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Genetic Determinants of Trabecular and Cortical Volumetric Bone Mineral Densities and Bone Microstructure

Author

Listed:
  • Lavinia Paternoster
  • Mattias Lorentzon
  • Terho Lehtimäki
  • Joel Eriksson
  • Mika Kähönen
  • Olli Raitakari
  • Marika Laaksonen
  • Harri Sievänen
  • Jorma Viikari
  • Leo-Pekka Lyytikäinen
  • Dan Mellström
  • Magnus Karlsson
  • Östen Ljunggren
  • Elin Grundberg
  • John P Kemp
  • Adrian Sayers
  • Maria Nethander
  • David M Evans
  • Liesbeth Vandenput
  • Jon H Tobias
  • Claes Ohlsson

Abstract

Most previous genetic epidemiology studies within the field of osteoporosis have focused on the genetics of the complex trait areal bone mineral density (aBMD), not being able to differentiate genetic determinants of cortical volumetric BMD (vBMD), trabecular vBMD, and bone microstructural traits. The objective of this study was to separately identify genetic determinants of these bone traits as analysed by peripheral quantitative computed tomography (pQCT). Separate GWA meta-analyses for cortical and trabecular vBMDs were performed. The cortical vBMD GWA meta-analysis (n = 5,878) followed by replication (n = 1,052) identified genetic variants in four separate loci reaching genome-wide significance (RANKL, rs1021188, p = 3.6×10−14; LOC285735, rs271170, p = 2.7×10−12; OPG, rs7839059, p = 1.2×10−10; and ESR1/C6orf97, rs6909279, p = 1.1×10−9). The trabecular vBMD GWA meta-analysis (n = 2,500) followed by replication (n = 1,022) identified one locus reaching genome-wide significance (FMN2/GREM2, rs9287237, p = 1.9×10−9). High-resolution pQCT analyses, giving information about bone microstructure, were available in a subset of the GOOD cohort (n = 729). rs1021188 was significantly associated with cortical porosity while rs9287237 was significantly associated with trabecular bone fraction. The genetic variant in the FMN2/GREM2 locus was associated with fracture risk in the MrOS Sweden cohort (HR per extra T allele 0.75, 95% confidence interval 0.60–0.93) and GREM2 expression in human osteoblasts. In conclusion, five genetic loci associated with trabecular or cortical vBMD were identified. Two of these (FMN2/GREM2 and LOC285735) are novel bone-related loci, while the other three have previously been reported to be associated with aBMD. The genetic variants associated with cortical and trabecular bone parameters differed, underscoring the complexity of the genetics of bone parameters. We propose that a genetic variant in the RANKL locus influences cortical vBMD, at least partly, via effects on cortical porosity, and that a genetic variant in the FMN2/GREM2 locus influences GREM2 expression in osteoblasts and thereby trabecular number and thickness as well as fracture risk. Author Summary: Osteoporosis is a common highly heritable skeletal disease characterized by reduced bone mineral density (BMD) and deteriorated bone microstructure, resulting in an increased risk of fracture. Most previous genetic epidemiology studies have focused on the genetics of the complex trait BMD, not being able to separate genetic determinants of the trabecular and cortical bone compartments and bone microstructure. The trabecular and cortical BMDs can be analysed separately by computed tomography. Therefore, we performed separate genome-wide association studies for trabecular and cortical BMDs, demonstrating that the genetic determinants of cortical and trabecular BMDs differ. Genetic variants in the RANKL, LOC285735, OPG, and ESR1 loci were associated with cortical BMD, while a genetic variant in the FMN2/GREM2 locus was associated with trabecular BMD. Two of these are novel bone-related loci. Follow-up analyses of bone microstructure demonstrated that a genetic variant in the RANKL locus is associated with cortical porosity and that the FMN2/GREM2 locus is associated with trabecular number and thickness. We propose that a genetic variant in the RANKL locus influences cortical BMD via effects on cortical porosity, and that a genetic variant in the FMN2/GREM2 locus influences trabecular BMD and fracture risk via effects on both trabecular number and thickness.

Suggested Citation

  • Lavinia Paternoster & Mattias Lorentzon & Terho Lehtimäki & Joel Eriksson & Mika Kähönen & Olli Raitakari & Marika Laaksonen & Harri Sievänen & Jorma Viikari & Leo-Pekka Lyytikäinen & Dan Mellström & , 2013. "Genetic Determinants of Trabecular and Cortical Volumetric Bone Mineral Densities and Bone Microstructure," PLOS Genetics, Public Library of Science, vol. 9(2), pages 1-15, February.
  • Handle: RePEc:plo:pgen00:1003247
    DOI: 10.1371/journal.pgen.1003247
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    Cited by:

    1. Brahim Aissani & Howard W Wiener & Kui Zhang, 2016. "Fine Mapping of the Body Fat QTL on Human Chromosome 1q43," PLOS ONE, Public Library of Science, vol. 11(4), pages 1-13, April.
    2. John P Kemp & Carolina Medina-Gomez & Karol Estrada & Beate St Pourcain & Denise H M Heppe & Nicole M Warrington & Ling Oei & Susan M Ring & Claudia J Kruithof & Nicholas J Timpson & Lisa E Wolber & S, 2014. "Phenotypic Dissection of Bone Mineral Density Reveals Skeletal Site Specificity and Facilitates the Identification of Novel Loci in the Genetic Regulation of Bone Mass Attainment," PLOS Genetics, Public Library of Science, vol. 10(6), pages 1-18, June.

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