Bone mineral density, osteoporosis, and osteoporotic fractures: a genome-wide association study
SummaryBackgroundOsteoporosis is diagnosed by the measurement of bone mineral density, which is a highly heritable and multifactorial trait. We aimed to identify genetic loci that are associated with bone mineral density.MethodsIn this genome-wide association study, we identified the most promising of 314 075 single nucleotide polymorphisms (SNPs) in 2094 women in a UK study. We then tested these SNPs for replication in 6463 people from three other cohorts in western Europe. We also investigated allelic expression in lymphoblast cell lines. We tested the association between the replicated SNPs and osteoporotic fractures with data from two studies.FindingsWe identified genome-wide evidence for an association between bone mineral density and two SNPs (p<5×10−8). The SNPs were rs4355801, on chromosome 8, near to the TNFRSF11B (osteoprotegerin) gene, and rs3736228, on chromosome 11 in the LRP5 (lipoprotein-receptor-related protein) gene. A non-synonymous SNP in the LRP5 gene was associated with decreased bone mineral density (rs3736228, p=6·3×10−12 for lumbar spine and p=1·9×10−4 for femoral neck) and an increased risk of both osteoporotic fractures (odds ratio [OR] 1·3, 95% CI 1·09–1·52, p=0·002) and osteoporosis (OR 1·3, 1·08–1·63, p=0·008). Three SNPs near the TNFRSF11B gene were associated with decreased bone mineral density (top SNP, rs4355801: p=7·6×10−10 for lumbar spine and p=3·3×10−8 for femoral neck) and increased risk of osteoporosis (OR 1·2, 95% CI 1·01–1·42, p=0·038). For carriers of the risk allele at rs4355801, expression of TNFRSF11B in lymphoblast cell lines was halved (p=3·0×10−6). 1883 (22%) of 8557 people were at least heterozygous for these risk alleles, and these alleles had a cumulative association with bone mineral density (trend p=2·3×10−17). The presence of both risk alleles increased the risk of osteoporotic fractures (OR 1·3, 1·08–1·63, p=0·006) and this effect was independent of bone mineral density.InterpretationTwo gene variants of key biological proteins increase the risk of osteoporosis and osteoporotic fracture. The combined effect of these risk alleles on fractures is similar to that of most well-replicated environmental risk factors, and they are present in more than one in five white people, suggesting a potential role in screening.FundingWellcome Trust, European Commission, NWO Investments, Arthritis Research Campaign, Chronic Disease Research Foundation, Canadian Institutes of Health Research, European Society for Clinical and Economic Aspects of Osteoporosis, Genome Canada, Genome Quebéc, Canada Research Chairs, National Health and Medical Research Council of Australia, and European Union.
We aimed to identify genetic variants associated with cortical bone thickness (CBT) and bone mineral density (BMD) by performing two separate genome-wide association study (GWAS) meta-analyses for CBT in 3 cohorts comprising 5,878 European subjects and for BMD in 5 cohorts comprising 5,672 individuals. We then assessed selected single-nucleotide polymorphisms (SNPs) for osteoporotic fracture in 2,023 cases and 3,740 controls. Association with CBT and forearm BMD was tested for ∼2.5 million SNPs in each cohort separately, and results were meta-analyzed using fixed effect meta-analysis. We identified a missense SNP (Thr>Ile; rs2707466) located in the WNT16 gene (7q31), associated with CBT (effect size of −0.11 standard deviations [SD] per C allele, P = 6.2×10−9). This SNP, as well as another nonsynonymous SNP rs2908004 (Gly>Arg), also had genome-wide significant association with forearm BMD (−0.14 SD per C allele, P = 2.3×10−12, and −0.16 SD per G allele, P = 1.2×10−15, respectively). Four genome-wide significant SNPs arising from BMD meta-analysis were tested for association with forearm fracture. SNP rs7776725 in FAM3C, a gene adjacent to WNT16, was associated with a genome-wide significant increased risk of forearm fracture (OR = 1.33, P = 7.3×10−9), with genome-wide suggestive signals from the two missense variants in WNT16 (rs2908004: OR = 1.22, P = 4.9×10−6 and rs2707466: OR = 1.22, P = 7.2×10−6). We next generated a homozygous mouse with targeted disruption of Wnt16. Female Wnt16−/− mice had 27% (P<0.001) thinner cortical bones at the femur midshaft, and bone strength measures were reduced between 43%–61% (6.5×10−13
Chronic lymphocytic leukemia (CLL) is a lymphoproliferative disease with a highly variable outcome. The prognosis of patients with CLL may be predicted using a number of biomarkers, including the level of CD38 expression at the leukemic cell surface. This study investigates the hypothesis that CD38 expression by CLL cells reflects interactions with nonmalignant cells within pseudofollicles in secondary lymphoid tissue where tumor cell proliferation is thought to occur. CD38 expression is higher in tissues that contain pseudofollicles compared with those that do not. In addition, we show that CD38 expression in CLL is dynamic, changes in response to contact with activated CD4 ؉ T cells, and identifies cells that are primed to proliferate. IntroductionChronic lymphocytic leukemia (CLL) is a low-grade lymphoproliferative disorder with a highly variable course whose clinical features arise through the accumulation of CD5 ϩ CD23 ϩ B cells in the bone marrow, blood, and lymphoid tissue. Although the prognosis of CLL can be predicted by simple clinical parameters that reflect disease burden, such as the extent of lymphadenopathy and presence of bone marrow failure, 1,2 these do not predict outcome for those with early stage disease.A number of biologic markers have recently been described that address this problem and allow the identification of poor risk patients with low bulk disease who might benefit from early more aggressive therapy. One of the most powerful of these biomarkers is the mutational status of the variable portion of the leukemic immunoglobulin heavy chain (IgV H ) genes. 3,4 Within the germinal center, normal B cells undergo somatic hypermutation of their IgV H genes after exposure to T-dependent antigens. Approximately 50% of CLL patients show evidence of somatic hypermutation, arbitrarily defined as a deviation of more than 2% from the germ line IgV H sequence. For reasons that are unclear, these patients have a far better prognosis than those with unmutated IgV H genes.In one of the initial studies of IgV H mutational status in CLL, a high level of membrane CD38 expression by peripheral blood leukemic cells was shown to correlate with unmutated IgV H genes and poor prognosis, and CD38 was thus proposed as a surrogate marker for mutational status. 3 Subsequent studies confirmed that CD38 is an important prognostic factor in CLL; however, expression levels were shown to be largely independent of IgV H gene mutational status. [5][6][7][8][9] During the course of the disease, the level of expression of CD38 may increase, [6][7][8]10 although patients with completely absent CD38 expression at the outset generally never express CD38. 5 The CD38 gene encodes a type II single chain transmembrane protein that is expressed by most cells of the hematopoietic lineage at some time during their differentiation. 11 It has a widespread distribution in other body tissues 12 and may function as both a receptor and an ectoenzyme. 13 In normal B lymphocytes, CD38 acts as an adhesion molecule and a receptor, signaling...
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