Fine-scale mapping of a novel dementia gene, PLOSL, by linkage disequilibrium

Polycystic lipomembranous osteodysplasia with sclerosing leukoencephalopathy (PLOSL; MIM 221770) is a rare hereditary cause of presenile dementia with autosomal recessive inheritance. Its unique feature is the cystic bone lesions that accompany the dementia About 160 cases have been reported to date, mostly in Finland and Japan The etiology and pathogenesis of PLOSL are unknown We recently assigned the locus for PLOSL in the Finnish population to chromosome 19q13.1 (P. Pekkarinen ct at, 1998, Am. J. Hum. Genet. 62, 362-272). In the present study, we restrict the critical region for PLOSL to 153 kb by linkage-disequilibrium mapping. First, three new microsatellite markers were revealed in the PLOSL critical region. These and three other markers spanning the critical region were analyzed in Finnish PLOSL families. Strong linkage disequilibrium (multipoint P value < 10(-47)) was detected between the markers and PLOSL, and for two markers, D19S1176 and D19S610, all the PLOSL chromosomes shared identical 171- and 218-bp alleles, respectively. Haplotype analysis revealed five different haplotypes in the Finnish PLOSL chromosomes. But all of them shared the region between markers D19S1175 and D19S608 that could be traced to one ancestor haplotype by single recombination events, thus defining the critical region as 153 kb. Multipoint association analysis also assigned the most likely location of the PLOSL locus within this interval to the immediate vicinity of marker D19S610. A promising positional candidate for PLOSL, an amyloid precursor-like protein, was studied by sequencing, but no mutations were detected. These results lay the basis for the cloning of this novel dementia gene and for diagnostics in the Finnish population using haplotype analysis. (C) 1998 Academic Press.