OAR@UM Collection:https://www.um.edu.mt/library/oar/handle/123456789/648062026-04-27T19:43:52Z2026-04-27T19:43:52ZThe genetics of osteoporosishttps://www.um.edu.mt/library/oar/handle/123456789/323602020-11-27T14:13:16Z2007-01-01T00:00:00ZTitle: The genetics of osteoporosis
Abstract: Osteoporosis is a metabolic bone disease with a strong genetic component. In this study
both association and linkage approaches were used to identify genes that might be
responsible for the disease in the Maltese population. No statistically significant association
was found between the studied polymorphisms within candidate genes and bone mineral
density (BMD) in a group of postmenopausal women. A statistically significant difference
was observed in the distribution of genotype and haplotype frequencies, between women
having a normal and a low BMD, of polymorphisms within the promoter region of the
osteoprotegerin gene (TNFRSF11B). A genome-wide scan using 400 microsatellite markers
was performed in 27 members from two extended families with a high incidence of
osteoporosis. Evidence of linkage was observed to a marker at I1p12 where a nonparametric
LOD score (NPl) of 5.77 (p=0.0006) was obtained. A maximum heterogeneity
LOD (HlOD) score of 2.55 for this region was obtained for the dominant mode of inheritance
with 90% penetrance and a phenocopy rate of 1%. Following fine mapping, the critical
interval was narrowed to a region that is 52.94cM from IIp-telomere. In this region the
gene for TRAF-6 is located approximately 1cM away from the indicated marker. Suggestive
linkage was also observed to other chromosomal regions including 5q34, 6q23 and 5p15.
Known genes that might be involved in the disease that are found in these regions include
those coding for fibroblast growth factor {FGF)-18 (5q34) and interferon gamma receptor
{IFNGR)-1 (6q23). The TRAF6 and FGF18 genes were sequenced to try to identify any
mutations. No suspected variants were observed in the coding regions of the FGF18 and
TRAF6 genes. Sequencing of the promoter region and intron-exon boundaries of the TRAF6
gene revealed three sequence variants, two of which were found in introns and the third
one found in the promoter region, at position -721 upstream from the transcriptional start
site. Three affected members within one family were heterozygous for this variant in the
promoter region while only two heterozygotes for this variant were identified (population
frequency 1.1%), when screening the general population (n=175). Studies of this variant on
its possible role in gene expression are indicative of an effect on gene expression, possibly
by collaboration with other transcriptional factors further upstream in the promoter. An
increase in TRAF6 expression can result in increased osteoclastogenesis and therefore an
increased risk of osteoporosis.
Description: PH.D.2007-01-01T00:00:00Z