Gene/Protein
Disease
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Enzyme
Compound
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Gene/Protein
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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)
Hereditary multiple exostoses (HME) is an autosomal dominantly inherited disorder characterized by multiple benign cartilage-capped exostoses. Clinical manifestation of the disease is heterogenous. Overriding toes,
scoliosis
, spinal cord compression, and brachydactyly caused by shortening of metatarsals are rare findings. EXT1 and EXT2 are the genes responsible in most HME patients. We have characterized 11 HME families and 6 sporadic cases involving a total of 37 patients and performed mutational analysis of EXT1 and EXT2. Structural modeling of the wild and mutant proteins was also performed. Thirteen mutations were identified, including 8 that are novel. Among the novel mutations in EXT1, c.1004T>G-associated HME exhibited overriding toes and
scoliosis
, c.1883+2T>A-associated HME exhibited brachydactyly, and c.459_460delCT-associated exostosis arising from vertebra T4 caused spinal cord compression. Our structural predictions revealed four domains in the proteins encoded by EXT1 and EXT2: signalP, transmembrane regions,
exostosin
, and glyco_transf-64. The mutations truncated either part or whole of the
exostosin
domain and/or the C terminus of the glyco_transf-64 domain, or occurred within one of the domains. Our results provide new data for genetic diagnosis, identification of presymptomatic carriers, phenotype-genotype correlation, and understanding of the mechanisms of disease.
...
PMID:Novel mutations of EXT1 and EXT2 genes among families and sporadic cases with multiple exostoses. 2103 24
Hereditary multiple exostoses (HME) is an inherited genetic condition characterized by the presence of multiple exostoses (osteochondromas). MHE is a relatively rare autosomal dominant disorder, mainly caused by loss of function mutations in two genes:
exostosin
-1 (EXT1) and
exostosin
-2 (EXT2). These genes are linked to heparan sulfate (HS) synthesis, but the specific molecular mechanism leading to the disruption of the cartilage structure and the consequent exostoses formation is still not resolved. The aim of this paper is to encounter the main aspects of HME reviewing the literature, in order to improve clinical features and evolution, and the metabolic-pathogenetic mechanisms underlying. Although MHE may be asymptomatic, a wide spectrum of clinical manifestations is found in paediatric patients with this disorder. Pain is experienced by the majority of patients, even restricted motion of the joint is often encountered. Sometimes exostoses can interfere with normal development of the growth plate, giving rise to limb deformities, low stature and
scoliosis
. Other many neurovascular and associated disorders can lead to surgery. The most feared complication is the malignant transformation of an existing osteochondroma into a secondary peripheral chondrosarcoma, during adulthood. The therapeutic approach to HME is substantially surgical, whereas the medical one is still at an experimental level. In conclusion, HME is a complex disease where the paediatrician, the geneticist and the orthopaedic surgeon play an interchangeable role in diagnosis, research and therapy. We are waiting for new studies able to explain better the role of HS in signal transduction, because it plays a role in other bone and cartilage diseases (in particular malignant degeneration) as well as in skeletal embryology.
...
PMID:Hereditary Multiple Exostoses: a review of clinical appearance and metabolic pattern. 2792 Aug 6
Biallelic
exostosin
-2 (EXT2) pathogenic variants have been described as the cause of the Seizures-
Scoliosis
-Macrocephaly syndrome (OMIM 616682) characterized by intellectual disability, facial dysmorphisms and seizures. More recently, it has been proposed to rename this disorder with the acronym AREXT2 (autosomal recessive EXT2-related syndrome). Here, we report the third family affected by AREXT2 syndrome, harboring compound missense variants in EXT2, p.Asp227Asn, and p.Tyr608Cys. In addition, our patients developed multiple exostoses, which were not observed in the previously described families. AREXT2 syndrome can be considered as a multiorgan Congenital Disorder of Glycosylation caused by a significant, but non-lethal, decrease in EXT2 expression, thereby affecting the synthesis of the heparan sulfate proteoglycans, which is relevant in many physiological processes. Our finding expands the clinical and molecular spectrum of the AREXT2 syndrome and suggests a possible genotype/phenotype correlation in the development of the exostoses.
...
PMID:Novel exostosin-2 missense variants in a family with autosomal recessive exostosin-2-related syndrome: further evidences on the phenotype. 3028 35
