Estudo clínico, histológico e molecular da miopatia centronuclear / A clinical, histological and molecular study of centronuclear myopathy

Abath Neto, Osório Lopes

02 October 2014

Introdução: A miopatia centronuclear é uma doença muscular congênita com apresentação clínica heterogênea, caracterizada histologicamente pela proeminência de fibras musculares com núcleos centralizados. Três formas são reconhecidas: neonatal grave, com herança ligada ao X e envolvimento do gene MTM1; autossômica dominante, com início geralmente tardio e curso mais leve, associada a mutações no gene DNM2; e autossômica recessiva, com gravidade intermediária entre as outras formas e envolvimento dos genes BIN1, RYR1 ou TTN. Apesar da identificação dos principais genes responsáveis pela doença, os métodos usuais de diagnóstico genético não encontram mutações em cerca da metade dos casos. Objetivo: O objetivo deste estudo foi a caracterização clínica, histológica e molecular de pacientes brasileiros portadores de miopatia centronuclear. Métodos: Laudos de dois bancos de biópsia muscular foram usados para identificar pacientes com diagnóstico de miopatia centronuclear nos últimos dez anos. As lâminas das biópsias foram revisadas e analisadas, e as famílias correspondentes convocadas para aplicação de protocolo clínico e coleta de sangue periférico para extração de DNA genômico. As famílias foram estudadas para os genes conhecidos por sequenciamento Sanger, MLPA, painel de genes implicados em doenças neuromusculares ou sequenciamento de exoma. Resultados: Foram convocados 24 pacientes provenientes de 21 famílias, em 16 das quais foi possível estabelecer o diagnóstico molecular. As 7 famílias com a forma neonatal grave constituíam um grupo homogêneo clínica e histologicamente, e mutações novas e conhecidas foram encontradas no gene MTM1 em 6 destas. Dois meninos deste grupo, com evolução estável, tiveram óbito súbito por choque hipovolêmico subsequente a rompimento de cisto hepático. O gene MTM1 também foi implicado em uma menina portadora manifestante, com quadro mais leve, na forma de uma macrodeleção em heterozigose, detectada por MPLA. Duas famílias em cuja histologia foram encontradas fibras com aspecto em \"roda de carroça\" apresentaram mutações no gene DNM2, uma das quais, p.Phe372Cys, nunca havia sido descrita. Em 7 famílias, o gene RYR1 foi o responsável, em todas sob a forma de heterozigose composta, com 14 mutações, das quais 13 novas, encontradas ao longo de todo o gene. Este grupo, apesar de heterogêneo clinicamente, apresentou em comum a presença de falhas focais na atividade oxidativa das fibras musculares na maioria dos indivíduos. O gene TTN está provavelmente implicado em uma família com um único afetado, no qual o sequenciamento de exoma mostrou mutação nula em heterozigose composta. Nesta coorte de pacientes brasileiros, não houve famílias com alterações no gene BIN1, e três famílias seguem sem diagnóstico molecular, com prováveis novos genes implicados. Conclusões: Os achados clínicos e histológicos de pacientes brasileiros com miopatia centronuclear seguem os padrões descritos na literatura, e em conjunto podem direcionar o estudo molecular adequado. Nesta coorte de pacientes, o gene RYR1, estudado por sequenciamento de alto débito de exoma, foi o mais frequentemente acometido, sugerindo que sua implicação na miopatia centronuclear vem sendo subestimada. Novas mutações encontradas nos genes MTM1, DNM2 e RYR1 contribuíram para confirmar regiões de patogenicidade e ampliar o espectro de alterações nestes genes / Introduction: Centronuclear myopathy is a heterogeneous congenital muscle disease, characterized by the prominence of centralized nuclei in muscle fibers. Three disease forms are recognized: a severe neonatal, X-linked form caused by mutations in the MTM1 gene; an autosomal dominant, late-onset milder form, associated to the DNM2 gene; and an autosomal recessive form, with intermediate severity, so far with the BIN1, RYR1 or TTN genes implicated. In spite of the identification of these genes, usual molecular diagnostic methods don\'t yield a molecular diagnosis in about half of cases. Objetives: The aim of this work was to study clinical, histological, and molecular aspects of centronuclear myopathy Brazilian patients. Methods: Reports taken from two muscle biopsy banks were used to identify centronuclear myopathy patients in the last ten years. Biopsy slides were reviewed and analyzed, and corresponding families recruited to apply a clinical protocol and to draw peripheral blood to extract genomic DNA. Families were studied for known genes via Sanger sequencing, MLPA, panel of genes implicated in neuromuscular diseases, or exome sequencing. Results: Twentyfour patients out of 21 families were recruited, and in 16 families molecular diagnosis was established. The 7 families with the severe neonatal form amounted to a clinically and histologically homogeneous group, and mutations, both known and novel, were found in the MTM1 gene in 6 of these. Two boys of this group, with a stable course, died suddenly of hypovolemic shock due to a hepatic cyst rupture. The MTM1 gene was also implicated in the case of a mild manifesting carrier girl with a heterozygous macrodeletion detected via MLPA. Two families whose histology contained fibers with a \"spoke of wheels\" aspect had mutations in the DNM2 gene, one of which, p.Phe372Cys, had never been described. In 7 families, the RYR1 gene was the culprit, in all of them in a compound heterozygous state, with 14 mutations, 13 of which novel, found throughout the length of the gene. This group, despite clinically heterogeneous, had in common the presence of focal disruptions in the oxidative activity of muscle fibers in the majority of individuals. The TTN gene is probably implicated in a family with a single affected, whose exome sequencing showed compound heterozygous null mutations. In this cohort of Brazilian patients, no family was found to have alterations in the BIN1 gene, and three families remain without molecular diagnosis, with probable new implicated genes. Conclusions: Clinical and histological findings of Brazilian patients with centronuclear myopathy follow patterns already described in the literature, and taken as a whole can direct the adequate molecular study. In this patient cohort, the RYR1 gene, sequenced though hight-throughput techniques, was the most frequently involved, suggesting that its implication in centronuclear myopathy is underestimated. Novel mutations found in the MTM1, DNM2 and RYR1 genes contributed to confirm pathogenic regions and expand the spectrum of alterations in these genes

Biópsia

Biopsy

Dinamina II

Dynamin II

Exoma

Exome

Highthroughput nucleotide sequencing

Hipotonia muscular

Miopatia centronuclear

Muscle hypotonia

Myopathies structural congenital

Characterisation of gene structure and function of the ETS transcription factor Gabpα in mouse

O'Leary, Debra Alison

January 2003

Abstract not available

DNA-binding proteins

Messenger RNA

Myoneural junction

Embryology

Striated muscle -- Physiology

Transcription factors

Gene expression

Genetic regulation

Nicotinic receptors

Acetylcholine -- Receptors

Muscle hypotonia

Oxidation-reduction reaction

Mice -- Molecular genetics

Transgenic mice -- Embryology

Estudo clínico, histológico e molecular da miopatia centronuclear / A clinical, histological and molecular study of centronuclear myopathy

Osório Lopes Abath Neto

02 October 2014

Introdução: A miopatia centronuclear é uma doença muscular congênita com apresentação clínica heterogênea, caracterizada histologicamente pela proeminência de fibras musculares com núcleos centralizados. Três formas são reconhecidas: neonatal grave, com herança ligada ao X e envolvimento do gene MTM1; autossômica dominante, com início geralmente tardio e curso mais leve, associada a mutações no gene DNM2; e autossômica recessiva, com gravidade intermediária entre as outras formas e envolvimento dos genes BIN1, RYR1 ou TTN. Apesar da identificação dos principais genes responsáveis pela doença, os métodos usuais de diagnóstico genético não encontram mutações em cerca da metade dos casos. Objetivo: O objetivo deste estudo foi a caracterização clínica, histológica e molecular de pacientes brasileiros portadores de miopatia centronuclear. Métodos: Laudos de dois bancos de biópsia muscular foram usados para identificar pacientes com diagnóstico de miopatia centronuclear nos últimos dez anos. As lâminas das biópsias foram revisadas e analisadas, e as famílias correspondentes convocadas para aplicação de protocolo clínico e coleta de sangue periférico para extração de DNA genômico. As famílias foram estudadas para os genes conhecidos por sequenciamento Sanger, MLPA, painel de genes implicados em doenças neuromusculares ou sequenciamento de exoma. Resultados: Foram convocados 24 pacientes provenientes de 21 famílias, em 16 das quais foi possível estabelecer o diagnóstico molecular. As 7 famílias com a forma neonatal grave constituíam um grupo homogêneo clínica e histologicamente, e mutações novas e conhecidas foram encontradas no gene MTM1 em 6 destas. Dois meninos deste grupo, com evolução estável, tiveram óbito súbito por choque hipovolêmico subsequente a rompimento de cisto hepático. O gene MTM1 também foi implicado em uma menina portadora manifestante, com quadro mais leve, na forma de uma macrodeleção em heterozigose, detectada por MPLA. Duas famílias em cuja histologia foram encontradas fibras com aspecto em \"roda de carroça\" apresentaram mutações no gene DNM2, uma das quais, p.Phe372Cys, nunca havia sido descrita. Em 7 famílias, o gene RYR1 foi o responsável, em todas sob a forma de heterozigose composta, com 14 mutações, das quais 13 novas, encontradas ao longo de todo o gene. Este grupo, apesar de heterogêneo clinicamente, apresentou em comum a presença de falhas focais na atividade oxidativa das fibras musculares na maioria dos indivíduos. O gene TTN está provavelmente implicado em uma família com um único afetado, no qual o sequenciamento de exoma mostrou mutação nula em heterozigose composta. Nesta coorte de pacientes brasileiros, não houve famílias com alterações no gene BIN1, e três famílias seguem sem diagnóstico molecular, com prováveis novos genes implicados. Conclusões: Os achados clínicos e histológicos de pacientes brasileiros com miopatia centronuclear seguem os padrões descritos na literatura, e em conjunto podem direcionar o estudo molecular adequado. Nesta coorte de pacientes, o gene RYR1, estudado por sequenciamento de alto débito de exoma, foi o mais frequentemente acometido, sugerindo que sua implicação na miopatia centronuclear vem sendo subestimada. Novas mutações encontradas nos genes MTM1, DNM2 e RYR1 contribuíram para confirmar regiões de patogenicidade e ampliar o espectro de alterações nestes genes / Introduction: Centronuclear myopathy is a heterogeneous congenital muscle disease, characterized by the prominence of centralized nuclei in muscle fibers. Three disease forms are recognized: a severe neonatal, X-linked form caused by mutations in the MTM1 gene; an autosomal dominant, late-onset milder form, associated to the DNM2 gene; and an autosomal recessive form, with intermediate severity, so far with the BIN1, RYR1 or TTN genes implicated. In spite of the identification of these genes, usual molecular diagnostic methods don\'t yield a molecular diagnosis in about half of cases. Objetives: The aim of this work was to study clinical, histological, and molecular aspects of centronuclear myopathy Brazilian patients. Methods: Reports taken from two muscle biopsy banks were used to identify centronuclear myopathy patients in the last ten years. Biopsy slides were reviewed and analyzed, and corresponding families recruited to apply a clinical protocol and to draw peripheral blood to extract genomic DNA. Families were studied for known genes via Sanger sequencing, MLPA, panel of genes implicated in neuromuscular diseases, or exome sequencing. Results: Twentyfour patients out of 21 families were recruited, and in 16 families molecular diagnosis was established. The 7 families with the severe neonatal form amounted to a clinically and histologically homogeneous group, and mutations, both known and novel, were found in the MTM1 gene in 6 of these. Two boys of this group, with a stable course, died suddenly of hypovolemic shock due to a hepatic cyst rupture. The MTM1 gene was also implicated in the case of a mild manifesting carrier girl with a heterozygous macrodeletion detected via MLPA. Two families whose histology contained fibers with a \"spoke of wheels\" aspect had mutations in the DNM2 gene, one of which, p.Phe372Cys, had never been described. In 7 families, the RYR1 gene was the culprit, in all of them in a compound heterozygous state, with 14 mutations, 13 of which novel, found throughout the length of the gene. This group, despite clinically heterogeneous, had in common the presence of focal disruptions in the oxidative activity of muscle fibers in the majority of individuals. The TTN gene is probably implicated in a family with a single affected, whose exome sequencing showed compound heterozygous null mutations. In this cohort of Brazilian patients, no family was found to have alterations in the BIN1 gene, and three families remain without molecular diagnosis, with probable new implicated genes. Conclusions: Clinical and histological findings of Brazilian patients with centronuclear myopathy follow patterns already described in the literature, and taken as a whole can direct the adequate molecular study. In this patient cohort, the RYR1 gene, sequenced though hight-throughput techniques, was the most frequently involved, suggesting that its implication in centronuclear myopathy is underestimated. Novel mutations found in the MTM1, DNM2 and RYR1 genes contributed to confirm pathogenic regions and expand the spectrum of alterations in these genes

Biópsia

Dinamina II

Exoma

Hipotonia muscular

Miopatia centronuclear

Biopsy

Dynamin II

Exome

Highthroughput nucleotide sequencing

Muscle hypotonia

Myopathies structural congenital

Two newly defined inherited disorders due to cholinergic transporter dysfunction with distinct clinical outcomes, disease mechanisms and modes of inheritance

Barwick, Katy Elizabeth Sara

January 2016

Neurodegenerative diseases are becoming increasingly prevalent due to the ageing population, and are among the major contributors to disability and disease worldwide. The identification of the gene defects responsible for many of these conditions has played a major role in our understanding of the pathogenic processes involved, and provided opportunity to develop targeted treatment strategies. Cholinergic neurotransmission supports a wide range of physiological and behavioural processes and its dysfunction of cholinergic signalling has been associated with a number of disorders, including myasthenias, cardiovascular disease(1), attention-deficit hyperactivity disorder (ADHD) (2), Alzheimer’s disease (ADi), schizophrenia, addiction(3), and depression(4). SLC5A7 encodes the Na+/Cl- dependent, high-affinity choline transporter (CHT) which represents the rate limiting step in acetylcholine (Ach) synthesis and is critical for normal cholinergic signalling. The work in this thesis details two new inherited disorders, caused by distinct pathogenic disease mechanisms, associated with novel SLC5A7 mutations. Chapter three documents the discovery of two autosomal-dominantly acting SLC5A7/CHT mutations associated with adult onset motor neurone disorders. Initially we identified a frameshift mutation that results in premature truncation of the transporter protein in a large Welsh kindred affected with distal hereditary motor neuropathy type VII (dHMN-VII), in which neurodegeneration and muscle paresis is largely restricted to the distal limb muscles and vocal cords. The mutation responsible results in the dominant-negative interference of the mutant molecule with function of the wild type choline transporter, resulting in significantly reduced (although not completely abolished) transporter activity. This finding is further evidenced by the discovery of a second dHMN family associated with a distinct frameshift SLC5A7 mutation indicative of a similar dominant-negative disease mechanism. Together these findings corroborate a dominant-negative disease mechanism arising from C-terminal truncating SLC5A7 mutations associated with dHMN, and provide further insight into the role of aberrant choline transporter function in neurological disease. Chapter four describes N-terminal missense mutations located in the transmembrane spanning region of SLC5A7/CHT, associated with a severe infantile neuromuscular disorder characterised by predominantly central hypotonia and developmental delay. The phenotypic effects of these mutations are likely to result from the near abolition of CHT-mediated choline transport in homozygous individuals, and are in keeping with those observed in CHT knock-out mouse models(5). The development of a mouse model of the human motor neurone disease arising from SLC5A7 frameshift mutations should allow for further investigation of the mechanism by which truncated CHT leads to the dHMN phenotype. Chapter 5 details treatment hypotheses for dHMN, as well as the generation of a patient-specific knock-in mouse model carrying an Slc5a7 mutation orthologous to that identified in dHMN-VII families in chapter 3, and results from preliminary neurological phenotyping of the mouse model. This model will be crucially important for the exploration of treatment options in dHMN-VII motor neurone disease as a prelude to clinical trials in humans.

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