing... and others]. 1598 90

Mutations in the LMNA gene result in diverse phenotypes including Emery Dreifuss muscular dystrophy, limb girdle muscular dystrophy, dilated cardiomyopathy with conduction system disease, Dunnigan type familial partial lipodystrophy, mandibulo acral dysplasia, Hutchinson Gilford progeria syndrome, restrictive dermopathy and autosomal recessive Charcot Marie Tooth type 2. The c.1930C > T (R644C) missense mutation has previously been reported in eight unrelated patients with variable features including left ventricular hypertrophy, limb girdle muscle weakness, dilated cardiomyopathy and atypical progeria. Here we report on the details of nine additional patients in eight families with this mutation. Patients 1 and 2 presented with lipodystrophy and insulin resistance, Patient 1 having in addition focal segmental glomerulosclerosis. Patient 3 presented with motor neuropathy, Patient 4 with arthrogryposis and dilated cardiomyopathy with left ventricular non-compaction, Patient 5 with severe scoliosis and contractures, Patient 6 with limb girdle weakness and Patient 7 with hepatic steatosis and insulin resistance. Patients 8 and 9 are brothers with proximal weakness and contractures. Nonpenetrance was observed frequently in first degree relatives. This report provides further evidence of the extreme phenotypic diversity and low penetrance associated with the R644C mutation. Possible explanations for these observations are discussed.
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PMID:Extreme phenotypic diversity and nonpenetrance in families with the LMNA gene mutation R644C. 1847 90

The LMNA gene contains 12 exons and encodes lamins A and C by alternative splicing within exon 10. While mutations in lamin A specific residues cause several diseases including lipodystrophy, progeria, muscular dystrophy, neuropathy, and cardiomyopathy, only three families with mutations in lamin C-specific residues are reported with cardiomyopathy, neuropathy, and muscular dystrophy so far. We now report two brothers with juvenile-onset generalized lipodystrophy due to a lamin C-specific mutation. The proband, a 23-year-old Caucasian male was reported to have generalized lipodystrophy at 3 weeks of age, developed diabetes, hypertriglyceridemia, hypertension and liver problems and died with complications of cirrhosis, and kidney failure. His younger brother, a 37-year-old Caucasian male developed generalized lipodystrophy around 2 years of age and was diagnosed with diabetes, hypertriglyceridemia, fatty liver, and hypertension at 36 years of age. Their father also died of end stage renal disease at age 52 years. Exome sequencing of the proband revealed an extremely rare missense heterozygous variant c.1711_1712CG>TC; p.(Arg571Ser) in LMNA which was confirmed by Sanger sequencing in both the patients. Interestingly, the mutation had no effect on mRNA splicing or relative expression of lamin A or C mRNA and protein in the lymphoblasts. Our observations suggest that mutant lamin C disrupts its interaction with other cellular proteins resulting in generalized lipodystrophy due to defective development and maintenance of adipose tissue.
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PMID:Juvenile-onset generalized lipodystrophy due to a novel heterozygous missense LMNA mutation affecting lamin C. 2868 29

Polymerase I and transcript release factor (Ptrf, also known as Cavin1) is an essential component in the biogenesis and function of caveolae. Ptrf knockout mice or patients with PTRF mutations exhibit numerous pathologies including markedly aberrant fuel metabolism, lipodystrophy and muscular dystrophy. In this study, we generated Ptrf transgenic mice to explore its function in vivo. Compared with wild-type (WT) mice, we found that the Ptrf transgenic mice showed obesity with an increased level of ALT (alanine aminotransferase) and AST (aspartate transaminase). Ptrf transgenic mice exhibited severe fat degeneration and a higher degree of fat accumulation in the liver compared with WT mice. Consistently, we found that the expression of the fat synthesis gene, Fasn, was increased in the liver of Ptrf transgenic mice. Thus, Ptrf transgenic mice would be a good model for investigating the molecular mechanism and therapeutic targets of obesity and fatty liver associated diseases.
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PMID:Ptrf transgenic mice exhibit obesity and fatty liver. 2938 31