Wilson disease (WD), an autosomal recessive disorder of copper transport, is characterized by impaired biliary excretion and by impaired incorporation of copper into ceruloplasmin. Toxic accumulation of copper causes tissue damage, primarily in the liver, brain, and kidneys. The gene for WD (ATP7B) has been cloned, and the protein product is predicted to be a copper-transporting P-type ATPase with high amino acid identity with that for Menkes disease, an X-linked disorder of copper transport. Mutation screening in WD patients has led to the identification of at least 40 mutations. In addition, haplotype analysis using three dinucleotide-repeat markers, D13S314, D13S301, and D13S316, has been a useful indicator of specific mutations. We have determined haplotypes for the patients and their parents and sibs, in 21 unrelated WD families from Japan. Twenty-eight different haplotypes were observed on 42 WD chromosomes. In all the patients, the ATP7B coding sequence, including the intron-exon boundaries, was screened for mutations, by SSCP, followed by direct-sequence analysis of the shifted fragments. We identified 13 mutations, of which 11 mutations are novel, including 7 mutations-1 insertion, 4 deletions, and 2 missense mutations-in the coding region. The mutations reported in previous studies are 2299insC and Arg778Leu. Two patients were shown to have the 2299insC mutation, which has occurred in many different haplotypes in several populations, indicating a mutation hot spot. Primer-extension analysis of ATP7B mRNA has revealed multiple transcription start sites. Four of the novel mutations (three 1-bp changes and one 5-bp deletion) occur in the 5' UTR and may result in altered expression of the WD gene.
Heat shock proteins (HSP) belong to a family of highly homologous proteins that are encoded by several genes and function as protein chaperones. A number of HSP genes have been described in the major histocompatibility complex (MHC) on chromosome 6. We have cloned and mapped one chromosome 14 HSP gene (HSPA2) using a genomic probe (pH2.3) derived from one of the HSP genes present in the MHC, which was previously shown to also detect sequences on chromosome 14. Screening of a chromosome 14-specific cosmid library yielded one relevant clone that contains an HSP-like sequence, showing a high degree of identity with the HSP genes from the MHC and with HSP70.2 (Hspa2) in the mouse. This new HSP gene is expressed abundantly in muscle, heart, oesophagus and brain, and to a lesser extent in testis. Its localization to 14q22 was established by using a somatic cell hybrid panel and FISH analysis. A pentanucleotide repeat motif, showing seven alleles, was also identified in the cosmid clone.
Wilson disease (WD) is an autosomal recessive disorder of copper metabolism. The gene responsible for WD was discovered in 1993 and is located on chromosome 13 at 13q14.3. It encodes a copper-specific transporting P-type ATPase. Early diagnosis can improve treatment outcome and decrease the rate of disability or even mortality.We used Sanger sequencing to identify mutation hot spots in 55 northern Vietnamese with a clinical diagnosis of WD. Mutations were screened and detected by direct DNA sequencing. A total of 26 different ATP7B gene mutations were identified, including seven novel mutations (five nonsense and two missense mutations). The most frequent mutations were p.Ser105Ter (24.55%), p.Arg778Leu (5.45%) and p.Thr850Ile (4.55%). Mutation detection rate in exon 2 was 34.55% and ranked first, followed by exon 8 with 16.36%, and exon 18 with 10.91% each, thus, exons 2, 8 and 18 are the mutation hot spots for northern VietnameseWD patients. These findings were different from previous studies in Asia. Our research established a suitable strategy for ATP7B gene testing in northern Vietnamese WD patients.
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