Episodic myoglobinuria in a primary gamma-sarcoglycanopathy

Episodic myoglobinuria is a well-recognized complication of metabolic myopathies, and may occur in Duchenne and Becker dystrophies, but has only rarely been associated with limb-girdle muscular dystrophy. We describe an unusual presentation, with rhabdomyolysis, of limb-girdle muscular dystrophy (LGMD). We evaluated a patient for progressive muscle weakness and tenderness, with myoglobinuria one week after initial presentation. Immunohistochemistry on muscle tissue revealed absent staining for gamma-sarcoglycan, confirmed by detection of a homozygous mutation in the gamma-sarcoglycan gene. Myoglobinuria has been previously reported only twice in LGMD. It is therefore important to recognize that myoglobinuria may be a symptom of a muscular dystrophy, and muscle biopsy and immunostaining are important tools for diagnosis.     

Asian patients with limb girdle muscular dystrophy 2I (LGMD2I)

Limb girdle muscular dystrophy type 2I (LGMD2I) is caused by defects in the fukutin-related protein (FKRP) gene. In most Caucasian patients with LGMD2I, the condition is associated with a missense mutation - c.826C>A (p.Leu276Ile). We describe two Chinese brothers with progressive shoulder and pelvic muscle weakness. They had muscle stiffness and myalgia after exercise, but lacked obvious hypertrophy of the calves. Muscle biopsy showed dystrophic features with many rimmed vacuoles in the fibers. Immunohistochemistry and immunoblot analyses revealed reductions of alpha-(??)-dystroglycan (VIA4-1) and laminin-??2 (80-kDa C-terminal and 300-kDa N-terminal). Two novel heterozygous mutations (c.208T>A and c.1030G>T) in the FKRP gene were identified in these patients. In addition, we summarise the clinical features of patients with LGMD2I in the Asian region. Our findings might indicate that the pathogenic FKRP mutations in Asian patients with LGMD2I are sporadic compound heterozygous mutations rather than the hot-spot c.826C>A mutation seen in Caucasian populations.     

Variable cardiac involvement in Tunisian siblings harboring FKRP gene mutations

Mutations in the gene encoding fukutin-related protein (FKRP) cause limb-girdle muscular dystrophy 2I (LGMD2I) and congenital muscular dystrophy (MDC1C). Cardiac involvement was frequently reported with numerous mutations including C826A and 1364C > A mutations. The original Tunisian family with LGMD2I included 12 patients sharing the LGMD phenotype and homozygous to the 1486T > A mutation but who did not display any cardiac involvement. In this study, we report the clinical data, cardiac assessment and mutation analysis in four sibs belonging to a second Tunisian LGMD2I family. All patients showed the LGMD phenotype, the oldest brother and sister had mild cardiac involvement, whereas two twin sisters displayed severe cardiomyopathy leading to death. The patients shared the compound heterozygous 1486T > A, 1364C > A mutation in the FKRP gene suggesting that the association of a compound heterozygous state of mutation responsible for LGMD2I and the MDC1C phenotype could lead to cardiac involvement.     

Caveolinopathy--new mutations and additional symptoms

Mutations in the caveolin-3 gene (CAV3) can lead to a broad spectrum of clinical phenotypes. Phenotypes that have so far been associated with primary caveolin-3 deficiency include limb girdle muscular dystrophy, rippling muscle disease, distal myopathy and hyperCKaemia. This is the first report describing the clinical, pathological and genetic features of patients with caveolinopathy from the UK. Ten patients (six families) were identified via the National Commissioning Group (NCG) service for patients with limb girdle muscle dystrophy in Newcastle. Myalgia was the most prominent symptom in our cohort of patients and for 50% it was the reason for referral. Muscle weakness was only found in 60% of the patients, whereas rippling muscle movement was present in 80%. One of the patients reported episodes of myoglobinuria and another one episodes of hypoglycaemia. Five different mutations were identified, two of which were novel and three that had previously been described. Caveolinopathy needs to be considered as a differential diagnosis in a range of clinical situations, including in patients who do not have any weakness. Indeed, rippling muscles are a more frequent symptom than weakness, and can be detected in childhood. Presentation with myalgia is common and management of it as well as of myoglobinuria and hypoglycaemia may have a major impact on the patients' quality of life.     

Contractile properties are disrupted in Becker muscular dystrophy,but not in limb girdle type 2I

We investigated whether a linear relationship between muscle strength and cross‐sectional area (CSA) is preserved in calf muscles of patients with Becker muscular dystrophy (BMD, n = 14) and limb‐girdle type 2I muscular dystrophy (LGMD2I, n = 11), before and after correcting for muscle fat infiltration. The Dixon magnetic resonance imaging technique was used to quantify fat and calculate a fat‐free contractile CSA. Strength was assessed by dynamometry. Muscle strength/CSA relationships were significantly lower in patients versus controls. The strength/contractile‐CSA relationship was still severely lowered in BMD, but was almost normalized in LGMD2I. Our findings suggest close to intact contractile properties in LGMD2I, which are severely disrupted in BMD. Ann Neurol 2016;80:466–471     

Endurance training: an effective and safe treatment for patients with LGMD2I

We studied the effect of aerobic training on conditioning in patients with limb-girdle muscular dystrophy type 2I (LGMD2I). Nine patients with LGMD2I cycled fifty 30-minute sessions at 65% of their maximal oxygen uptake over 12 weeks. Training significantly improved work capacity, paralleled by self-reported improvements. Creatine kinase levels did not increase significantly, and muscle morphology was unaffected. Moderate-intensity endurance training is a safe method to increase exercise performance and daily function in patients with LGMD2I.     

Young girl presenting with exercise‐induced myoglobinuria

Introduction: The sarcoglycanopathies are a heterogeneous group of autosomal recessive limb‐girdle muscular dystrophies that cause varying degrees of progressive proximal muscle weakness. Methods: We describe the case of a Caucasian girl who presented with exercise intolerance, myalgia, and dark urine. Onset of symptoms was at age 4, and she had myalgia with physical activity throughout childhood. Creatine kinase levels were as high as 18,000. Results: Immunostaining of a muscle biopsy showed mildly diminished alpha sarcoglycan staining, and SGCA gene sequencing revealed n.C229T; p.Arg77Cys (R77C) and n.C850T; p.Arg284Cys (R284C), which is associated with alpha sarcoglycanopathy. Conclusions: This patient presented with exercise intolerance, myoglobinuria, and almost normal muscle strength into adolescence, which is uncommon in sarcoglycanopathies. This uncommon presentation should be kept in mind, so that early recognition and intervention may prevent future comorbidities and help preserve the quality of life. Muscle Nerve 54 : 161–164, 2016     

Cardiac pathology exceeds skeletal muscle pathology in two cases of limb‐girdle muscular dystrophy type 2I

Limb‐girdle muscular dystrophy type 2I (LGMD‐2I) is caused by mutations in the fukutin‐related protein gene (FKRP) that lead to abnormal glycosylation of α‐dystroglycan in skeletal muscle. Heart involvement in LGMD‐2I is common, but little is known about a underlying cardiac pathology. Herein we describe two patients with LGMD‐2I (homozygous FKRP mutation c.826C>A, p.Leu276Ile) who developed severe congestive heart failure that required cardiac transplantation. The dystrophic pathology and impairment of α‐dystroglycan glycosylation were severe in the heart but mild in skeletal muscle, underscoring the lack of correlation between cardiac and skeletal muscle involvement in some LGMD‐2I patients. Muscle Nerve, 2009     

LAMA2‐related myopathy: Frequency among congenital and limb‐girdle muscular dystrophies

Introduction: Muscular dystrophy caused by LAMA2‐gene mutations is an autosomal recessive disease typically presenting as a severe, early‐onset congenital muscular dystrophy (CMD). However, milder cases with a limb‐girdle type muscular dystrophy (LGMD) have been described. Methods: In this study, we assessed the frequency and phenotypic spectrum of LAMA2‐related muscular dystrophy in CMD (n = 18) and LGMD2 (n = 128) cohorts identified in the last 15 years in eastern Denmark. The medical history, brain‐MRI, muscle pathology, muscle laminin‐α2 expression, and genetic analyses were assessed. Results: Molecular genetics revealed 2 pathogenic LAMA2 mutations in 5 of 18 CMD and 3 of 128 LGMD patients, corresponding to a LAMA2‐mutation frequency of 28% in the CMD and 2.3% in the LGMD cohorts, respectively. Conclusions: This study demonstrates a wide clinical spectrum of LAMA2‐related muscular dystrophy and its prevalence in an LGMD2 cohort, which indicates that LAMA2 muscular dystrophy should be included in the LGMD2 nomenclature. Muscle Nerve 52: 547–553, 2015     

Phenotypic spectrum associated with mutations in the fukutin-related protein gene

We describe 22 patients with mutations in the fukutin-related protein (FKPR) gene. Four patients had congenital muscular dystrophy (MDC1C), with presentation at birth, severe weakness and inability to stand unsupported. The other 18 had limb girdle muscular dystrophy (LGMD2I). Eleven showed a Duchenne-like course with loss of ambulation in the early teens while 7 had a milder phenotype. Muscle biopsy invariably showed abnormal expression of a-dystroglycan. MDC1C patients either carried 2 missense or 1 missense and 1 nonsense mutations. Patients with LGMD2I shared a common mutation (C826A,Leu276Ileu) and their phenotypic severity was correlated with the second allelic mutation.     

Fukutin mutations in non-Japanese patients with congenital muscular dystrophy: less severe mutations predominate in patients with a non-Walker-Warburg phenotype

Six genes including POMT1, POMT2, POMGNT1, FKRP, Fukutin (FKTN) and LARGE encode proteins involved in the glycosylation of α-dystroglycan (α-DG). Abnormal glycosylation of α-DG is a common finding in Walker-Warburg syndrome (WWS), muscle-eye-brain disease (MEB), Fukuyama congenital muscular dystrophy (FCMD), congenital muscular dystrophy types 1C and 1D and some forms of autosomal recessive limb-girdle muscular dystrophy (LGMD2I, LGMD2K, LGMD2M), and is associated with mutations in the above genes. FCMD, caused by mutations in Fukutin (FKTN), is most frequent in Japan, but an increasing number of FKTN mutations are being reported outside of Japan. We describe four new patients with FKTN mutations and phenotypes ranging from: severe WWS in a Greek-Croatian patient, to congenital muscular dystrophy and cobblestone lissencephaly resembling MEB-FCMD in two Turkish patients, and limb-girdle muscular dystrophy and no mental retardation in a German patient. Four of the five different FKTN mutations have not been previously described.     

Muscular dystrophy: advances in research works and therapeutic trials]

Muscular dystrophy is defined as "a group of hereditary disorders with the major symptom of progressive muscle weakness due to muscle fiber degeneration and necrosis". After the discovery of the dystrophin gene and the gene product for Duchenne muscular dystrophy in 1986, there has been remarkable progress in the differential diagnosis and in understanding the pathogenetic mechanism of muscle fiber necrosis. With discoveries of genes responsible for many other disorders, the classification of muscular dystrophy has become more complicated; for instance, there are at least 15 diseases in the limb-girdle muscular dystrophy (LGMD) group, including the autosomal dominant forms, LGMD1A-1E and the recessive forms, LGMD2A-2I. Among them, gene defects in the sarcoglycan complex (sarcoglycanopathy) have been added to LGMD2C-2F. Sarcoglycanopathy seems to be rare in Japan since only 6-7% of LGMD patients had this defect. There are two major possible strategies in treating these patients. One is gene therapy, which is recently being investigated in the mdx mouse by using adenovirus-associated virus (AAV) vector inserted with a microdystrophin gene. Dr Takeda has reported favorable results in mdx mouse muscle with this method. Another is regeneration therapy using stem cells. There are many barriers to overcome to treat patients with stem cells isolated from bone marrow. The most difficult problem to solve is how to culture the stem cells to increase their numbers for application and how to introduce the normal dystrophin gene into these cells.     

Pattern of skeletal muscle involvement in primary dysferlinopathies: a whole‐body 3.0‐T magnetic resonance imaging study

Objectives and methods – Mutations in the gene encoding dysferlin cause limb girdle muscular dystrophy type 2B (LGMD2B), distal Miyoshi myopathy (MM), and a rare form of distal anterior compartment myopathy. To study the correlations between clinical manifestations and muscle imaging changes we conducted a 3.0‐T magnetic resonance imaging (MRI) study in six German patients with primary dysferlinopathies defined by absence of dysferlin expression in muscle (MM, n = 3; LGMD2B, n = 2; hyperCKemia without clinical symptoms, n = 1). Results – Patients with manifest myopathy had widespread muscular pathology. In analogy to previous imaging studies, we confirmed an involvement of the anterior and posterior thigh compartments and a predominant involvement of posterior lower legs. However, our whole‐body MRI study further provided evidence of signal alterations in the glutei, erector spinae and shoulder girdle muscles. Correlation of clinical findings with imaging demonstrated the potential of MRI to detect subclinical muscle pathology. Conclusions – Whole‐body 3.0‐T MRI is a non‐invasive method to demonstrate various degrees of skeletal muscle alterations and disease progression in muscular dystrophies. Furthermore, whole‐body high‐field MRI may serve as a helpful diagnostic tool in differentiating primary dysferlinopathies from other forms of LGMD and distal myopathies.     

LGMD2I presenting with a characteristic Duchenne or Becker muscular dystrophy phenotype

LGMD type 2I, caused by mutations in the fukutin-related protein, is a common form of LGMD. The phenotype resembles Duchenne/Becker muscular dystrophy. A point mutation, L276I has been found in all patients with LGMD2I studied so far. The authors screened for this mutation in 102 sporadic cases of Duchenne/Becker mutation-negative patients and found 13 patients with LGMD2I.     

Variable reduction of caveolin-3 in patients with LGMD2B/MM

Abstract. Mutations in the human dysferlin gene (DYSF) cause autosomal recessive muscular dystrophies characterized by degeneration and weakness of proximal and/or distal muscles: limb girdle muscular dystrophy type 2B (LGMD2B) and Miyoshi myopathy (MM). Recently, an interaction between caveolin-3 and dysferlin in normal and dystrophic muscle (primary caveolin-3 deficiency; LGMD1C) was shown. In this study, clinical,morphological and genetic analysis was carried out in four independent LGMD2B/MM patients. All patients presented with an adult-onset, slowly progressive muscular dystrophy with variable involvement of proximal and distal muscles. We found complete lack of dysferlin in the four LGMD2B/MM patients. Secondary reduction of caveolin-3 was detected in three out of the four patients. Regular caveolae were detected along the basal lamina in two patients by electron microscopy. We provide further evidence that dysferlin and caveolin-3 interact in human skeletal muscle. It remains to be elucidated whether the loss of this interaction contributes to pathogenic events in muscular dystrophy.M. C. Walter and C. Braun contributed equally.     

High prevalence and phenotype-genotype correlations of limb girdle muscular dystrophy type 2I in Denmark

OBJECTIVES: The prevalence of limb girdle muscular dystrophy type 2I (LGMD2I) in northern Europe is unknown. We investigated this and the genotype-phenotype relation in LGMD2I. METHODS: Prospective clinical and molecular screening of 118 Danish patients registered with LGMD was performed to divide patients into LGMD subtypes. RESULTS: One hundred three patients fulfilled the clinical criteria for LGMD2. Thirty-eight had LGMD2I (27 homozygous, 11 compound heterozygous for 826C>A), 23 had sarcoglycanopathy, 2 dysferlinopathy, 12 calpainopathy, and 4 Becker muscular dystrophy. The 24 patients with no molecular diagnosis did not harbor fukutin-related protein gene (FKRP) mutations. A clear clinical delineation was found between patients homozygous and compound heterozygous for the 826C>A mutation. Homozygous patients had later debut, milder clinical progression, and less muscle weakness compared with compound heterozygous patients, who were all wheelchair bound by their mid-20s. Impaired cardiac pump function was found in both groups. INTERPRETATION: This study reports a different distribution of LGMD subtypes in Denmark than seen in other geographic regions, with a threefold to fourfold higher prevalence of LGMD2I than elsewhere. The findings support a clear clinical delineation between patients homozygous and compound heterozygous for the 826C>A mutation in FKRP. The findings suggest that, in the studied region, screening for the 826C>A mutation will identify all persons with LGMD2I.     

Dilated cardiomyopathy may be an early sign of the C826A Fukutin-related protein mutation

Limb-girdle muscular dystrophy LGMD2I is caused by mutations in the fukutin-related protein (FKRP) gene. Clinically, LGMD2I exhibits a great phenotypic variability ranging from severe, rapidly progressive weakness and wasting of the limb-girdle muscles to mild disorders. Here, we present three siblings without clinical signs of muscle dystrophy, but with dilated cardiomyopathy. Elevated serum creatine kinase level and partial fatty degeneration of muscles on MRI indicated subclinical involvement of skeletal muscles. The patients were homozygous for the common C826A mutation in the FKRP gene. Although cardiac involvement in patients with clinically typical LGMD2I was previously described, no patient with dilated cardiomyopathy as the only clinical manifestation of the FKRP mutation was reported so far.     

Myopathic causes of exercise intolerance with rhabdomyolysis

We review the muscular dystrophies and metabolic myopathies associated with myalgia and rhabdomyolysis together with some less well-recognized associations based upon the personal practice of the authors. A careful history and clinical examination will direct investigation towards an accurate molecular diagnosis. Non-specific exercise-induced myalgia in the presence of muscle hypertrophy and a high creatine kinase will point towards a muscular dystrophy. Symptoms occurring within minutes of exercise and with isometric contraction, especially with a history of a 'second wind' phenomenon, suggest a disorder of glycogen metabolism. In those patients in whom symptoms occur after prolonged exercise, infections, fasting, stress, and cold, a disorder of fatty acid oxidation should be considered. Heat-induced rhabdomyolysis caused by exercising in hot and humid climates should lead the clinician to suspect a mutation in RYR1. Serum creatine kinase level should be a checked in all children presenting with leg pains. A careful history and examination and laboratory confirmation of myoglobinuria will target investigations leading to a correct molecular diagnosis.     

A homozygous loss of function variant in POPDC3: From invalidating exercise intolerance to a limb-girdle muscular dystrophy phenotype

Recessive pathogenic variants in POPDC3 have recently been associated with the rare limb-girdle muscular dystrophy (LGMD) subtype LGMDR26. We studied three siblings and a distantly related individual with a skeletal muscle disorder, harboring the c.486–6T>A splice site variant in POPDC3 in homozygosity. Immunohistochemistry, western blot, and mRNA experiments on patients’ skeletal muscle tissue as well as on patients’ myoblasts were performed to study the pathogenicity of the predicted loss of function mechanism of the variant. Patients mainly presented with invalidating myalgia and exercise intolerance and limited to no segmentary muscle weakness. CK levels were markedly elevated in all patients. A loss of function mechanism at the RNA level was shown (r.485_486insauag, p.Ile163*). Muscle biopsies performed in three out of four patients showed non-specific myopathic features with a marked type 2 fiber predominance and the presence of a large number of severely atrophic fibers with pyknotic nuclear clumps. We show that skeletal muscle symptoms in LGMDR26 may range from an overt late juvenile to young adult-onset limb-girdle muscular dystrophy phenotype to severe exercise intolerance and myalgia, with consistently highly elevated CK levels. We further prove a clear LOF mechanism of POPDC3 in this rare disorder.     

Limb-girdle muscular dystrophy type 2I is not rare in Taiwan

Alpha-dystroglycanopathy is caused by the glycosylation defects of α-dystroglycan (α-DG). The clinical spectrum ranges from severe congenital muscular dystrophy (CMD) to later-onset limb girdle muscular dystrophy (LGMD). Among all α-dystroglycanopathies, LGMD type 2I caused by FKRP mutations is most commonly seen in Europe but appears to be rare in Asia. We screened uncategorized 40 LGMD and 10 CMD patients by immunohistochemistry for α-DG and found 7 with reduced α-DG immunostaining. Immunoblotting with laminin overlay assay confirmed the impaired glycosylation of α-DG. Among them, five LGMD patients harbored FKRP mutations leading to the diagnosis of LGMD2I. One common mutation, c.948delC, was identified and cardiomyopathy was found to be very common in our cohort. Muscle images showed severe involvement of gluteal muscles and posterior compartment at both thigh and calf levels, which is helpful for the differential diagnosis. Due to the higher frequency of LGMD2I with cardiomyopathy in our series, the early introduction of mutation analysis of FKRP in undiagnosed Taiwanese LGMD patients is highly recommended.