Molecular genetic studies of the mouse dystrophin gene

Geng, Yan

January 1991

No description available.

572.8

Muscular dystrophies

Retinitis pigmentosa : linkage studies and analysis of candidate region

Mohamed, Zulqarnain

January 1999

Retinitis pigmentosa (RP) defines a group of hereditary retinal dystrophies characterised by a progressive deterioration of night vision and reduction of the visual field due to photoreceptor degeneration. RP shows both clinical and genetic heterogeneity and has X- linked, autosomal recessive and autosomal dominant forms of inheritance. In addition, a 'digenic' form of inheritance had also been reported. To date, positional cloning and candidate gene approaches have identified more than 20 genes and gene loci responsible for RP, and the number is increasing. In the present study, three Scottish RP families were included in a linkage study, to determine if the disease locus in each of these families mapped to any of the known RP loci on chromosomes 7 (7p and 7q), 8 and 19. Significant positive LOD scores were obtained for family G-adRP, with markers mapping within the RPIO locus (7q31-q32). The highest LOD score obtained was 3.913 (at 0% recombination) with marker D7S514. Results for the remaining two families were generally inconclusive. However, LOD scores obtained indicated that linkage to 7p and 7q was significantly excluded for family F-adRP. No conclusive exclusion of linkage was obtained for family C-RP. Two candidate genes exist within the RPIO candidate region, namely the blue cone pigment gene (BCP) and the metabotropic glumate receptor 8 (GRM8) gene. Mutation screening was performed using SSCP analysis to evaluate the involvement of these genes in the pathogenesis of RP in family G-adRP. An A->C polymorphism was observed in the final base of codon 122 of the BCP gene (exon 2). The amino acid residue (glycine) is not altered, however, and is thus unlikely to be involved in the disease process. Furthermore, this polymorphism was noted in both affected and unaffected individuals of family G-adRP, as well as in control individuals. For the GRM8 gene, only eight out of ten exons were available for analysis at the time of study. SSCP mobility shifts were detected in 4 PCR fragments (exons IV, V and X, and exon VIIIb). Sequencing analysis of exon VIIIb revealed an A-C polymorphism in the first base of codon 561. The involvement of this polymorphism in the disease process is unlikely as the change does not alter the encoded amino acid (arginine) and it was detected in both affected and unaffected members of G- adRP. In exon X, a heterozygous C>T sequence transition was noted 29bp downstream of the stop codon. However, the shift was again found in both affected and unaffected individuals of family G-adRP, therefore unlikely to be pathogenic. Sequence analysis of the remaining two exons (exons IV and V) did not reveal any deviation from the published control sequence. The direct cDNA selection, technique was employed in the attempt to isolate transcripts from the candidate region. YACs spanning the region of interest were obtained and their inserts verified by FISH and PCR-based STS content screening. Selection was performed on human retinal cDNA library preparations, and the selected products were subcloned to create a selected-cDNA library for further analysis. Sequencing analysis of a subset (27clones) of the selected products indicated that some fragments were indeed derived from within the 7q3 l-q32 region, as shown by BLAST and FASTA sequence homology searches, although most were repetitive in origin. Hits to known genes or other transcribed sequences (ESTs or cloned cDNA) were also obtained, although several of these genes have been shown to map elsewhere in the genome. At present, family G-adRP is the fourth autosomal dominant RP family whose disease locus was mapped within the RPIO region (7q31-q32). All known candidate genes identified to date have been excluded, which necessitates positional cloning strategies to be employed. Using the direct cDNA selection technique, a library of cDNA fragments putatively isolated from a portion of the RPIO candidate region has been constructed in this study. However, time was a limiting factor, and as a result, only a minor subset (less than 15%) of the selected-cDNA library was analysed. Further analysis and characterisation of the selected cDNAs is warranted to identify clones that represent (novel) transcripts mapping within the 7q31-q32 candidate region, which will undoubtedly expedite the identification of the RPIO gene.

610

Hereditary retinal dystrophies

Generation of a mutation in the cysteine rich domain of the murine utrophin locus

Economou, Androuila

January 1999

No description available.

572.8

Two new corneal diseases characterized by recurrent erosions /

Hammar, Björn,

January 2009

Diss. (sammanfattning) Linköping : Linköpings universitet, 2009. / Härtill 4 uppsatser.

Cellular effects of Coenzyme Q10 and resveratrol in the SJL/J dysferlinopathy mouse model

Potgieter, Marnie

27 April 2010

The muscular dystrophies (MDs) are genetic disorders of muscle degeneration due to mutations in genes that encode a wide variety of proteins. Dysferlinopathy encompasses a large variety of neuromuscular diseases characterized by the absence of dysferlin in skeletal muscle and an autosomal recessive mode of inheritance. Dysferlinopathy can manifest as limb girdle muscular dystrophy type 2B (LGMD 2B), Miyoshi myopathy (MM) or distal myopathy with anterior tibial onset (DMAT). The first symptoms usually appear during the second or third decade of life as clumsiness when running, fatigue when walking long distances and difficulty in climbing stairs. Progression of the disease eventually leads to a loss of ambulation. A deficit in membrane-repair machinery in dysferlinopathy suggested a direct role for dysferlin in the Ca2+-dependent membrane-repair process. Recently, dysferlin has also been implicated in the process of chemotaxis. Evidence exists that free radical mediated injury contributes to the pathogenesis of muscle necrosis in the muscular dystrophies. The imbalance of free radical synthesis and antioxidant capacity has been suggested to contribute to the necrotic process. It is therefore imperative to explore the effect of antioxidant supplementation in the MDs. The present study followed a novel approach in investigating the cellular effects afforded by the supplementation of the SJL/J mouse model for dysferlinopathy with the antioxidants, Coenzyme Q10 (CoQ10) and resveratrol. The study aimed to determine, at cellular level, the histopathology and ultrastructural changes in the SJL/J mouse model following a 90 day trial with antioxidant supplementation. In addition to studying the morphology, the study paid attention to nonspecific parameters. The study mainly focused on the histopathology and ultrastructural alterations in the SJLL/J mouse. In addition the oxidative stress index of the affected quadriceps muscle was determined. The outcome provides evidence that increased oxidative stress levels are present in the SJL/J mouse. Antioxidant supplementation with CoQ10 at 120mg/kg/day or a resveratrol/CoQ10 combination supplementation at 40 and 60mg/kg/day, decreased the levels of oxidative stress and dystrophic markers at a cellular level. In addition, increased physical strength was observed. This thesis provides evidence to create a new platform for combination therapeutic strategies. / Thesis (PhD)--University of Pretoria, 2010. / Anatomy / unrestricted

Dysferlinopathy

Muscular dystrophies

Resveratrol

UCTD

Abordagens terapêuticas em modelo experimental de distrofia muscular / Therapeutic approaches in an experimental model of muscular dystrophy

Bueno Júnior, Carlos Roberto

01 February 2012

As distrofias musculares são doenças genéticas causadas por mutações em diferentes genes caracterizadas por degeneração muscular, prejuízos locomotores e, geralmente, morte precoce. Dentre elas, a de Duchenne, causada por mutações no gene que codifica para a proteína distrofina, é a mais comum e grave, tendo os camundongos MDX como modelo experimental mais utilizado. O objetivo do presente estudo foi testar quatro abordagens terapêuticas potencias neste modelo animal, divididas em dois experimentos: 1. treinamento físico voluntário em roda de atividade e/ou drogas agonistas das proteínas AMPK e PPAR em dias alternados (AICAR: 100 mg.Kg-1.dia-1, ip; GW 1516: 5 mg.Kg-1.dia-1, gavagem); 2. células-tronco estromais humanas provenientes de lipoaspiração (um milhão a cada injeção intravenosa; uma injeção a cada 10 dias nos dois primeiros meses de tratamento e injeções mensais nos quatro meses subsequentes) e/ou suplementação com os aminoácidos alanina e glutamina (10 mg.kg-1.dia-1, injeção diária intraperitoneal). Em relação ao primeiro experimento, o principal achado foi que os animais submetidos ao treinamento físico associado às drogas apresentaram índices de função muscular superiores aos outros grupos. Já em relação ao segundo grupo de análises, foi observado que os animais submetidos à terapia celular apresentaram tempo de vida significativamente maior quando comparados aos animais não tratados e aos tratados com ambas as terapias. Tais resultados, nunca demonstrados previamente pela literatura científica, podem contribuir para o entendimento da fisiopatologia das distrofias musculares e para o avanço de potenciais abordagens terapêuticas. / Muscular dystrophies are genetic diseases caused by mutations in different genes. They are characterized by muscle degeneration, motor prejudices and, generally, early death. Among them, Duchenne muscular dystrophy (DMD) is the most common and severe form and it is caused by mutations in the dystrophin gene. The most widely used animal model of DMD is the MDX mouse. The aim of this study was to test four potential therapeutic approaches assigned in two experiments: 1. voluntary exercise training in activity road and/or AMPK and PPAR agonists drugs every other day in MDX mice (AICAR: 100 mg.Kg-1.day-1, IP; GW 1516: 5 mg.Kg-1.day-1, gavage); 2. Intravenous injection of stromal stem cells from human adipose tissue (106 cells every 10 days in the first two months and monthly injections in the following four months) and/or alanine and glutamine amino acids supplementation (10 mg.Kg-1.day-1, daily IP injections). In the first experiment we demonstrated that mdx mice submitted to exercise training associated to drugs presented improved muscle function when compared to the other groups. In the second experiment, on the other hand, it was observed that the animals submitted to cell therapy presented increased survival when compared to non injected animals and animals treated with both approaches. These results, here demonstrated for the first time, can contribute to understand the physiopathology of muscular dystrophies and may give insights for future therapeutic approaches

Distrofias musculares

Muscular dystrophies

Tratamentos

Treatments

Abordagens terapêuticas em modelo experimental de distrofia muscular / Therapeutic approaches in an experimental model of muscular dystrophy

Carlos Roberto Bueno Júnior

01 February 2012

As distrofias musculares são doenças genéticas causadas por mutações em diferentes genes caracterizadas por degeneração muscular, prejuízos locomotores e, geralmente, morte precoce. Dentre elas, a de Duchenne, causada por mutações no gene que codifica para a proteína distrofina, é a mais comum e grave, tendo os camundongos MDX como modelo experimental mais utilizado. O objetivo do presente estudo foi testar quatro abordagens terapêuticas potencias neste modelo animal, divididas em dois experimentos: 1. treinamento físico voluntário em roda de atividade e/ou drogas agonistas das proteínas AMPK e PPAR em dias alternados (AICAR: 100 mg.Kg-1.dia-1, ip; GW 1516: 5 mg.Kg-1.dia-1, gavagem); 2. células-tronco estromais humanas provenientes de lipoaspiração (um milhão a cada injeção intravenosa; uma injeção a cada 10 dias nos dois primeiros meses de tratamento e injeções mensais nos quatro meses subsequentes) e/ou suplementação com os aminoácidos alanina e glutamina (10 mg.kg-1.dia-1, injeção diária intraperitoneal). Em relação ao primeiro experimento, o principal achado foi que os animais submetidos ao treinamento físico associado às drogas apresentaram índices de função muscular superiores aos outros grupos. Já em relação ao segundo grupo de análises, foi observado que os animais submetidos à terapia celular apresentaram tempo de vida significativamente maior quando comparados aos animais não tratados e aos tratados com ambas as terapias. Tais resultados, nunca demonstrados previamente pela literatura científica, podem contribuir para o entendimento da fisiopatologia das distrofias musculares e para o avanço de potenciais abordagens terapêuticas. / Muscular dystrophies are genetic diseases caused by mutations in different genes. They are characterized by muscle degeneration, motor prejudices and, generally, early death. Among them, Duchenne muscular dystrophy (DMD) is the most common and severe form and it is caused by mutations in the dystrophin gene. The most widely used animal model of DMD is the MDX mouse. The aim of this study was to test four potential therapeutic approaches assigned in two experiments: 1. voluntary exercise training in activity road and/or AMPK and PPAR agonists drugs every other day in MDX mice (AICAR: 100 mg.Kg-1.day-1, IP; GW 1516: 5 mg.Kg-1.day-1, gavage); 2. Intravenous injection of stromal stem cells from human adipose tissue (106 cells every 10 days in the first two months and monthly injections in the following four months) and/or alanine and glutamine amino acids supplementation (10 mg.Kg-1.day-1, daily IP injections). In the first experiment we demonstrated that mdx mice submitted to exercise training associated to drugs presented improved muscle function when compared to the other groups. In the second experiment, on the other hand, it was observed that the animals submitted to cell therapy presented increased survival when compared to non injected animals and animals treated with both approaches. These results, here demonstrated for the first time, can contribute to understand the physiopathology of muscular dystrophies and may give insights for future therapeutic approaches

Distrofias musculares

Tratamentos

Muscular dystrophies

Treatments

Identification des mécanismes moléculaires et des approches thérapeutiques innovantes dans les sarcoglycanopathies / Identification of molecular mechanisms and innovative therapeutic approaches in sarcoglycanopathies

Patissier, Cécile

22 June 2016

Les sarcoglycanopathies sont des dystrophies musculaires récessives (LGMD2D, E, C, F) causées par des mutations dans les gènes codant les sarcoglycanes (SG) alpha,béta, gamma et delta. Ces protéines transmembranaires font parties d’un complexe interagissant avec la dystrophine, pour protéger les fibres musculaires contre le stress mécanique du à la contraction. La perte de l’expression membranaire d’une des SG peut entrainer l’absence du complexe entier à la membrane. Les mutations trouvées chez des patients sont à 66% des mutations faux-sens ; certaines d’entre-elles peuvent avoir une prévalence importante, comme R77C, la mutation la plus fréquente dans l’alpha-sarcoglycanopathie. Nous avons précédemment démontré que les SGs mutées sont retenues dans le réticulum endoplasmique par le contrôle qualité (ERQC), et qu’il est possible de sauver cette protéine mutée en inhibant l’activité d’une enzyme clé de l’ERQC, l’alpha-mannosidase, par traitement pharmacologique à la Kifunensine. Ce traitement s’est cependant avéré toxique.Ce projet de thèse vise donc à identifier de nouvelles molécules thérapeutiques pour les sarcoglycanopathies. Dans cette optique, nous avons tout d’abord cherché un modèle in vitro nous permettant d’étudier différents mutants d’alpha-SG. Nous avons choisi de générer une lignée cellulaire stable en transduisant les trois SG béta, gamma et delta dans des cellules immortalisées. Cette lignée a ensuite été transfectée avec des mutants d’alpha-SG pour étudier différentes molécules thérapeutiques identifiées dans la littérature. Nos travaux ont permis de démontrer la capacité de 7 molécules à restaurer l’expression membranaire de mutants alpha-SG. Afin de pouvoir valider l’efficacité de ces molécules in vivo, nous avons généré un modèle murin exprimant la mutation béta-T153R. Nos résultats constituent une preuve de principe de l’efficacité de molécules pharmacologiques pour le traitement de patients atteints de sarcoglycanopathies. / Sarcoglycanopathies are recessive muscular dystrophies (LGMD2D, E, C, F) caused by mutations in genes coding for alpha, beta, gamma and delta-sarcoglycans (SG). These transmembrane proteins are part of a complex interacting with dystrophin to protect muscle fibers against mechanical stress due to contraction. Loss of membrane expression of one SG can cause the absence of the entire complex at the membrane. Mutations found in patients are at 66% missense mutations; some of them being highly prevalent like R77C, the most frequent mutation in alpha-sarcoglycanopathy. Interestingly, we previously demonstrated that mutated SGs are retained in the endoplasmic reticulum by the quality control (ERQC), and that it is possible to rescue the mutated protein by inhibiting the activity of a key ERCQ enzyme: alpha-mannosidase I, using Kifunensine as a treatment.The aim of this PhD project is to identify new therapeutic molecules for sarcoglycanopathies. To do so, we first searched an in vitro model to study several alpha-SG mutants. We chose to generate a stable cell line, by transduction of immortalized cells with beta, gamma and delta-SG. This cell line was then transfected with alpha-SG mutants to study different therapeutic molecules identified in literature. Our work demonstrated the ability of 7 molecules to restore the membrane expression of several alpha-SG mutants. To validate the efficacy of those molecules in vivo, we generated a mouse model expressing the beta-T153R mutation. Our results are a proof of principle of the efficacy of pharmacological molecules to treat sarcoglycanopathies.

Sarcoglycanes

Molécules thérapeutiques

Dystrophies musculaires des ceintures

Le déficit en glutathion dans l'insuffisance cardiaque : études dans plusieurs modèles expérimentaux et chez les patients

Khouzami, Lara

13 March 2009

Outre son role majeur dans la resistance cellulaire au stress oxydant, le tripeptide glutathion (L-ƒÁ glutamyl- cysteinyl-glycine) est essentiel a la survie cellulaire. Un deficit en glutathion, associe a un stress oxydant, est un trait commun a plusieurs maladies chroniques inflammatoires et degeneratives. Dans le cadre de ces differentes pathologies, plusieurs etudes ont montre que la prise orale de N-acetylcysteine (NAC), un precurseur de glutathion, ameliorait l'etat des patients. Le stress oxydant et l'inflammation sont deux caracteristiques principales de l'insuffisance cardiaque et des dystrophies musculaires. Nous avons pose l'hypothese d'un deficit en glutathion dans ces maladies et les benefices possibles d'un traitement par le NAC. Dans le modele du rat developpant une insuffisance cardiaque post-infarctus, nous montrons qu'il existe un deficit en glutathion tissulaire. Un mois de traitement oral par le NAC, donne en curatif post-infarctus, restaure le taux de glutathion cardiaque, reduit le stress oxydant, et interrompt le cycle vicieux inflammation/mort cellulaire, TNF/TNF-R1/NSMase/ caspase-3/apoptose. Un deficit en glutathion systemique et tissulaire caracterise aussi les souris LmnaH222P/H222P de 6-7 mois developpant une cardiomyopathie dilatee, modele de la cardiomyopathie associee a la dystrophie musculaire dfEmery Dreifuss. Un mois de traitement oral par le NAC reduit chez les souris de 7 mois la dilatation ventriculaire gauche et la dysfonction contractile, limite la progression de la fibrose cardiaque et lfinflammation. Ceci est associe a une repletion en glutathion et une normalisation de l'expression des enzymes du metabolisme du glutathion, a une diminution du stress oxydant et de l'expression du TNF. Une premiere etude chez les patients de chirurgie cardiaque (n=91) nous a permis de mettre en evidence que : d'une part, il existait un deficit en glutathion auriculaire chez les patients de la classe NYHA IV compares aux patients de la classe NYHA I. D'autre part, les patients asymptomatiques (classe NYHA I) presentaient un deficit en glutathion sanguin, compares aux individus sains, aggrave chez les patients symptomatiques (classes NYHA II a IV). Le deficit en glutathion sanguin chez les patients asymptomatiques precede lfelevation du taux sanguin de TNFR1, un marqueur standard du degre de severite de l'insuffisance cardiaque. Une seconde etude, chez des patients porteurs dfune mutation de la lamine (n=28) et susceptibles de developper une cardiomyopathie dilatee d'Emery Dreifuss, montre que certains de ces patients presentent un deficit en glutathion sanguin, associe chez un seul de ces patients a un taux eleve de TNFR1. L'analyse comparee des donnees biochimiques et cliniques est en cours. Les souris DMDmdx4cv sont un modele experimental de la dystrophie musculaire de Duchenne (DMD), mais ne developpent que tardivement la maladie cardiaque. Nous observons une augmentation du taux du glutathion systemique chez les souris de plus de 10 semaines. Un traitement oral avec un inhibiteur de synthese du glutathion a faible dose, le Lbuthionine sulfoximine (5 mM BSO), ramene le taux de glutathion systemique chez la souris DMDmdx4cv au taux chez la souris sauvage, mais provoque des alterations des cardiomyocytes identifiees par immunohistochimie, des micronecroses, des anomalies de capillaires et des anomalies mitochondriales observees en microscopie electronique. En conclusion, le deficit en glutathion est un evenement precoce et durable au cours de l'insuffisance cardiaque, d'origine ischemique ou genetique. Les perspectives offertes par ces resultats sont: 1) le test du glutathion sanguin pour le depistage de sujets asymptomatiques a risque; 2) l'indication de NAC aux patients cardiaques, en complement du traitement courant / The tripeptide glutathione (L-? -glutamyl-cysteinyl-glycine) does not only play a major in cellular resistance to oxidative stress, but is also essential to cell survival. A deficit in glutathione, associated with oxidative stress, is a common hallmark of several chronic inflammatory and neurodegenerative diseases. In different examples, several studies reported that oral treatment with N-acetylcysteine (NAC), a glutathione precursor, improved patient status. Oxidative stress and inflammation are two main characteristics of heart failure (HF) and muscular dystrophy. We hypothesized that glutathione deficiency occurred in these diseases and that treatment with NAC might be beneficial. In post-myocardial infarction (MI) rats, with established chronic HF, we show that cardiac tissue is depleted in glutathione. Curative 1-month oral NAC treatment replenishes cardiac tissue glutathione, reduces oxidative stress and disrupts the vicious inflammation/cell death, TNF/TNF-R1/N-SMase/ caspase-3/ apoptosis cycle. Deficit in serum and cardiac glutathione also characterize 6- to 7-month old LmnaH222P/H222P mice with dilated cardiomyopathy (DCM), a model of the cardiomyopathy associated with Emery Dreifuss muscular dystrophy (EDMD), One-month oral NAC treatment reduces left ventricular dilation and contractile dysfunction, limits the progression of cardiac fibrosis and inflammation in 7-month old LmnaH222P/H222P mice. This is associated with glutathione repletion and normalization of glutathione metabolism enzymes, and reduction of oxidative stress and TNF expression. In a first study in cardiac surgery patients (n=91) we show that: on the one hand, atrial glutathione is depleted in patients of NYHA class IV compared with asymptomatic patients of NYHA class I. On the other hand, asymptomatic patients of NYHA class display a deficiency in blood glutathione compared with healthy controls that worsens in asymptomatic patients of NYHA class II-IV. Blood glutathione deficiency in asymptomatic patients precedes elevation of blood TNFR1, a standard marker of HF severity. A second study, in patients with lamin mutation (n=28), prone to develop an Emery Dreifuss DCM, shows that a number of patients display blood glutathione deficiency, with one patient having a high blood TNFR1 level. Analysis of clinical data is underway. DMDmdx4cv mice are an experimental model of Duchenne muscular dystrophy. We observe an increase in blood glutathione in 10-week-old mice and older. Oral treatment with a low dose of L-buthionine sulfoximine (5 mM BSO), an inhibitor of glutathione synthesis, resumes blood glutathione in DMDmdx4cv mice to the control value in WT mice, but produces alterations in cardiomyocytes identified by immunohistochemistry and micronecrosis, capillary and mitochondrial abnormalities observed by electronic microscopy. In conclusion, glutathione deficiency is an early and lasting event in ischemic or genetically-linked HF. These results pave the way for two possible applications: 1) blood glutathione test for the screening of asymptomatic individuals at risk for HF; 2) NAC indication to cardiac patients in addition to current treatment

Glutathion

Dystrophies musculaires

N-acétylcystéine

Insuffisance cardiaque

Glutathione

Muscular dystrophies

N-acetylcysteine

Heart failure

Análise molecular dos genes CAPN3 e FKRP em pacientes com distrofia muscular tipo cinturas / Molecular analysis of the CAPN3 and FKRP genes in patients with limb-girdle muscular dystrophy

Silva, Francisco Marcos Alencar da

12 September 2016

Introdução: As distrofias musculares de cinturas (limb-girdle muscular dystrophies - LGMD) são causadas por mutações em uma grande variedade de genes que codificam proteínas musculares, podendo ser herdadas de forma autossômica dominante ou recessiva. O diagnóstico é feito tanto através de exame de biópsia muscular que mostra um padrão histológico distrófico ao lado de deficiência específica de proteínas musculares quanto por estudo genético. Em alguns subtipos de LGMD não é possível fazer o diagnóstico específico pela biópsia muscular, tais como na deficiência da calpaína-3 (CAPN3) e da proteína relacionada a fukutina (FKRP). Nestes casos, portanto, o exame molecular é de grande valor para a confirmação do diagnóstico. Objetivos: Analisar os genes CAPN3 e FKRP em pacientes com diagnóstico histológico de LGMD e verificar a expressão proteica da CAPN3 nesses pacientes, correlacionando com as mutações identificadas e com o quadro clínico e histológico dos mesmos. Resultados: Fizeram parte deste estudo 36 pacientes com LGMD provenientes do ambulatório de miopatias do HC-FMUSP em que a biópsia muscular não identificou deficiência de distrofina, disferlina, caveolina-3 e sarcoglicanas. Destes, nove (25%) foram diagnosticados com LGMD2A, seis (17%) com LGMD2I e em 21 (58%) não foi possível identificar o subtipo específico. Foram encontradas mutações patogênicas no gene CAPN3 em oito pacientes, sendo em homozigose em dois casos, heterozigose composta em cinco casos e em heterozigose em um caso. Em um caso o diagnóstico de LGMD2A foi realizado baseado apenas na análise da expressão da proteína CAPN3 no tecido muscular. Em seis pacientes foram identificadas mutações patogênicas no FKRP, sendo em homozigose em cinco casos e em heterozigose em um caso. A maioria dos pacientes com LGMD2I (cinco casos) apresentava a mutação c.826C > A. Foi observada ausência total ou parcial da expressão da CAPN3 em pacientes com LGMD2A. Conclusões: O presente estudo mostrou que mutações nos genes CAPN3 e FKRP são frequentes em pacientes com diagnóstico clínico e histológico de LGMD. A análise da expressão da CAPN3 se mostrou como uma importante ferramenta no diagnóstico da LGMD2A / Introduction: The Limb-Girdle Muscular Dystrophies (LGMD) are caused by mutations on a wide variety of genes that encode muscular proteins which can be inherited in dominant or recessive autosomal forms. The diagnosis is made either by genetic study or by muscle biopsy which shows a dystrophic histologic pattern with specific deficiency of muscular proteins. On some LGMD subtypes such as calpain-3 (CAPN3) and fukutin related protein (FKRP) deficiencies it is not possible to make a specific diagnosis by muscle biopsy. In these cases, the molecular exam is of great value to confirm the diagnosis. Objectives: Analyze the CAPN3 and FKRP genes in patients with histological diagnoses of LGMD, and verify the protein expression of CAPN3 on these patients correlating it with the identified mutations and their clinical and histological pattern. Results: Thirty-six patients with LGMD, where the muscular biopsy did not identify deficiency of dystrophin, dysferlin, caveolin-3 and sarcoglycans, from the Muscle Ambulatory of HC-FMUSP took part in this study. Of these, nine (25%) were diagnosed with LGMD2A, six (17%) with LGMD2I, and on 21 of them (58%), it was not possible to identify the specific subtype. Pathogenic mutations on CAPN3 were found in eight patients, being homozygous in two cases, compound heterozygous in five cases and heterozygous in one case. The diagnosis of LGMD2A in one patient was done based exclusively by CAPN3 protein analysis on the muscle tissue. Pathogenic mutations on FKRP were found in six patients, being homozygous in five cases and heterozygous in one case. Most of the patients with LGMD2I (five cases) presented the mutation c.826C > A. It was observed total or partial absence of the CAPN3 expression in patients with LGMD2A. Conclusions: The study showed that mutations on CAPN3 and FKRP are frequent in patients with clinical and histological diagnosis of LGMD. The CAPN3 expression analysis proved as an important tool in the LGMD2A diagnosis

Blotting western

Calpain

Calpaína

Distrofia muscular de cinturas

Distrofia muscular de cinturas/genética

Distrofia muscular de cinturas/patologia

Distrofias musculares/diagnóstico

Muscular dystrophies limb-girdle

Muscular dystrophies/diagnosis

Western blotting