Familial centronuclear myopathy

A girl with typical clinical and histologic features of centronuclear myopathy (CNM) is described. The electromyogram was clearly of myopathic type; the motor conduction velocity was reduced. The analysis of the pedigree, in which three other members were similarly affected, suggests autosomal dominant inheritance with low penetrance.     

MRI in DNM2-related centronuclear myopathy: evidence for highly selective muscle involvement

Dynamin 2 has recently been recognized as a causative gene for the autosomal dominant form of centronuclear myopathy (dominant centronuclear myopathy). Here we report an affected father and daughter with dynamin 2 related AD CNM with predominantly distal onset of weakness. In addition to the diagnostic central location of myonuclei the muscle biopsy also showed core-like structures. Muscle MRI in the lower leg revealed prominent involvement of the soleus, but also of the gastrocnemius and the tibialis anterior whereas in the thigh there was a consistent pattern of selective involvement of adductor longus, semimembranosus, biceps femoris, rectus femoris, and vastus intermedius with relative sparing of vastus lateralis and medialis, sartorius, gracilis, and partly of the semitendinosus. These characteristic findings on muscle MRI confirm similar findings reported for CT imaging in dynamin 2 related dominant centronuclear myopathy and may help to differentiate this disorder from central core disease and other myopathies.     

X-linked myotubular and centronuclear myopathies

Recent work has significantly enhanced our understanding of the centronuclear myopathies and, in particular, myotubular myopathy. These myopathies share similar morphologic appearances with other diseases, namely the presence of hypotrophic myofibers with prominent internalized or centrally placed nuclei. Early workers suggested that this alteration represented an arrest in myofiber maturation, while other hypotheses implicated either failure in myofiber maturation or neurogenic causes. Despite similarities in morphology, distinct patterns of inheritance and some differences in clinical features have been recognized among cases. A severe form, known as X-linked myotubular myopathy (XLMTM), presents at or near birth. Affected males have profound global hypotonia and weakness, accompanied by respiratory difficulties that often require ventilation. Most of these patients die in infancy or early childhood, but some survive into later childhood or even adulthood. The responsible gene (MTM1) has been cloned; it encodes a phosphoinositide lipid phosphatase known as myotubularin that appears to be important in muscle maintenance. In autosomal recessive centronuclear myopathy (AR CNM), the onset of weakness typically occurs in infancy or early childhood. Some investigators have divided AR CNM into 3 subgroups: 1) an early-onset form with ophthalmoparesis, 2) an early-onset form without ophthalmoparesis, and 3) a late-onset form without ophthalmoparesis. Clinically, autosomal dominant CNM (AD CNM) is relatively mild and usually presents in adults with a diffuse weakness that is slowly progressive and may be accompanied by muscle hypertrophy. Overall, the autosomal disorders are not as clinically uniform as XLMTM, which has made their genetic characterization more difficult. Currently the responsible gene(s) remain unknown. This review will explore the historical evolution in understanding of these myopathies and give an update on their histopathologic features, genetics and pathogenesis.     

Defects in amphiphysin 2 (BIN1) and triads in several forms of centronuclear myopathies

Myotubular myopathy and centronuclear myopathies (CNM) are congenital myopathies characterized by generalized muscle weakness and mislocalization of muscle fiber nuclei. Genetically distinct forms exist, and mutations in BIN1 were recently identified in autosomal recessive cases (ARCNM). Amphiphysins have been implicated in membrane remodeling in brain and skeletal muscle. Our objective was to decipher the pathogenetic mechanisms underlying different forms of CNM, with a focus on ARCNM cases. In this study, we compare the histopathological features from patients with X-linked, autosomal recessive, and dominant forms, respectively, mutated in myotubularin (MTM1), amphiphysin 2 (BIN1), and dynamin 2 (DNM2). We further characterize the ultrastructural defects in ARCNM muscles. We demonstrate that the two BIN1 isoforms expressed in skeletal muscle possess the phosphoinositide-binding domain and are specifically targeted to the triads close to the DHPR-RYR1 complex. Cardiac isoforms do not contain this domain, suggesting that splicing of BIN1 regulates its specific function in skeletal muscle. Immunofluorescence analyses of muscles from patients with BIN1 mutations reveal aberrations of BIN1 localization and triad organization. These defects are also observed in X-linked and autosomal dominant forms of CNM and in Mtm1 knockout mice. In addition to previously reported implications of BIN1 in cancer as a tumor suppressor, these findings sustain an important role for BIN1 skeletal muscle isoforms in membrane remodeling and organization of the excitation-contraction machinery. We propose that aberrant BIN1 localization and defects in triad structure are part of a common pathogenetic mechanism shared between the three forms of centronuclear myopathies.     

Dynamin 2 (DNM2) as Cause of,and Modifier for,Human Neuromuscular Disease

Dynamin 2 (DNM2) belongs to a family of large GTPases that are well known for mediating membrane fission by oligomerizing at the neck of membrane invaginations. Autosomal dominant mutations in the ubiquitously expressed DNM2 cause 2 discrete neuromuscular diseases: autosomal dominant centronuclear myopathy (ADCNM) and dominant intermediate Charcot–Marie–Tooth neuropathy (CMT). CNM and CMT mutations may affect DNM2 in distinct manners: CNM mutations may cause protein hyperactivity with elevated GTPase and fission activities, while CMT mutations could impair DNM2 lipid binding and activity. DNM2 is also a modifier of the X-linked and autosomal recessive forms of CNM, as DNM2 protein levels are upregulated in animal models and patient muscle samples. Strikingly, reducing DNM2 has been shown to revert muscle phenotypes in preclinical models of CNM. As DNM2 emerges as the key player in CNM pathogenesis, the role(s) of DNM2 in skeletal muscle remains unclear. This review aims to provide insights into potential pathomechanisms related to DNM2-CNM mutations, and discuss exciting outcomes of current and future therapeutic approaches targeting DNM2 hyperactivity.     

Autosomal dominant centronuclear myopathy: Report of a new family with clinical features simulating facioscapulohumeral syndrome

The centronuclear myopathies are a clinically and genetically heterogeneous group of disorders which share similar histological features on muscle biopsy. The familial cases have been classified genetically as X-linked or autosomal in inheritance. The autosomal forms usually have a later onset and milder course as compared to the X-linked form. Thirteen families with autosomal dominant centronuclear myopathy have been previously described. We describe an additional family with unique clinical features which initially suggested a facioscapulohumeral syndrome. © 1997 John Wiley & Sons, Inc. Muscle Nerve 20:1194–1196, 1997     

Impaired neuromuscular transmission and response to acetylcholinesterase inhibitors in centronuclear myopathies

Many clinical features of autosomal centronuclear myopathies (CNM) and X-linked myotubular myopathy (XLMTM) are common to congenital myasthenic syndromes (CMS). We describe three children whose clinical and electrophysiological findings originally suggested CMS, in whom CNM was diagnosed pathologically, though not yet genetically characterised. A fourth case, with XLMTM, also showed electrophysiological features of a neuromuscular transmission defect. Three (including the XLMTM case) showed improved strength with acetylcholinesterase inhibitor treatment. We also studied neuromuscular junction structure and function in the MTM1 knockdown zebrafish model of XLMTM, demonstrating abnormal neuromuscular junction organization; anticholinesterase therapy resulted in marked clinical response.These observations suggest that a neuromuscular transmission defect may accompany CNM and contribute to muscle weakness. Muscle biopsy should be considered in infants suspected to have CMS, especially if treatment response is incomplete, or no CMS gene mutation is identified. Treatment with acetylcholinesterase inhibitors may benefit some CNM patients. This warrants further confirmation.     

Sporadic centronuclear myopathy with muscle pseudohypertrophy,neutropenia, and necklace fibers due to a DNM2 mutation

Dynamin 2 gene (DNM2) mutations result in an autosomal dominant centronuclear myopathy (CNM) and a Charcot-Marie-Tooth (CMT) neuropathy. DNM2-CMT but not DNM2-CNM patients were noted to have neutropenia. We here report a man with paravertebral muscles hypertrophy and mild neutropenia. His muscle biopsy was typical for CNM with additional “necklace” fibers. Sequencing of DNM2 revealed a known heterozygous c.1269C > T (p.Arg369Trp) mutation. Necklace fibers were considered as a pathological hallmark of late onset X-linked CNM due to mutations in MTM1 but have not been observed in DNM2-CNM. The findings broaden the features of DNM2-myopathy.     

Severe neonatal centronuclear myopathy with autosomal dominant inheritance

We studied a boy with severe infantile centronuclear myopathy (CNM) and his mother with clinical, electrophysiological, and pathological signs of skeletal muscle, peripheral nerve, and brain-stem disorder, and we believe that her condition represents a variation of her son's disease. His brother had similar symptoms and died at 4 days of age. The occurrence of this syndrome in a symptomatic mother and two severely affected sons suggests an autosomal dominant inheritance with variable expressivity. To our knowledge, this inheritance pattern has not been previously reported in severe (fatal) infantile CNM. The different courses in the mother and her offspring may be manifestations of a single or separate abnormal gene causing alteration of muscle and nerve maturation.     

Clinicopathological features of centronuclear myopathy in Japanese populations harboring mutations in dynamin 2

Background

Missense mutations in dynamin 2 gene (DNM2) are associated with autosomal dominant centronuclear myopathy (CNM) with characteristic histopathological findings of centrally located myonuclei in a large number of muscle fibers.

Methods

To identify Japanese CNM caused by DNM2 mutations (DNM2-CNM), we sequenced DNM2 in 22 unrelated Japanese patients who were pathologically diagnosed with CNM. The clinical and pathological findings of DNM2-CNM in patients were reviewed.

Results

We identified 3 different heterozygous missense mutations (p.E368K, p.R369W, and p.R465W) in 4 probands from 4 families. Clinically, calf muscle atrophy and pes cavus are features that are highly suggestive of DNM2-CNM among all CNMs. Pathologically, all 4 DNM2-CNM patients showed a radial distribution of myofibrils in scattered fibers, type 1 fiber atrophy, type 1 fiber predominance, and type 2C fibers. None of the non-DNM2-CNM patients exhibited all the 4 abovementioned pathological features, although some patients showed radial distribution without type 1 fiber atrophy and/or type 2C fibers.

Discussion

These results indicate that the clinicopathological features of DNM2-CNM are rather homogeneous and can be distinguished from the features of non-DNM2-CNM.     

Centronuclear myopathy related to dynamin 2 mutations: Clinical,morphological, muscle imaging and genetic features of an Italian cohort

Mutations in dynamin 2 (DNM2) gene cause autosomal dominant centronuclear myopathy and occur in around 50% of patients with centronuclear myopathy. We report clinical, morphological, muscle imaging and genetic data of 10 unrelated Italian patients with centronuclear myopathy related to DNM2 mutations. Our results confirm the clinical heterogeneity of this disease, underlining some peculiar clinical features, such as severe pulmonary impairment and jaw contracture that should be considered in the clinical follow-up of these patients. Muscle MRI showed a distinct pattern of involvement, with predominant involvement of soleus and tibialis anterior in the lower leg muscles, followed by hamstring muscles and adductor magnus at thigh level and gluteus maximus. The detection of three novel DNM2 mutations and the first case of somatic mosaicism further expand the genetic spectrum of the disease.     

Coexistence of central nucleus,cores, and rods: Diagnostic relevance

Background:Congenital myopathies (CMs) though considered distinct disorders, simultaneous occurrence of central nucleus, nemaline rods, and cores in the same biopsy are scarcely reported.Objective:A retrospective reassessment of cases diagnosed as CMs to look for multiple pathologies missed, if any, during the initial diagnosis.Results:The study revealed 15 cases (12%) of congenital myopathy with more than one morphological feature. Central nucleus with cores (n = 11), central nucleus, nemaline rods and cores (n = 3), and nemaline rods with cores (n = 1). 4/11 cases were diagnosed as centronuclear myopathy (CNM) in the first instance; in addition, cores were revealed on reassessment.Discussion:The prevalence of CMs of all neuromuscular disorders is approximately 6 in 100,000 live births, with regional variations. Three main defined CMs include centro nuclear myopathy (CNM), nemaline rod myopathy (NRM), and central core disease (CCD). However, they are more diverse with overlapping clinical and histopathological features, thus broadening the spectra within each category of congenital myopathy.Conclusion:Identification of cases with overlap of pathological features has diagnostic relevance.     

Sequential muscle biopsy changes in a case of congenital myopathy

Muscle biopsies at age 7 months in a set of dizygotic male twins born floppy showed typical features of congenital fiber-type disproportion (CFTD). One of the twins died at age 1 year due to respiratory complications. The second one subsequently developed facial diplegia and external ophthalmoplegia. He never walked, remained wheelchair bound, and required continuous ventilatory support. He underwent repeat biopsies at ages 2 and 4, which showed many atrophic type 1 muscle fibers containing central nuclei and severe type 2 fiber deficiency compatible with centronuclear myopathy (CNM). Two-dimensional gel electrophoresis of muscle showed decreases of type II myosin light chains 2 and 3, suggestive of histochemical type I fiber deficiency. The progressive nature of morphological changes in one of our patients cannot be explained by maturational arrest. Repeat biopsies in cases of CFTD with rapid clinical deterioration may very well show CNM. © 1997 John Wiley & Sons, Inc. Muscle Nerve, 20, 561–569, 1997.     

Subtle central and peripheral nervous system abnormalities in a family with centronuclear myopathy and a novel dynamin 2 gene mutation

Mutations in dynamin 2 (DNM2), an ubiquitously-expressed large GTPase, cause autosomal dominant centronuclear myopathy (DNM2-CNM) and AD Charcot-Marie-Tooth disease type 2B (DNM2-CMT2B). We report a series of 5 patients from the same family who all presented with dominant centronuclear myopathy, mild cognitive impairment, mild axonal peripheral nerve involvement, and the novel E368Q mutation in the DNM2 gene. This study suggests that the phenotypes of dynamin 2 related centronuclear myopathy and Charcot-Marie-Tooth disease overlap and that DNM2 mutations may alter cerebral function. This report extends the clinical knowledge of DNM2-centronuclear myopathy and shows that the role of DNM2 mutations in the central nervous system should be further studied.     

Centronuclear myopathy heterogeneity: distinction of clinical types by myosin isoform patterns

We studied muscles from 3 patients with centronuclear myopathy (CNM) by immunocytochemistry using myosin heavy chain (MHC)-specific monoclonal antibodies to determine whether subtypes of CNM express prenatal MHC and to assess if there is an arrest in development of these muscles. Muscle from a woman with childhood-onset CNM did not express prenatal MHC, yet this prenatal MHC was strongly expressed in the muscle fibers of 2 brothers with X-linked CNM. This finding represents the 1st immunocytochemical evidence of the expression of a prenatal myosin isoform in nonregenerating postnatal human muscle and suggests that the X-linked form of CNM differs from the other types because of a true arrest in maturation of the muscle.     

A novel mutation in the dynamin 2 gene in a Charcot-Marie-Tooth type 2 patient: clinical and pathological findings

Mutations in dynamin 2 (DNM2) have been associated with autosomal dominant centronuclear myopathy, dominant intermediate Charcot-Marie-Tooth (CMT) type B and CMT2. Here, we report a novel DNM2 mutation in the Pleckstrin homology domain of DNM2 (p.K559del) in a patient with an axonal length-dependent sensorimotor polyneuropathy predominantly affecting the lower limbs. Neuropathy is associated with congenital cataracts, ophthalmoparesis, ptosis and neutropenia. There was no evidence of a skeletal myopathy on EMG or muscle biopsy. We suggest that this constellation of clinical features can help the diagnosis and selection of patients for direct DNM2 genetic analysis.     

Adult course in dynamin 2 dominant centronuclear myopathy with neonatal onset

We report a family with autosomal dominant centronuclear (myotubular) myopathy caused by a novel mutation, p.A618D, in dynamin 2 (DNM2). The 64-year-old mother and 26-year-old daughter had neonatal onset with hypotonia and weak suckling, followed by improvement, then slowly progressive muscle weakness and respiratory restriction. Muscle biopsy showed radial sarcoplasmic strands around the frequent central nuclei. Electrophysiology revealed predominantly myopathic patterns without peripheral nerve involvement. Centronuclear myopathy with neonatal onset caused by a DNM2 mutation in the C-terminal part of the pleckstrin homology domain may have a favorable prognosis and follow a course similar to adult-onset centronuclear myopathy. We advise respiratory follow-up in these patients.     

Clinical and Pathological Features of Korean Patients with DNM2-Related Centronuclear Myopathy

Background and Purpose

Centronuclear myopathy (CNM) is characterized by the presence of central nuclei within a large number of muscle fibers. Mutations of the dynamin 2 gene (DNM2) are common causes of autosomal dominant or sporadic CNM. The aim of this study was to characterize the clinical and pathological features of CNM relative to the presence of DNM2 mutations.

Methods

Six patients with clinical and pathological features of CNM were recruited. Detailed clinical and pathological findings were analyzed according to the presence of DNM2 mutations.

Results

We detected DNM2 mutations in four of the six sporadic CNM patients, and identified the following distinct clinical and pathological features in those patients with DNM2 mutations: preferential involvement of the distal lower limbs, typical nuclear centralization, and radially distributed sarcoplasmic strands in muscle pathology. In contrast, those without DNM2 mutations exhibited rather diffuse muscular involvement, and nuclear internalization and myofibrillar disorganization were more pronounced features of their muscle pathology.

Conclusions

These findings suggest the presence of specific features in Korean CNM patients. A detailed clinical and pathological examination of CNM patients would be helpful for molecular genetic analyses of this condition.     

Adult centronuclear myopathies: A hospital-based study

IntroductionCentronuclear myopathies (CNM) are rare inherited disorders characterized by nuclei placed in rows in the central part of the muscle fibres. Three CNM-causing genes have been identified, with MTM1 mutations provoking X-linked myotubular myopathy, DNM2 mutations provoking autosomal dominant (AD) CNM, and BIN1 mutations provoking autosomal recessive (AR) CNM.MethodsIn this retrospective monocentric study, we describe 14 adult patients (age > 18 years) diagnosed with CNM in our hospital in the 2000–2012 interval. Twelve patients originated from four families, and two patients presented with sporadic CNM. All patients underwent standardized clinical examinations, biological tests, electrophysiological studies, muscle biopsy, and molecular testing.ResultsSeven patients developed CNM before age 15, and seven after age 25. All patients presented with distal upper and lower limbs weakness, and normal CK levels. Disease severity remained mild, with all patients being able to walk without assistance even after decades-long disease duration. Cognitive impairment was found in seven cases, axonal polyneuropathy in six cases and ophthalmoparesis and ptosis in five cases. DNM2 gene mutations were found in eight patients, whereas BIN1 and MTM1 mutations were not observed. Overall, no molecular diagnosis was available for six patients.ConclusionAdult CNM is a slowly progressive distal myopathy with normal CK levels sometimes associated with cognitive impairment, axonal polyneuropathy, and ophthalmoparesis and ptosis. DNM2 mutations were found in eight patients, including AD and sporadic cases, and represent the major cause of CNM in this adult cohort. In contrast, no MTM1 and BIN1 mutations were observed in our series, leaving six patients with no molecular diagnosis. As these six patients presented with AD (3 cases), AR (2 cases), and sporadic (1 case) CNM, it is likely that several CNM-causing genes remain to be discovered.