Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0026827 (hypotonia)
5,860 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nemaline myopathy (NM) is the most common of several congenital myopathies that present with skeletal muscle weakness and hypotonia. It is clinically heterogeneous and the diagnosis is confirmed by identification of nemaline bodies in affected muscles. The skeletal muscle alpha-actin gene (ACTA1) is one of five genes for thin filament proteins identified so far as responsible for different forms of NM. We have screened the ACTA1 gene in a cohort of 109 unrelated patients with NM. Here, we describe clinical and pathological features associated with 29 ACTA1 mutations found in 38 individuals from 28 families. Although ACTA1 mutations cause a remarkably heterogeneous range of phenotypes, they were preferentially associated with severe clinical presentations (p < 0.0001). Most pathogenic ACTA1 mutations were missense changes with two instances of single base pair deletions. Most patients with ACTA1 mutations had no prior family history of neuromuscular disease (24/28). One severe case, caused by compound heterozygous recessive ACTA1 mutations, demonstrated increased alpha-cardiac actin expression, suggesting that cardiac actin might partially compensate for ACTA1 abnormalities in the fetal/neonatal period. This cohort also includes the first instance of an ACTA1 mutation manifesting with adult-onset disease and two pedigrees exhibiting potential incomplete penetrance. Overall, ACTA1 mutations are a common cause of NM, accounting for more than half of severe cases and 26% of all NM cases in this series.
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PMID:Heterogeneity of nemaline myopathy cases with skeletal muscle alpha-actin gene mutations. 1523 5

Nemaline myopathy has been associated with mutations in five different genes, which all encode protein components of the sarcomeric thin filaments. We report follow-up studies in two children with mutations not previously described in skeletal muscle alpha-actin (ACTA1). Case 1 was a male patient who after birth suffered from pronounced muscle weakness and hypotonia. Muscle biopsy showed small fibers with numerous rods. He failed to achieve any motor milestones. At the age of 17 he required 24 h ventilator support. He could not lift his arms against gravity, but he could use his hands to control his electric wheelchair. The muscle biopsy showed marked replacement of muscle tissue by fat and connective tissue. Only few fibers showed nemaline rods. He had a de novo, heterozygous mutation, G268D in ACTA1. Case 2 was a female patient with feeding difficulties and mild hypotonia in the neonatal period. Muscle biopsy showed hypoplastic muscle fibers and numerous rods. At 11 years of age she walked and moved unhindered and could run fairly well. She had a de novo, heterozygous mutation, K373E, in ACTA1. These two patients illustrate the marked variability in the clinical features of nemaline myopathy in spite of similar muscle pathology in early childhood. The severe muscle atrophy with replacement of fat and connective tissue in case 1 demonstrates the progressive nature of nemaline myopathy in some cases. The described two mutations add to the previously reported mutations in ACTA1 associated with nemaline myopathy.
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PMID:Follow-up of nemaline myopathy in two patients with novel mutations in the skeletal muscle alpha-actin gene (ACTA1). 1533 87

We present a 10-year-old boy from nonconsanguineous parents of Libyan (Sephardi) Jewish origin. Mild dysmorphism, hypotonia, and clubfoot deformities were noted at birth. On follow-up, he had borderline intelligence and nonprogressive muscle weakness, predominantly in the upper extremities. Physical examination revealed mild facial weakness, a bell-shaped chest cavity, kyphosis, winging of the scapula, and hypotonia of the shoulder girdle. Muscle biopsy demonstrated prominent variation in fiber size and central nuclei and numerous subsarcolemmal particles on modified Gomori trichrome stains. Electron microscopy depicted areas of disrupted sarcomeres with abnormal aggregates. Brain magnetic resonance imaging showed mild widening of the lateral ventricles and an enlarged cisterna magna. Molecular DNA analysis by polymerase chain reaction (PCR) and direct sequencing revealed a de novo heterozygous missense mutation in the skeletal muscle alpha-actin gene (ACTA1) changing codon 348 from TCG serine to TTG leucine.
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PMID:Predominantly upper limb weakness, enlarged cisterna magna, and borderline intelligence in a child with de novo mutation of the skeletal muscle alpha-actin gene. 1583 16

Nemaline myopathies (NM) are a rare group of muscle disorders, but represent one of the most common forms of congenital myopathy. The clinical picture ranges from severe muscular hypotonia often leading to death during childhood to mild forms with long life expectancy. Diagnosis is made by muscle biopsy showing characteristic sarcoplasmic and sometimes intranuclear rod bodies. So far, disease-associated mutations have been detected in six genes without any simple correlation between genotype and phenotype or histological findings. We report a patient with a phenotype typical of congenital onset nemaline myopathy and exclusively intranuclear rods. Mutation analysis revealed a new heterozygous missense mutation in exon 3 of the ACTA1 gene (Q139H). Molecular modelling predicts that substitution of Q139 for H139 alters the amino acid side chains and hydrogen bonding which may alter the nucleotide binding cleft by adding 'bulk' to the mutated molecule. Two-dimensional gel electrophoresis demonstrates that mutant actin Q139H is expressed at approximately half the level of wild-type actin in the patient's muscle. We speculate that these alterations, although not directly affecting the nuclear export signal, negatively interfere with the nuclear export of the mutated protein and thereby cause retention of mutant actin and intranuclear rod formation.
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PMID:Nemaline myopathy with exclusively intranuclear rods and a novel mutation in ACTA1 (Q139H). 1846 3

Nemaline myopathy is a neuromuscular disorder, characterized by muscle weakness and hypotonia and is, in 20% of the cases, caused by mutations in the gene encoding alpha-skeletal muscle actin, ACTA1. It is a heterogeneous disease with various clinical phenotypes and severities. In patients the ultrastructure of muscle cells is often disturbed by nemaline rods and it is thought this is the cause for muscle weakness. To search for possible defects during muscle cell differentiation we expressed alpha-actin mutants in myoblasts and allowed these cells to differentiate into myotubes. Surprisingly, we observed two striking new phenotypes in differentiating myoblasts: rounding up of cells and bleb formation, two features reminiscent of apoptosis. Indeed expression of these mutants induced cell death with apoptotic features in muscle cell culture, using AIF and endonuclease G, in a caspase-independent but calpain-dependent pathway. This is the first report on a common cellular defect induced by NM causing actin mutants, independent of their biochemical phenotypes or rod and aggregate formation capacity. These data suggest that lack of type II fibers or atrophy observed in nemaline myopathy patients may be also due to an increased number of dying muscle cells.
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PMID:alpha-Skeletal muscle actin nemaline myopathy mutants cause cell death in cultured muscle cells. 1939 68

We report a 2-year-old boy who presented with marked hypotonia and was dependent on artificial ventilation since birth. He was diagnosed with nemaline (actin) myopathy, based on the cytoplasmic accumulation of thin filament aggregates and marked myofibrillar dysgenesis. Intranuclear rods and dispersed tiny nemaline bodies were also observed. The patient was shown to be heterozygous for a de novo mutation, c.430C>T (p.Leu144Phe), in the alpha-actin (ACTA1) gene. He also showed orbital osteosclerosis, longitudinal striations of the iliac bones, hepatomegaly, undescended testis, a unilateral vesico-ureteric stenosis, severe failure to thrive, and dilatation of the lateral cerebral ventricles. Besides the severe muscle involvement, these clinical findings further broaden the clinical spectrum of actinopathy phenotypes.
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PMID:Nemaline (actin) myopathy with myofibrillar dysgenesis and abnormal ossification. 1955 21

Nemaline myopathy is a heterogenous form of congenital myopathy characterised by a variable spectrum of clinical features, predominated in the severe form by profound muscle hypotonia and weakness accompanied by respiratory insufficiency. The clinical variability, with differing age of onset and severity of symptoms makes the diagnosis of nemaline myopathy difficult in some cases. Severe forms of nemaline myopathy may be caused by mutation of a number of different genes: skeletal muscle actin (ACTA1), nebulin (NEB) and alpha-tropomyosin (TPM3), all of which encode components of the sarcomeric thin filaments of skeletal muscle. We describe the severe form of nemaline myopathy diagnosed in two brothers who died at the age of 12 days and 9 months, due to respiratory insufficiency caused by severe muscle weakness. Polyhydramnios and weakness of foetal movements in the IIIrd trimester of pregnancy, as well as variable clinical severity were noted in both cases. Microscopically visible significant immaturity of muscle fibers was found in the skeletal muscle biopsy performed in one of the brothers. The diagnosis of nemaline myopathy was confirmed by the presence of nemaline bodies (rods) in sections stained using the Gomori trichrome method. Molecular studies of DNA isolated from blood leucocytes showed no mutation in the ACTA1 or the TPM3 genes. Linkage analysis with polymorphic markers did not rule out linkage to part of the NEB gene locus. Results of the clinical evaluation and the investigations performed in the family members confirm that it is essential to consider congenital myopathies in the differential diagnosis of neonatal and infantile hypotonia with respiratory insufficiency. Molecular verification of the clinical diagnosis is also important for genetic counselling of the families.
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PMID:[Nemaline myopathy as a cause of neonatal hypotonia - with emphasis on personal experiences. Report of a family with two brothers affected]. 1964 53

Congenital fiber type disproportion (CFTD) is a rare congenital myopathy characterized by hypotonia and generalized muscle weakness. Pathologic diagnosis of CFTD is based on the presence of type 1 fiber hypotrophy of at least 12% in the absence of other notable pathological findings. Mutations of the ACTA1 and SEPN1 genes have been identified in a small percentage of CFTD cases. The muscle tropomyosin 3 gene, TPM3, is mutated in rare cases of nemaline myopathy that typically exhibit type 1 fiber hypotrophy with nemaline rods, and recently mutations in the TPM3 gene were also found to cause CFTD. We screened the TPM3 gene in patients with a clinical diagnosis of CFTD, nemaline myopathy, and with undefined congenital myopathies. Mutations in TPM3 were identified in 6 out of 13 patients with CFTD, as well as in one case of nemaline myopathy. Review of muscle biopsies from patients with diagnoses of CFTD revealed that patients with a TPM3 mutation all displayed marked disproportion of fiber size, without type 1 fiber predominance. Several mutation-negative cases exhibited other abnormalities, such as central nuclei and central cores. These results support the utility of the CFTD diagnosis in directing the course of genetic testing.
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PMID:Mutations of tropomyosin 3 (TPM3) are common and associated with type 1 myofiber hypotrophy in congenital fiber type disproportion. 1995 33

"Core-rod myopathy" is a rare congenital myopathy characterized by the presence of "cores" and "rods" in distinct locations in the same or different muscle fibres. This association is linked currently to mutations in RYR1, NEB and ACTA1 genes. We report identical twins who presented with polyhydramnios and loss of fetal motility during pregnancy; hypotonia, arthrogryposis and swallowing impairment at birth; need of immediate respiratory support and death at 27 and 50 days of life. Muscle biopsies, performed at 27 days of life in twin 1 and at 49 days in twin 2, showed the presence of separate cores and rods in the muscle fibres, both at light and electron microscopy. The molecular analysis showed a heterozygous de novo mutation (Ile4898Thr) of the RYR1 gene. The molecular study of ACTA1, TMP2 and TMP3 genes did not show abnormalities. This is the first report of a lethal form of congenital "core-rod myopathy". The mutation Ile4898Thr has been previously described in central core disease but not in core-rod myopathy. The report enlarges the phenotypic spectrum of "core-rod myopathy" and highlights the morphological variability associated to special RYR1 mutations.
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PMID:De novo RYR1 heterozygous mutation (I4898T) causing lethal core-rod myopathy in twins. 2088 34

Congenital myopathy with fibre type disproportion (CFTD) has been associated with mutations in ACTA1, SEPN1, RYR1 and TPM3 genes. We report the clinico-pathological and electrophysiological features of 2 unrelated cases with heterozygous TPM3 mutation. Case 1 is a 19-year-old lady who presented with motor delay in infancy, respiratory failure in early teens requiring non-invasive ventilation despite being ambulant, ptosis, axial more than proximal weakness and scoliosis. Case 2 is a 7-year-old boy with hypotonia, feeding difficulties, motor delay and scoliosis, also requiring non-invasive ventilation while ambulant. Muscle biopsies in both cases showed fibre type disproportion. Muscle MRI (Case 1) showed mild uniformly increased interstitial tissue in and around the muscles. Sequencing of TPM3 in case 1 revealed a previously described heterozygous c.503G > A(pArg168His) missense variant in exon 5 and a novel heterozygous missense mutation c.521A > C(pGlu174Ala), also in exon 5, in case 2. A mild abnormality in the single fibre EMG was documented on electrophysiology in both cases. These cases highlight the neuromuscular transmission defect in CFTD secondary to TPM3 mutations.
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PMID:Congenital fibre type disproportion associated with mutations in the tropomyosin 3 (TPM3) gene mimicking congenital myasthenia. 2095 Oct 40


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