- PMID
- Gene Name
- Molecular Event
- Function in UC
- 14563640
- ADAMTS13
- mutation
- Pathogenesis
- Method
- NA
- Summary
- ADD A NOTE
- Molecular characterization of ADAMTS13 gene mutations in Japanese patients with Upshaw-Schulman syndrome. Blood, 2004 Feb 15 [Go to PubMed]
- We report here 7 new mutations in the ADAMTS13 gene responsible for Upshaw-Schulman syndrome (USS), a catastrophic phenotype of congenital thrombotic thrombocytopenic purpura, by analyzing 5 Japanese families. There were 3 mutations that occurred at exon-intron boundaries: 414+1G>A at intron 4, 686+1G>A at intron 6, and 1244+2T>G at intron 10 (numbered from the A of the initiation Met codon), and we confirmed that 2 of these mutations produced aberrantly spliced messenger RNAs (mRNAs). The remaining 4 mutations were missense mutations: R193W, I673F, C908Y, and R1123C. In expression experiments using HeLa cells, all mutants showed no or a marginal secretion of ADAMTS13. Taken together with the findings in our recent report we determined the responsible mutations in a total of 7 Japanese patients with USS with a uniform clinical picture of severe neonatal hyperbilirubinemia, and in their family members, based on ADAMTS13 gene analysis. Of these patients, 2 were homozygotes and 5 were compound heterozygotes. The parents of one homozygote were related (cousins), while those of the other were not. Molecular models of the metalloprotease, fifth domain of thrombospondin 1 (Tsp1-5), and Tsp1-8 domains of ADAMTS13 suggest that the missense mutations could cause structural defects in the mutants.
- 21781265
- ADAMTS13
- mutation
- Unclassified
- Method
- NA
- Summary
- These two proteins were consistently secreted into the culture medium but to a lesser extent and with reduced activity compared to the wild-type protein.
- Natural history of Upshaw-Schulman syndrome based on ADAMTS13 gene analysis in Japan. Journal of thrombosis and haemostasis : JTH, 2011 Jul [Go to PubMed]
- Upshaw-Schulman syndrome (USS) is an extremely rare hereditary deficiency of ADAMTS13 activity, termed congenital TTP. The clinical signs are usually mild during childhood, often with isolated thrombocytopenia. But their symptoms become more evident when patients have infections or get pregnant. We identified 43 USS-patients in Japan, who ranged in age from early childhood to 79 years of age. Analysing the natural history of these USS patients based on ADAMTS13 gene mutations may help characterise their clinical phenotypes. Severe neonatal jaundice that requires exchange blood transfusion, a hallmark of USS, was found in 18 of 43 patients (42%). During childhood, 25 of 43 patients were correctly diagnosed with USS without gender disparity. These 25 patients were categorised as having 'the early-onset phenotype'. Between 15 and 45 years of age, 15 were correctly diagnosed, and, interestingly, they were all female. The remaining three patients were male and were diagnosed when they were older than 45 years of ge, suggesting that they were 'the late-onset phenotype'. Two of these three males developed sudden overt TTP when they were 55 and 63 years old, respectively. These two men had two different homozygous ADAMTS13 gene mutations, p.R193W/p.R193W and p.C1024R/p.C1024R, respectively. Both of which were not discovered in the US or Western countries. In vitro expression studies showed that these two proteins were consistently secreted into the culture medium but to a lesser extent and with reduced activity compared to the wild-type protein. Our results indicate that 'the late-onset phenotype' of USS is formed with ethnic specificity.
- 18481107
- ADAMTS13
- mutation
- Diagnosis
- Method
- NA
- Summary
- Although the causal relationship between the two diseases has not been established, TTP may be included as one of the causes of moyamoya syndrome.
- Congenital thrombotic thrombocytopenic purpura associated with unilateral moyamoya disease. Pediatric nephrology (Berlin, Germany), 2008 Sep [Go to PubMed]
- Thrombotic thrombocytopenic purpura (TTP) is a thrombotic microangiopathy disorder associated with congenital or acquired deficiency of the von Willebrand factor-cleaving protease, ADAMTS13. The central nervous system and kidneys are the two major organs of involvement in TTP. Moyamoya (puff of smoke) disease is a cerebral arteriopathy of unknown etiology characterized by narrowing or occlusion of the distal internal carotid or proximal anterior or middle cerebral arteries, which causes the formation of multiple tiny collateral networks. We report here a case of an 11-year-old boy with unilateral moyamoya disease and congenital TTP. The patient had a history of severe neonatal jaundice and thereafter recurrent episodes of hemolytic anemia associated with renal dysfunction and cerebral infarction. The plasma ADAMTS13 activity of the patient <3% of normal, and ADAMTS13 gene analysis revealed an abnormal splicing mutation (c.330+1 G > A) in one allele and a novel missense mutation (p.Ile1217Thr) in the other. This is the first case of a genetically confirmed congenital TTP associated with unilateral moyamoya disease. Although the causal relationship between the two diseases has not been established, TTP may be included as one of the causes of moyamoya syndrome.
3 pubmed articles have reported ADAMTS13 mutation associated with Neonatal Jaundice.