Polymorphisms at the Werner locus: I. Newly identified polymorphisms, ethnic variability of 1367Cys/Arg, and its stability in a population of Finnish centenarians.

The Werner syndrome gene (WRN) encodes a novel helicase of 1,432 amino acids. Homozygous mutations, all of which result in the truncation of the protein, lead to Werner syndrome. However, little is known about the role of WRN in "normal" aging. We have identified four missense polymorphisms and four conservative polymorphsims in WRN gene. A single study showed that a polymorphism at amino acid 1367 Cys(TTG)/ Arg(CTG) is associated with a variation in risk of myocardial infarction among a Japanese population. The 1367 Cys/Arg polymorphism was examined during aging in three different populations: Finnish, Mexican, and North American. The frequencies of 1367 Cys were higher than those of 1367 Arg in all the populations examined, though the frequencies varied among populations. The frequency of the 1367 Arg allele, thought to be protective against myocardial infarction in a Japanese population, was approximately three times higher in the North American and Finnish adult populations. When newborns and centenarians were compared within the Finnish population, no differences were observed in the proportions of 1367 Cys/Arg across age groups. Within the Finnish population, we confirmed a significant decrease of the APOE epsilon2 allele and an increase in the epsilon4 allele in newborn infants compared with centenarians. Thus, unlike the APOE polymorphism, there is no evidence of an association of this WRN polymorphism with longevity.

Mutation and haplotype analyses of the Werner's syndrome gene based on its genomic structure: genetic epidemiology in the Japanese population.

The correlation between mutations in the Werner's syndrome (WRN) gene and the haplotypes of surrounding markers was studied in Japanese patients. We have elucidated the genomic structure of WRN helicase, and found five additional mutations, designated mutations 6-10. Mutations 4 and 6 were found to be the two major mutations in this population; these mutations comprised 50.8% and 17.5%, respectively, of the total in a sample of 126 apparently unrelated chromosomes. Almost all the patients homozygous for mutation 4 shared a haplotype around the WRN gene, consistent with the view that they are derived from a single ancestor. This important advantage demonstrated in the identification of the WRN gene suggests that the Japanese present a unique population for the cloning of other disease genes. The conserved haplotype was observed across 19 loci, extending a distance estimated to be more than 1.4 Mbp around the WRN gene. This haplotype is rare among random Japanese individuals. Unexpectedly, all the nine patients homozygous for mutation 6 shared a haplotype that was identical to this haplotype at 18 of these 19 markers. These results suggest that mutations 4 and 6 arose independently in almost identical rare haplotypes. The remaining mutations (1, 5, 7, 8, 9, and 10) occurred rarely, and were each associated with different haplotypes.

Linkage disequilibrium and haplotype studies of chromosome 8p 11.1-21.1 markers and Werner syndrome.

Werner syndrome (WS) is an autosomal recessive disorder, characterized as a progeroid syndrome, previously mapped to the 8p 11.1-21.1 region. Because WS is so rare, and because many patients are from consanguineous marriages, fine localization of the gene by traditional meiotic mapping methods is unlikely to succeed. Here we present the results of a search for a region that exhibits linkage disequilibrium with the disorder, under the assumption that identification of such a region may provide an alternative method of narrowing down the location of WRN, the gene responsible for WS. We present allele frequencies in Japanese and Caucasian cases and controls for D8S137, D8S131, D8S87, D8S278, D8S259, D8S283, fibroblast growth factor receptor 1, ankyrin 1, D8S339, and two polymorphisms in glutathione reductase (GSR), covering approximately 16.5 cM in total. We show that three of the markers examined--D8S339 and both polymorphisms in the GSR locus--show strong statistically significant evidence of disequilibrium with WRN in the Japanese population but not in the Caucasian population. In addition, we show that a limited number of haplotypes are associated with the disease in both populations and that these haplotypes define clusters of apparently related haplotypes that may identify as many as eight or nine independent WRN mutations in these two populations.