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Target Concepts:
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Query: UMLS:C0700208 (
scoliosis
)
8,574
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Emery-Dreifuss muscular dystrophy (EDMD) is characterised by early-onset joint contractures, progressive muscular weakness and wasting and late-onset cardiac disease. The more common X-linked recessive form of EDMD is caused by mutations in either EMD (encoding emerin) or FHL1 (encoding four and a half LIM domains 1), while mutations in LMNA (encoding
lamin A/C
), SYNE1 (encoding nesprin-1) and SYNE2 (encoding nesprin-2) lead to autosomal dominant forms of the condition. Here, we identify a three-generation family with an extended EDMD phenotype due to a novel indel mutation in FHL1 that differentially affects the relative expression of the three known transcript isoforms produced from this locus. The additional phenotypic manifestations in this family-proportionate short stature, facial dysmorphism, pulmonary valvular stenosis, thoracic
scoliosis
, brachydactyly, pectus deformities and genital abnormalities-are reminiscent of phenotypes seen with dysregulated Ras-mitogen-activated protein kinase (RAS-MAPK) signalling [Noonan syndrome (NS) and related disorders]. The misexpression of FHL1 transcripts precipitated by this mutation, together with the role of FHL1 in the regulation of RAS-MAPK signalling, suggests that this mutation confers a complex phenotype through both gain- and loss-of-function mechanisms. This indel mutation in FHL1 broadens the spectrum of FHL1-related disorders and implicates it in the pathogenesis of NS spectrum disorders.
...
PMID:Dysregulation of FHL1 spliceforms due to an indel mutation produces an Emery-Dreifuss muscular dystrophy plus phenotype. 2345 29
Lamin A/C is a major constituent of the nuclear lamina implicated in a number of genetic diseases, collectively known as laminopathies. The most severe forms of laminopathies feature, among other symptoms, congenital
scoliosis
, osteoporosis, osteolysis or delayed cranial ossification. Importantly, specific bone districts are typically affected in laminopathies. Spine is severely affected in LMNA-linked congenital muscular dystrophy. Mandible, terminal phalanges and clavicles undergo osteolytic processes in progeroid laminopathies and Restrictive Dermopathy, a lethal developmental laminopathy. This specificity suggests that
lamin A/C
regulates fine mechanisms of bone turnover, as supported by data showing that
lamin A/C
mutations activate non-canonical pathways of osteoclastogenesis, as the one dependent on TGF beta 2. Here, we review current knowledge on laminopathies affecting bone and LMNA involvement in bone turnover and highlight lamin-dependent mechanisms causing bone disorders. This knowledge can be exploited to identify new therapeutic approaches not only for laminopathies, but also for other rare diseases featuring bone abnormalities.
...
PMID:Lamins and bone disorders: current understanding and perspectives. 2985 17
Multiminicore disease is a myopathy that is pathologically characterized by the presence of multiple areas of small, short, and poorly delineated zones of sarcomeric disorganization lacking mitochondria (minicores) that can be observed in both type 1 and type 2 fibers. Most cases of multiminicore disease typically present with early-onset axial weakness, respiratory insufficiency,
scoliosis
, and rigid spine. There is no correlation between the frequency of minicores and clinical severity. Multiminicore disease is genetically heterogeneous and can result from recessive or dominant mutations. Genetic testing is needed to establish the precise diagnosis and provide overall prognosis. Here we report a 23-year-old woman with respiratory failure, distal joint hyper-laxity,
scoliosis
and rigid spine due to multiminicore disease caused by a novel compound heterozygous mutation in the selenoprotein N1-encoding gene (SELN). The preserved ambulation into adulthood and normal creatinine kinase (CK) favor the diagnosis of congenital myopathy over congenital muscular dystrophy (CMD). However, the nonspecific myopathic histopathological changes and extremely rare minicore-like structures can make it challenging to differentiate between SELN-myopathy and congenital muscular dystrophies, such as Ullrich or
lamin A/C
-CMD.
...
PMID:Congenital myopathy with a novel SELN missense mutation and the challenge to differentiate it from congenital muscular dystrophy. 3061 14
