Genetics of Bone Mineral Density: Evidence for a Major Pleiotropic Effect From an Intercontinental Study

Livshits, Gregory; Deng, Hong−Wen; Nguyen, Tuan V.; Yakovenko, K.; Recker, Robert R.; Eisman, John A.

doi:10.1359/jbmr.040132

Cited by 46 publications

(36 citation statements)

References 29 publications

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“…Bivariate linkage analysis has been shown to have increased power over univariate analysis in detecting genes of pleiotropic effect. 16 A significant pleiotropic effect on LS and FN BMD was estimated in a large sample from an intercontinental study, 28 and our own quantitative analysis showed that the genetic correlations at all three pairs of skeletal sites are significantly different from 0 (Table 1). Others 10,29 have used principal component analysis to test for common QTLs underlying bone mass at different skeletal sites.…”

Section: Discussionmentioning

confidence: 92%

Univariate and bivariate variance component linkage analysis of a whole-genome scan for loci contributing to bone mineral density

et al. 2005

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Osteoporosis is a common condition characterized by reduced skeletal strength and increased susceptibility to fracture. The single major risk factor for osteoporosis is low bone mineral density (BMD) and strong evidence exists that genetic factors are in part responsible for an individual's BMD. A cohort of 40 multiplex Caucasian families selected through a proband with osteoporosis was genotyped for microsatellite markers spaced at an average of 10 cM, and linkage to femoral neck (FN), lumbar spine (LS) and trochanter (TR) BMD was analyzed using univariate and bivariate variance component linkage analysis. Maximum univariate multipoint lod-scores were 2.87 on chromosome 1p36 for FN BMD, 1.89 on 6q27 for TR BMD, and 2.15 on 7p15 for LS BMD. Results of bivariate linkage analysis were highly correlated with those of the univariate analysis, although generally less significant, suggesting the possibility that some of these susceptibility loci may exert pleiotropic effects on multiple skeletal sites.

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Section: Discussionmentioning

confidence: 92%

Univariate and bivariate variance component linkage analysis of a whole-genome scan for loci contributing to bone mineral density

et al. 2005

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“…The association of different haplotypes with different skeletal sites, and also the observation of an opposite effect in pre-and post-menopausal women suggest that the effect of ALOX15 is site dependent and menopausal-status dependent [2] . This finding supports that of our recent study wherein the linkage of quantitative trait locus with BMD variation was site-specific and menopause status-specific [28] .…”

Section: Discussionmentioning

confidence: 99%

“…Among the various parameters that contribute to bone strength, bone mineral density (BMD) is one of the best predictors of fracture risk and the most well described. Numerous twin and family studies suggest that BMD, bone mineral content (BMC) and bone area are to a great extent genetically determined [1][2][3][4][5][6] .…”

Section: Introductionmentioning

confidence: 99%

A Differential Association of ALOX15 Polymorphisms with Bone Mineral Density in Pre- and Post-Menopausal Women

Cheung

Chan

2007

Hum Hered

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Objective: The 12/15-lipoxygenase gene ALOX15 is reported to be a negative regulator of BMD in knockout mice. Nonetheless results are controversial as over-expression of ALOX15 protects against inflammation-related bone loss. The aim of the present study is to systematically study the relation of ALOX15 polymorphisms in BMD variation in southern Chinese women. Methods: Ten tag single nucleotide polymorphisms (SNP) were genotyped in 942 subjects with either low BMD (defined by a BMD Z score ≤–1.28 at either the hip or spine) or high BMD (Z score ≧+1). Single locus and haplotype associations were performed using logistic regression with adjustment of age, height and weight. Results: The variant ‘G’ allele of rs2619112 was associated with a reduced risk of low BMD at the femoral neck in pre-menopausal women (OR = 0.442, p = 0.007) but an increased risk in post-menopausal women (OR = 1.727, p = 0.042). Haplotype analysis revealed findings similar to the single locus tests. Conclusion: The variant alleles of rs2619112 and rs916055 and their haplotypes of ALOX15 are associated with high BMD in pre-menopausal women but low BMD in post-menopausal women. This suggests that ALOX15 is a dual modulator of BMD variation with opposing effects in pre- and post-menopausal women.

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“…As a strong (B0.5) and positive phenotypic covariation exists for BMD values at the LS and at the FN, 23 we generated data for two positively correlated quantitative phenotypes. Further, in real data sets, as causal loci usually contribute a small proportion to the total phenotypic correlation, residual correlation approximates phenotypic correlation between traits.…”

Section: Simulation Studymentioning

confidence: 99%

Bivariate association analysis in selected samples: application to a GWAS of two bone mineral density phenotypes in males with high or low BMD

et al. 2011

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Our specific aims were to evaluate the power of bivariate analysis and to compare its performance with traditional univariate analysis in samples of unrelated subjects under varying sampling selection designs. Bivariate association analysis was based on the seemingly unrelated regression (SUR) model that allows different genetic models for different traits. We conducted extensive simulations for the case of two correlated quantitative phenotypes, with the quantitative trait locus making equal or unequal contributions to each phenotype. Our simulation results confirmed that the power of bivariate analysis is affected by the size, direction and source of the phenotypic correlations between traits. They also showed that the optimal sampling scheme depends on the size and direction of the induced genetic correlation. In addition, we demonstrated the efficacy of SUR-based bivariate test by applying it to a real Genome-Wide Association Study (GWAS) of Bone Mineral Density (BMD) values measured at the lumbar spine (LS) and at the femoral neck (FN) in a sample of unrelated males with low BMD (LS Z-scores rÀ2) and with high BMD (LS and FN Z-scores 40.5). A substantial amount of top hits in bivariate analysis did not reach nominal significance in any of the two single-trait analyses. Altogether, our studies suggest that bivariate analysis is of practical significance for GWAS of correlated phenotypes.

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Genetics of Bone Mineral Density: Evidence for a Major Pleiotropic Effect From an Intercontinental Study

Cited by 46 publications

References 29 publications

Univariate and bivariate variance component linkage analysis of a whole-genome scan for loci contributing to bone mineral density

Univariate and bivariate variance component linkage analysis of a whole-genome scan for loci contributing to bone mineral density

A Differential Association of ALOX15 Polymorphisms with Bone Mineral Density in Pre- and Post-Menopausal Women

Bivariate association analysis in selected samples: application to a GWAS of two bone mineral density phenotypes in males with high or low BMD

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