Diagnosis and phenotypic classification of Wilson disease1

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Abstract

Wilson disease is an inherited autosomal recessive disorder of hepatic copper metabolism leading to copper accumulation in hepatocytes and in extrahepatic organs such as the brain and the cornea. Originally Wilson disease was described as a neurodegerative disorder associated with cirrhosis of the liver. Later, Wilson disease was observed in children and adolescents presenting with acute or chronic liver disease without any neurologic symptoms. While diagnosis of neurologic Wilson disease is straightforward, it may be quite difficult in non-neurologic cases. Up to now, no single diagnostic test can exclude or confirm Wilson disease with 100% certainty. In 1993, the gene responsible for Wilson disease was cloned and localized on chromosome 13q14.3 (MIM277900) (1, 2). The Wilson disease gene ATP7B encodes a P-type ATPase. More than 200 disease causing mutations of this gene have been described so far (3). Most of these mutations occur in single families, only a few are more frequent (like H1069Q, 3400delC and 2299insC in Caucasian (4-6) or R778L in Japanese (7), Chinese and Korean patients). Studies of phenotype-genotype relations are hampered by the lack of standard diagnostic criteria and phenotypic classifications. To overcome this problem, a working party discussed these problems in depth at the 8th International Meeting on Wilson disease and Menkes disease in Leipzig/Germany (April 16-18, 2001). After the meeting, a preliminary draft of a consensus report was mailed to all active participants and their comments were incorporated in the final text.

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The Wilson disease gene is a copper transporting ATPase with homology to the Menkes disease gene.

J Pellequer, K Petrukhin, W Wasco … (1993)

Wilson disease (WD) is an autosomal recessive disorder characterized by the toxic accumulation of copper in a number of organs, particularly the liver and brain. As shown in the accompanying paper, linkage disequilibrium & haplotype analysis confirmed the disease locus to a single marker interval at 13q14.3. Here we describe a partial cDNA clone (pWD) which maps to this region and shows a particular 76% amino acid homology to the Menkes disease gene, Mc1. The predicted functional properties of the pWD gene together with its strong homology to Mc1, genetic mapping data and identification of four independent disease-specific mutations, provide convincing evidence that pWD is the Wilson disease gene.

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High prevalence of the H1069Q mutation in East German patients with Wilson disease: rapid detection of mutations by limited sequencing and phenotype-genotype analysis.

K Caca, P Ferenci, H J Kühn … (2001)

Wilson disease is caused by a large number of different mutations in the ATP7B gene. Wilson disease patients from a homogeneous ethnical background (Saxonia) were studied for distribution and phenotypes of ATP7B mutations. Eighty-two patients were analyzed. The H1069Q mutation was assayed by a polymerase chain reaction-based restriction fragment length polymorphism test. Exons 8 and 15 were sequenced in all, and the entire gene in 30, non-H1069Q-homozygotes. Four novel and 12 known mutations were found. Thirty-two (39%) Wilson disease patients were homozygous and 39 (48%) heterozygous for the H1069Q mutation (allele frequency 63%). Together with sequence analysis of exons 8 and 15 mutations in both alleles were identified in 65% of patients. Only one patient had both mutations at other locations. In H1069Q homozygotes symptoms started later (21.3+/-7.2 years) than in H1069Q compound heterozygotes (14.6+/-5.8, P<0.001) or H1069Q negatives (10+/-4.4, P<0.001), and they had more frequently neurologic symptoms (93 vs. 47%, P<0.001) and Kayser-Fleischer rings (82 vs. 51%, P<0.001). Mutation status did not correlate with liver biopsy findings, serum ceruloplasmin levels or (64)Cu-assay results. In spite of many known ATP7B mutations, only few occur in this homogeneous population. Limited genetic testing is useful to confirm Wilson disease in this population.

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Screening for Wilson's disease in patients with liver diseases by serum ceruloplasmin.

E Cauza, T Maier-Dobersberger, C Polli … (1997)

A low serum ceruloplasmin level is considered a diagnostic test for Wilson's disease. To examine whether it is useful to detect presymptomatic patients with Wilson's disease, serum ceruloplasmin was determined by radial immunodiffusion (normal: 20-60 mg/dl) in all patients (n = 2867) admitted for evaluation of a liver disease in 1993 and 1994. Patients with levels lower than 20 mg/dl were further evaluated by determination of serum copper concentration, urine copper excretion and ophthalmological examination. If possible, a liver biopsy was performed and the hepatic copper content was determined by flame atomic absorption spectroscopy. Seventeen patients had serum ceruloplasmin levels < 20 mg/dl. One had asymptomatic Wilson's disease (no Kayser-Fleischer rings or neurological symptoms). In the other 16 patients Wilson's disease was excluded. Based on elevated hepatic copper concentration, there were considered as heterozygous carriers of the WD gene. The remaining patients had various liver diseases (acute viral hepatitis in three, chronic hepatitis in two, drug-induced liver disease in three, alcoholic induced liver disease in two) or malabsorption (n = 3). The positive predictive value of low serum ceruloplasmin was only 5.9%. Although helpful for identifying presymptomatic Wilson's disease, screening by determination of serum ceruloplasmin in unselected patients with clinical or laboratory evidence of liver disease is neither feasible nor cost effective.