Inflammatory changes in infantile-onset LMNA-associated myopathy

Mutations in LMNA cause wide variety of disorders including Emery-Dreifuss muscular dystrophy, limb girdle muscular dystrophy, and congenital muscular dystrophy. We recently found a LMNA mutation in a patient who was previously diagnosed as infantile onset inflammatory myopathy. In this study, we screened for LMNA mutations in 20 patients suspected to have inflammatory myopathy with onset at 2 years or younger. The diagnosis of inflammatory myopathy was based on muscle pathology with presence of perivascular cuffing and/or endomysial/perimysial lymphocyte infiltration. We identified heterozygous LMNA mutations in 11 patients (55%), who eventually developed joint contractures and/or cardiac involvement after the infantile period. Our findings suggest that LMNA mutation should be considered in myopathy patients with inflammatory changes during infancy, and that this may help avoid life-threatening events associated with laminopathy.     

Telethonin-deficiency initially presenting as a congenital muscular dystrophy

Congenital muscular dystrophies are defined by congenital or infantile onset of muscle weakness; while 12 culprit genes have been identified, many cases remain molecularly uncharacterized. On the other hand, mutations in the telethonin gene (TCAP) have been associated with a rare form of recessive limb girdle muscular dystrophy, usually presenting in the second decade.So far, three different mutations in telethonin have been reported in patients suffering from limb muscular dystrophy type 2G. We have identified a novel telethonin mutation in a child presenting with mildly delayed motor development and muscle weakness from infancy, clinically improving over the first decade, indicative of a CMD. Muscle biopsy showed a dystrophic process, with preserved laminin ??2, collagen VI, and ??-dystroglycan, but absent telethonin immunolabeling. Sequence analysis of TCAP showed a novel non-sense p.Gln58X (c.172C > T) homozygous mutation. Our observation indicates that telethonin deficiency may present in infancy with clinical features overlapping with mild forms of ??-dystroglycanopathy. Therefore telethonin analysis should be performed in patients suffering from congenital muscular dystrophy of unknown cause.     

Psycho-organic symptoms as early manifestation of adult onset POMT1-related limb girdle muscular dystrophy

We report two siblings of Croatian consanguineous healthy parents with a novel homozygous missense mutation in the POMT1 gene, presenting with intellectual disability and psychotic, in particular hallucinatory symptoms and abnormal brain MRIs, preceding classical symptoms of limb-girdle muscular dystrophy by several years. Weakness became apparent in early adulthood and both siblings remained ambulant into the 3rd and 4th decade of life. The muscle biopsy showed reduced α-dystroglycan compatible with the POMT1 defect. This case report extends the phenotypic spectrum of POMT1 associated muscular dystrophies to the adult onset limb girdle muscular dystrophies with psycho-organic deficits.     

Congenital Muscular Dystrophy With Dropped Head Linked to the LMNA Gene in a Brazilian Cohort

BackgroundCongenital muscular dystrophy is a clinically and genetically heterogeneous group of myopathies. Congenital muscular dystrophy related to lamin A/C is rare and characterized by early-onset hypotonia with axial muscle weakness typically presenting with a loss in motor acquisitions within the first year of life and a dropped-head phenotype.MethodsHere we report the clinical and histological characteristics of four unrelated Brazilian patients with dropped-head syndrome and mutations in the LMNA gene.ResultsAll patients had previously described mutations (p.E358K, p.R249W, and p.N39S) and showed pronounced cervical muscle weakness, elevation of serum creatine kinase, dystrophic pattern on muscle biopsy, and respiratory insufficiency requiring ventilatory support. Three of the patients manifested cardiac arrhythmias, and one demonstrated a neuropathic pattern on nerve conduction study.ConclusionAlthough lamin A/C–related congenital muscular dystrophy is a clinically distinct and recognizable phenotype, genotype/phenotype correlation, ability to anticipate onset of respiratory and cardiac involvement, and need for nutritional support remain difficult.     

DOK7 limb-girdle myasthenic syndrome mimicking congenital muscular dystrophy

Congenital myasthenic syndrome shows a wide clinical heterogeneity. However, the unusual pattern of muscle weakness and the presence of variable degree of muscle pathology, subtle electrophysiological abnormalities and lack of circadian variability of symptoms may complicate its recognition. We have previously reported a Palestinian family with suspected congenital muscular dystrophy and linkage to chromosome 4p16.3. As the DOK7 gene is located in this genetic interval, we considered it a potential candidate for this condition. Patients showed a homozygous DOK7 pathogenic mutation (c.957delC). We have re-examined six patients and found permanent limb-girdle weakness, but also episodic crises without clear precipitating factors. Following the revised diagnosis, patients were treated with salbutamol for 8 months with significant improvement in their muscle strength and function. This family needs to be reclassified as congenital myasthenic syndrome rather than congenital muscular dystrophy.     

Congenital muscular dystrophy phenotype with neuromuscular spindles excess in a 5-year-old girl caused by HRAS mutation

We report on a 5-year-old girl who presented with an association of symptoms reminiscent of an Ullrich-like congenital muscular dystrophy including congenital hypotonia, proximal joint contractures, hyperlaxity of distal joints, normal cognitive development, and kyphoscoliosis. There was an excess of neuromuscular spindles on the skeletal muscle biopsy. This very peculiar feature on muscle biopsy has been reported only in patients with mutations in the HRAS gene. Sequence analysis of the subject’s HRAS gene from blood leukocytes and skeletal muscle revealed a previously described heterozygous missense mutation (c.187G>A, p. Glu63Lys). The present report thus extends the differential diagnosis of congenital muscular dystrophy with major “retractile” phenotypes and adds congenital muscular dystrophy to the clinical spectrum of HRAS-related disorders.     

Megaconial congenital muscular dystrophy: Same novel homozygous mutation in CHKB gene in two unrelated Chinese patients

Megaconial congenital muscular dystrophy (CMD) is a rare form of congenital muscular dystrophy attributed to an autosomal recessive CHKB mutation. We report two unrelated Chinese girls with Megaconial CMD who harbored the same novel homozygous CHKB mutation but exhibited different phenotypes. Patient 1, who is now 8 years old, has autism, intellectual disabilities, mild girdle weakness, and characteristic muscle biopsy with COX-negative fibers. Patient 2, now 12 years old, has limited intelligence and marked weakness, with scoliosis, hip subluxation and early loss of ambulation. Both exhibited mildly elevated creatine kinase levels, have relative sparing of adductor longus and extensor digitorum longus on MRI leg muscles, and a c.598del (p.Gln200Argfs*11) homozygous CHKB loss-of-function mutation. Their parents are heterozygous carriers. This is the first report of Megaconial CMD in Chinese patients demonstrating the pathogenicity of the identified homozygous CHKB variant. A case review of all previously reported patients of different ethnicities is also included.     

Clinical and genetic characterization of limb girdle muscular dystrophy R7 telethonin-related patients from three unrelated Chinese families

Limb girdle muscular dystrophy LGMD R7 telethonin-related is a rare autosomal recessive muscle disorder characterized by proximal muscle weakness of pelvic and shoulder girdles. Mutation in TCAP is responsible for LGMD R7, and the disease has a wide geographic distribution in diverse populations, but genotype-phenotype relationships remain unclear. We collected 5 LGMD R7 patients from three unrelated Chinese families. The average onset age was 16 ± 1.41; the initial symptoms included progressive proximal muscle weakness in limbs, difficulty in fast running, and asymmetric muscle atrophy in calves. Muscle MR imaging showed varying severity of fatty infiltration in the pelvic girdle, thigh, and calf muscles, and the severity of muscle infiltration was related to the length of the disease course. Muscle histopathology revealed aberrantly sized muscle fibers, internal nuclei, split fibers, rimmed vacuoles, monocyte invasion, and necrotic fibers. Sequencing identified one novel and one previously reported TCAP mutation. Our study extends the known distribution of this rare muscular dystrophy and presents the first detailed clinical and genetic characterizations of LGMD R7 cases from the Chinese population. Our work expands the mutation spectrum known for LGMD R7 and emphasizes the need for clinicians to consider TCAP mutations when evaluating patients with symptoms of limb girdle muscular dystrophy.     

A new mutation of the fukutin gene causing late-onset limb girdle muscular dystrophy

Defects in glycosylations of α-dystroglycan are associated with mutations in several genes, including the fukutin gene (FKTN). Hypoglycosylation of α-dystroglycan results in several forms of muscular dystrophy with variable phenotype. Outside Japan, the prevalence of muscular dystrophies related to aberrations of FKTN is rare, with only eight reported cases of limb girdle phenotype (LGMD2M). We describe the mildest affected patient outside Japan with genetically confirmed LGMD2M and onset of symptoms at age 14. She was brought to medical attention at age 12, not because of muscle weakness, but due to episodes of tachycardia caused by Wolff–Parkinson–White syndrome. On examination, she had rigid spine syndrome, a typical limb girdle dystrophy pattern of muscle weakness, cardiomyopathy, and serum CK levels >2000 IU/L (normal <150 IU/L). A homozygous, novel c.917A>G; p.Y306C mutation in the FKTN gene was found. The case confirms FKTN mutations as a cause of LGMD2M without mental retardation and expands the phenotypic spectrum for LGMD2M to include cardiomyopathy and rigid spine syndrome in the mildest affected non-Japanese patient reported so far.     

Long-term clinical and MRI follow-up in two POMT2-related limb girdle muscular dystrophy (LGMDR14) patients

IntroductionPOMT2-related limb girdle muscular dystrophy (LGMDR14) is a rare muscular dystrophy caused by mutations in the POMT2 gene. Thus far only 26 LGMDR14 subjects have been reported and no longitudinal natural history data are available.Case reportWe describe two LGMDR14 patients followed for 20 years since infancy. Both patients presented a childhood-onset, slowly progressive pelvic girdle muscular weakness leading to loss of ambulation in the second decade in one patient, and cognitive impairment without detectable brain structural abnormalities. Glutei, paraspinal, and adductor muscles were the primarily involved muscles at MRI.DiscussionThis report provides natural history data on LGMDR14 subjects, with a focus on longitudinal muscle MRI. We also reviewed the LGMDR14 literature data, providing information on the LGMDR14 disease progression. Considering the high prevalence of cognitive impairment in LGMDR14 patients, a reliable application of functional outcome measures can be challenging, therefore a muscle MRI follow-up to assess disease evolution is recommended.     

Prevalent cardiac phenotype resulting in heart transplantation in a novel LMNA gene duplication

Mutations in the lamin A/C gene (LMNA) are known to be involved in several diseases such as Emery–Dreifuss muscular dystrophy, limb-girdle muscular dystrophy type 1B and dilated cardiomyopathies with conduction disease, with considerable phenotype heterogeneity. Here we report on a novel autosomal dominant mutation in LMNA in two direct relatives presenting with different clinical phenotypes, characterized by severe life-threatening limb-girdle muscle involvement and cardiac dysfunction treated with heart transplantation in the proband, and by ventricular tachyarrhythmias with preserved cardiac and skeletal muscle function in her young son. To our knowledge, this is the first report of a duplication in the LMNA gene. The two phenotypes described could reflect different clinical stages of the same disease. We hypothesize that early recognition and initiation of therapeutic manoeuvres in the younger patient may retard the rate of progression of the cardiomyopathy.     

Late-onset axial myopathy with cores due to a novel heterozygous dominant mutation in the skeletal muscle ryanodine receptor (RYR1) gene

Mutations in the skeletal muscle ryanodine receptor (RYR1) gene have been associated with a wide range of phenotypes including the malignant hyperthermia (MH) susceptibility trait, Central Core Disease (CCD) and other congenital myopathies characterized by early onset and predominant proximal weakness.We report a patient presenting at 77 years with a predominant axial myopathy associated with prominent involvement of spine extensors, confirmed on MRI and muscle biopsy, compatible with a core myopathy. RYR1 mutational analysis revealed a novel heterozygous missense mutation (c.119G>T; p.Gly40Val) affecting the RYR1 N-terminus, previously predominantly associated with MH susceptibility.This case expands the spectrum of RYR1-related phenotypes and suggests that MH-related RYR1 mutations may give rise to overt neuromuscular symptoms later in life, with clinical features not typically found in CCD due to C-terminal hotspot mutations. Late-onset congenital myopathies may be under-recognised and diagnosis requires a high degree of clinical suspicion.     

Merosin-deficient congenital muscular dystrophy with mental retardation and cerebellar cysts unlinked to the LAMA2, FCMD and MEB loci

We report a case of congenital muscular dystrophy with secondary merosin deficiency, structural involvement of the central nervous system and mental retardation in an 8-year-old girl from a consanguineous family. She had early-onset hypotonia, generalized muscle wasting, with weakness especially of the neck muscles, joint contractures, mental retardation and high creatine kinase. Muscle biopsy showed dystrophic changes with partial deficiency of the laminin ₂ chain. Cranial magnetic resonance imaging revealed multiple small cysts in the cerebellum, without cerebral cortical dysplasia or white matter changes. The laminin ₂ chain (6q2), Fukuyama type congenital muscular dystrophy (9q31–q33) and muscle–eye–brain disease (1p32–p34) loci were all excluded by linkage analysis. We suggest that this case represents a new entity in the nosology of congenital muscular dystrophy.     

Germinal mosaicism for LMNA mimics autosomal recessive congenital muscular dystrophy

Life-threatening cardiac and respiratory complications are common in LMNA-related myopathies and early diagnosis is important for optimal patient care. Lamin A/C related congenital muscular dystrophy (L-CMD) is often caused by de novo mutation in LMNA, affecting a single child in a family. Germinal mosaicism is a rarer variant that can lead to two children inheriting the same new heterozygous mutation from a clinically unaffected parent. Both patterns mimic autosomal recessive (AR) inheritance and the possibility of de novo L-CMD may be forgotten since most causes of congenital muscular dystrophy follow AR inheritance. To illustrate the challenge of diagnosing L-CMD, we present a consanguineous family in which two children have early onset LMNA-related myopathy likely due to paternal germinal mosaicism. This emphasises that germinal mosaicism (and de novo mutations) for LMNA can arise in any family and direct gene sequencing is required to confirm or exclude the diagnosis.     

A case of severe autosomal dominant spinal muscular atrophy with lower extremity predominance caused by a de novo BICD2 mutation

BackgroundHeterozygous variants in BICD2 cause autosomal dominant spinal muscular atrophy with lower extremity predominance. These variants are also identified in individuals with severe forms of congenital muscle atrophy representing arthrogryposis multiplex.Case reportA girl was born with severe muscle weakness and respiratory distress. A fetal ultrasound had detected polyhydramnios and multiple joint contractures in utero. She was born with severe muscle weakness and respiratory distress. Bilateral hip joint dislocation and multiple bone fractures were also present at birth. Although she depends on medical care, including assisted ventilation and tube feeding, she has reached eight years of age. Her motor developmental skills were reduced owing to muscle weakness and deformity of her lower extremities, whereas her cognitive development slowly but steadily grew. Whole exome sequencing revealed a novel de novo missense BICD2 variant (c.1625G > A, p.(Cys542Tyr)), which was evaluated as likely pathogenic.ConclusionThis is the first case report of a severe form of spinal muscular atrophy with lower extremity predominance caused by a de novo BICD2 variant in Japan.     

Pathogenic variants in COL6A3 cause Ullrich-like congenital muscular dystrophy in young Labrador Retriever dogs

The collagen VI-related muscular dystrophies in people include a broad spectrum of diseases ranging from the severe Ullrich congenital muscular dystrophy to the mild Bethlem myopathy. Clinical features are attributable to both muscle and connective tissue and include progressive muscle weakness and respiratory failure, hyperlaxity of distal joints, and progressive contracture of large joints. Here we describe two different COL6A3 pathogenic variants in Labrador Retriever dogs that result in autosomal recessive or autosomal dominant congenital myopathies with hyperlaxity of distal joints and joint contracture, similar to the condition in people.     

Differentiating Emery-Dreifuss muscular dystrophy and collagen VI-related myopathies using a specific CT scanner pattern

Bethlem myopathy and Ullrich congenital muscular dystrophy are part of the heterogeneous group of collagen VI-related muscle disorders. They are caused by mutations in collagen VI (ColVI) genes (COL6A1, COL6A2, and COL6A3) while LMNA mutations cause autosomal dominant Emery-Dreifuss muscular dystrophy. A muscular dystrophy pattern and contractures are found in all three conditions, making differential diagnosis difficult especially in young patients when cardiomyopathy is absent.We retrospectively assessed upper and lower limb muscle CT scans in 14 Bethlem/Ullrich patients and 13 Emery-Dreifuss patients with identified mutations.CT was able to differentiate Emery-Dreifuss muscular dystrophy from ColVI-related myopathies in selected thigh muscles and to a lesser extent calves muscles: rectus femoris fatty infiltration was selectively present in Bethlem/Ullrich patients while posterior thigh muscles infiltration was more prominently found in Emery-Dreifuss patients. A more severe fatty infiltration particularly in the leg posterior compartment was found in the Emery-Dreifuss group.     

Congenital muscular dystrophy with severe infantile scoliosis

A girl with congenital muscular dystrophy with severe scoliosis from birth was presented. No positive family history was obtainable. She developed muscle hypotonia and weakness, and feeding difficulty during the neonatal period. Her developmental milestones were delayed; she learned to walk at the age of 2 years when she walked with a "waddling gait" and stood up with Gowers' maneuver. On physical examination at 2 years old, she had mild proximal dominant muscle weakness and atrophy, and severe scoliosis with a Cobb's angle of 74 degrees but no joint contractures in the extremities. Creatine kinase was slightly elevated. Biopsied muscle showed myopathic changes, including variation in fiber size, moderate fibrous tissue proliferation, some necrotic and regenerating fibers and type 1 fiber predominance, consistent with those seen in chronic progressive muscular dystrophy.     

Congenital myopathies with secondary neuromuscular transmission defects; A case report and review of the literature

Congenital myopathies are a clinically and genetically heterogeneous group of disorders characterized by early onset hypotonia, weakness and characteristic, but not pathognomonic, structural abnormalities in muscle fibres. The clinical features overlap with muscular dystrophies, myofibrillar myopathies, neurogenic conditions and congenital myasthenic syndromes. We describe a case of cap myopathy with myasthenic features due to a mutation in the TPM2 gene that responded to anticholinesterase therapy. We also review other published cases of congenital myopathies with neuromuscular transmission abnormalities. This report expands the spectrum of congenital myopathies with secondary neuromuscular transmission defects. The recognition of these cases is important since these conditions can benefit from treatment with drugs enhancing neuromuscular transmission.     

Anoctamin 5 muscular dystrophy associated with a silent p.Leu115Leu mutation resulting in exon skipping

We report a 45 year-old patient with an asymmetrical proximal muscle weakness affecting the quadriceps muscle of the right leg starting at the age of 32 years. CK was 25-fold increased. MRI of the legs showed signs of fatty degeneration more pronounced in the right side. Biopsy of a thigh muscle showed dystrophic pattern and amyloid deposition in blood vessel walls. The coding region and exon/intron boundaries of the ANO5 gene were amplified and sequenced. The common c.191dupA mutation and a silent novel p.Leu115Leu (c.345G>A) variant were identified. This silent variant was listed neither in the LOVD database nor in the SNP database. To evaluate the pathogenicity of the novel silent mutation in ANO5, cDNA analysis was performed that demonstrated skipping of exon 6. So far, no case with a silent mutation leading to abnormal splicing has been identified in Anoctamin 5 muscular dystrophy. Present findings emphasize that cDNA analysis should be done if a silent variant is not annotated in the databases. In Anoctamin 5 muscular dystrophy a molecular diagnosis is even more important as protein investigation through Western blotting or immunohistochemistry is not yet established.