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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Early spinal rigidity is a nonspecific feature reported in diseases such as neuromuscular and central movement disorders. We present a male patient with rigid spine
muscular dystrophy
caused by newly identified compound heterozygote mutations of the
selenoprotein N
gene and discuss this disease as a possible differential diagnosis for early-onset reduced spine mobility. Rigid spine
muscular dystrophy
is a rare myopathy presenting in childhood with a typical combination of stable or slowly progressive mild to moderate muscle weakness, limitation in flexion of the spine, and progressive restrictive ventilatory disorder. The clinical features of our patient include early-onset rigidity of his spine, scoliosis, mild muscular weakness predominantly of neck and trunk flexors, and restrictive ventilatory disorder. Biopsy of the biceps muscle revealed nonspecific myopathic changes, and molecular analysis confirmed the diagnosis of rigid spine
muscular dystrophy
. Thus, neuromuscular diseases such as
muscular dystrophy
must be considered in all patients presenting with early spinal rigidity, and genetic determination is a possible way to determine the diagnosis.
...
PMID:Selenoprotein N muscular dystrophy: differential diagnosis for early-onset limited mobility of the spine. 1690 Sep 28
Mutations in the gene coding for
selenoprotein N
(
SelN
), a selenium containing protein of unknown function, cause different forms of congenital
muscular dystrophy
in humans. These muscular diseases are characterized by early onset of hypotonia which predominantly affect in axial muscles. We used zebrafish as a model system to understand the function of
SelN
in muscle formation during embryogenesis. Zebrafish
SelN
is highly homologous to its human counterpart and amino acids corresponding to the mutated positions in human muscle diseases are conserved in the zebrafish protein. The sepn1 gene is highly expressed in the somites and notochord during early development. Inhibition of the sepn1 gene by injection of antisense morpholinos does not alter the fate of the muscular tissue, but causes muscle architecture disorganization and greatly reduced motility. Ultrastructural analysis of the myotomes reveals defects in muscle sarcomeric organization and in myofibers attachment, as well as altered myoseptum integrity. These studies demonstrate the important role of
SelN
for muscle organization during early development. Moreover, alteration of myofibrils architecture and tendon-like structure in embryo deficient for
SelN
function provide new insights into the pathological mechanism of
SelN
-related myopathy.
...
PMID:Loss of selenoprotein N function causes disruption of muscle architecture in the zebrafish embryo. 1712 13
We report a sporadic case of congenital
muscular dystrophy
(CMD) in a 13-year-old girl with early manifestation of muscle weakness and hypotonia, severe contractures, bulbar syndrome, progressive external ophtalmoplegia, and white matter changes on magnetic resonance imaging (MRI) of the brain, but no mental defect. Serum creatine kinase (CK) level was normal. Muscle biopsy revealed a dystrophic picture with a prominent inflammatory infiltrate mimicking inflammatory myopathy-typical histological findings in CMD. Immunostaining showed normal expression of merosin, alpha and beta-dystroglycans. Mutation analyses of calpain3, dysferlin, and
SEPN1
genes were negative. An electron microscopy revealed the accumulation of abnormally enlarged mitochondria located under the sarcolemma. Measurement of respiratory chain enzyme activities did not reveal any biochemical defect and mitochondrial genetic studies, including sequencing of the entire mitochondrial genome, were unremarkable. Phenotypic presentation of our patient is very unusual and differs considerably from other CMD variants.
...
PMID:An unusual case of congenital muscular dystrophy with normal serum CK level, external ophtalmoplegia, and white matter changes on brain MRI. 1739 6
The selenoprotein N1-related myopathies comprise rigid spine
muscular dystrophy
, the "classical" form of multiminicore disease, a desmin-related myopathy with Mallory body like inclusions and a form of congenital fiber-type disproportion. To define the phenotype and long-term clinical course in juvenile Selenoprotein N1-related myopathies 11 juvenile patients from eight families with
SEPN1
mutations were assessed over a mean period of 7.2 years. Clinical findings, histomorphological studies, respiratory investigations and genetic data were analyzed: age of manifestation varied within the first 2 years of life with muscle hypotonia, lag of head control and delayed motor development. Further gross motor development was normal in 9/11 patients. All patients were ambulant for at least 1000 m at a mean age of 13.7 years. Eight patients exhibited a rigid spine diagnosed at a mean age of 10 years. All patients had respiratory impairment with a vital capacity ranging from 18% to 65%. Four patients were intermittently nocturnally ventilated at a mean age of 11 years. Body mass index was below 20 (kgm(-2)) in all patients. Muscle biopsies of eight individuals revealed multiminicores (n=2), congenital fiber-type disproportion (n=1), myopathic changes with single cores (n=2) and unspecific myopathic features (n=3). Mutations were distributed throughout the entire
SEPN1
gene. Although the phenotype of juvenile selenoprotein N1-related myopathies is homogenous regarding the main symptoms we describe a variable degree of clinical severity. Major complications were early respiratory failure, impaired increase in weight and orthopedic problems. There seems to be no correlation between skeletal muscle weakness and respiratory failure.
...
PMID:The phenotype and long-term follow-up in 11 patients with juvenile selenoprotein N1-related myopathy. 1795 Oct 86
Exonization of Alu elements is a major mechanism for birth of new exons in primate genomes. Prior analyses of expressed sequence tags show that almost all Alu-derived exons are alternatively spliced, and the vast majority of these exons have low transcript inclusion levels. In this work, we provide genomic and experimental evidence for diverse splicing patterns of exonized Alu elements in human tissues. Using Exon array data of 330 Alu-derived exons in 11 human tissues and detailed RT-PCR analyses of 38 exons, we show that some Alu-derived exons are constitutively spliced in a broad range of human tissues, and some display strong tissue-specific switch in their transcript inclusion levels. Most of such exons are derived from ancient Alu elements in the genome. In
SEPN1
, mutations of which are linked to a form of congenital
muscular dystrophy
, the muscle-specific inclusion of an Alu-derived exon may be important for regulating
SEPN1
activity in muscle. Realtime qPCR analysis of this
SEPN1
exon in macaque and chimpanzee tissues indicates human-specific increase in its transcript inclusion level and muscle specificity after the divergence of humans and chimpanzees. Our results imply that some Alu exonization events may have acquired adaptive benefits during the evolution of primate transcriptomes.
...
PMID:Diverse splicing patterns of exonized Alu elements in human tissues. 1884 Dec 51
Selenoprotein N
-related myopathy (
SEPN1
-RM) is an early-onset muscle disorder that can manifest clinically as congenital
muscular dystrophy
with spinal rigidity and can result in specific pathological entities such as multiminicore disease, desmin-related myopathy with Mallory body-like inclusions, and congenital fiber-type disproportion. Here we describe the clinical, histopathological, muscle magnetic resonance imaging (MRI) and genetic findings of three Italian
SEPN1
-RM families. Proband 1 is a 31-year-old female who was floppy at birth and developed axial and mild lower limb-girdle weakness. The second proband is a 13-year-old boy with
RSMD1
. Probands 3 and 4 were brothers showing clinical phenotype of congenital myopathy. Muscle MRI demonstrated selective involvement of sartorius, gluteal muscles and distal gastrocnemius and sparing of rectus femoris and gracilis. Muscle histopathology showed in proband 1 myopathic changes with mild connective tissue increase and some fibres lacking the Z-line, while probands 2 and 3 had multiminicores.
SEPN1
gene analysis revealed five mutations, three of which are novel. Proband 1 was a compound heterozygote for a 92-bp (exon 1) and a 1-bp deletion (exon 9); proband 2 had a 99-bp deletion and a 10-bp duplication in exon 1, and proband 3 presented a novel homozygous mutation in intron 10 acceptor splice site.
...
PMID:New molecular findings in congenital myopathies due to selenoprotein N gene mutations. 2093 10
Selenium, a trace element that is fundamental to human health, is incorporated into some proteins as selenocysteine (Sec), generating a family of selenoproteins. Sec incorporation is mediated by a multiprotein complex that includes Sec insertion sequence-binding protein 2 (SECISBP2; also known as SBP2). Here, we describe subjects with compound heterozygous defects in the SECISBP2 gene. These individuals have reduced synthesis of most of the 25 known human selenoproteins, resulting in a complex phenotype. Azoospermia, with failure of the latter stages of spermatogenesis, was associated with a lack of testis-enriched selenoproteins. An axial
muscular dystrophy
was also present, with features similar to myopathies caused by mutations in
selenoprotein N
(
SEPN1
). Cutaneous deficiencies of antioxidant selenoenzymes, increased cellular ROS, and susceptibility to ultraviolet radiation-induced oxidative damage may mediate the observed photosensitivity. Reduced levels of selenoproteins in peripheral blood cells were associated with impaired T lymphocyte proliferation, abnormal mononuclear cell cytokine secretion, and telomere shortening. Paradoxically, raised ROS in affected subjects was associated with enhanced systemic and cellular insulin sensitivity, similar to findings in mice lacking the antioxidant selenoenzyme glutathione peroxidase 1 (GPx1). Thus, mutation of SECISBP2 is associated with a multisystem disorder with defective biosynthesis of many selenoproteins, highlighting their role in diverse biological processes.
...
PMID:Mutations in the selenocysteine insertion sequence-binding protein 2 gene lead to a multisystem selenoprotein deficiency disorder in humans. 2108 48
A nine year-old girl with selenoprotein-related
muscular dystrophy
was diagnosed. The primary symptom was weak neck muscles. During childhood she developed a rigid spine and over a period of a few years a severe scoliosis. She was compound heterozygote for a mutation in the
SEPN1
gene. Experimental treatment with N-acetylcystein for a period of two years was initiated.
...
PMID:[Selenoprotein-related muscular dystrophy]. 2211 57
Rigid spine
muscular dystrophy
1 (RSMD1) is a neuromuscular disorder, manifested with poor axial muscle strength, scoliosis and neck weakness, and a variable degree of spinal rigidity with an early ventilatory insufficiency which can lead to death by respiratory failure. Mutations of
SEPN1
gene are associated with autosomal recessive RSMD1. Here, we present a clinical molecular study of a Chinese proband with RSMD1. The proband is a 17 years old male, showing difficulty in feeding, delayed motor response, problem in running with frequent fall down, early onset respiratory insufficiency, general muscle weakness and rigid cervical spine. Muscle biopsy identified increased variability of fiber size with atrophic muscle cells consistent with non-specific myopathic changes. Proband's elder brother presented with same phenotype as the proband and died at the age of 15 years due to acute respiratory failure. Proband's father and mother are phenotypically normal. Targeted exome capture based next generation sequencing and Sanger sequencing identified that the proband was a compound heterozygote with two novel mutations in
SEPN1
gene; a novel missense mutation (c.1384T>C; p.Sec462Arg) and a novel nonsense mutation (c.1525C>T; p.Gln509Ter), inherited from his father and mother respectively. These two mutations are co-segregated with the disease phenotypes in the proband and was absent in normal healthy controls. Our present study expands the mutational spectrum of the
SEPN1
associated RSMD1.
...
PMID:Targeted next generation sequencing identifies two novel mutations in SEPN1 in rigid spine muscular dystrophy 1. 2786 79
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