Literature DB >> 26572781

Genetic Risk Scores Implicated in Adult Bone Fragility Associate With Pediatric Bone Density.

Jonathan A Mitchell1,2, Alessandra Chesi3, Okan Elci4, Shana E McCormack2,5, Sani M Roy5, Heidi J Kalkwarf6, Joan M Lappe7, Vicente Gilsanz8, Sharon E Oberfield9, John A Shepherd10, Andrea Kelly2,5, Struan Fa Grant2,3,5, Babette S Zemel1,2.   

Abstract

Using adult identified bone mineral density (BMD) loci, we calculated genetic risk scores (GRS) to determine if they were associated with changes in BMD during childhood. Longitudinal data from the Bone Mineral Density in Childhood Study were analyzed (N = 798, 54% female, all European ancestry). Participants had up to 6 annual dual energy X-ray scans, from which areal BMD (aBMD) Z-scores for the spine, total hip, and femoral neck were estimated, as well as total body less head bone mineral content (TBLH-BMC) Z-scores. Sixty-three single-nucleotide polymorphisms (SNPs) were genotyped, and the percentage of BMD-lowering alleles carried was calculated (overall adult GRS). Subtype GRS that include SNPs associated with fracture risk, pediatric BMD, WNT signaling, RANK-RANKL-OPG, and mesenchymal stem cell differentiation were also calculated. Linear mixed effects models were used to test associations between each GRS and bone Z-scores, and if any association differed by sex and/or chronological age. The overall adult, fracture, and WNT signaling GRS were associated with lower Z-scores (eg, spine aBMD Z-score: βadult  = -0.04, p = 3.4 × 10(-7) ; βfracture = -0.02, p = 8.9 × 10(-6) ; βWNT  = -0.01, p = 3.9 × 10(-4) ). The overall adult GRS was more strongly associated with lower Z-scores in females (p-interaction ≤ 0.05 for all sites). The fracture GRS was more strongly associated with lower Z-scores with increasing age (p-interaction ≤ 0.05 for all sites). The WNT GRS associations remained consistent for both sexes and all ages (p-interaction > 0.05 for all sites). The RANK-RANKL-OPG GRS was more strongly associated in females with increasing age (p-interaction < 0.05 for all sites). The mesenchymal stem cell GRS was associated with lower total hip and femoral neck Z-scores, in both boys and girls, across all ages. No associations were observed between the pediatric GRS and bone Z-scores. In conclusion, adult identified BMD loci associated with BMD and BMC in the pediatric setting, especially in females and in loci involved in fracture risk and WNT signaling.
© 2015 American Society for Bone and Mineral Research.

Entities:  

Keywords:  CHILDHOOD; DXA; GENERAL POPULATION STUDIES; GENETIC RESEARCH; PUBERTY

Mesh:

Substances:

Year:  2015        PMID: 26572781      PMCID: PMC4826827          DOI: 10.1002/jbmr.2744

Source DB:  PubMed          Journal:  J Bone Miner Res        ISSN: 0884-0431            Impact factor:   6.741


  25 in total

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3.  Heritable and life-style determinants of bone mineral density.

Authors:  E A Krall; B Dawson-Hughes
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4.  Segregation analysis and variance components analysis of bone mineral density in healthy families.

Authors:  R Guéguen; P Jouanny; F Guillemin; C Kuntz; J Pourel; G Siest
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7.  The bone mineral density in childhood study: bone mineral content and density according to age, sex, and race.

Authors:  Heidi J Kalkwarf; Babette S Zemel; Vicente Gilsanz; Joan M Lappe; Mary Horlick; Sharon Oberfield; Soroosh Mahboubi; Bo Fan; Margaret M Frederick; Karen Winer; John A Shepherd
Journal:  J Clin Endocrinol Metab       Date:  2007-02-20       Impact factor: 5.958

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  13 in total

1.  A Genomewide Association Study Identifies Two Sex-Specific Loci, at SPTB and IZUMO3, Influencing Pediatric Bone Mineral Density at Multiple Skeletal Sites.

Authors:  Alessandra Chesi; Jonathan A Mitchell; Heidi J Kalkwarf; Jonathan P Bradfield; Joan M Lappe; Diana L Cousminer; Sani M Roy; Shana E McCormack; Vicente Gilsanz; Sharon E Oberfield; Hakon Hakonarson; John A Shepherd; Andrea Kelly; Babette S Zemel; Struan Fa Grant
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4.  Physical Activity Benefits the Skeleton of Children Genetically Predisposed to Lower Bone Density in Adulthood.

Authors:  Jonathan A Mitchell; Alessandra Chesi; Okan Elci; Shana E McCormack; Sani M Roy; Heidi J Kalkwarf; Joan M Lappe; Vicente Gilsanz; Sharon E Oberfield; John A Shepherd; Andrea Kelly; Struan Fa Grant; Babette S Zemel
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7.  Genetic profiling of decreased bone mineral density in an independent sample of Caucasian women.

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Review 8.  The case for genome-wide association studies of bone acquisition in paediatric and adolescent populations.

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Journal:  Bonekey Rep       Date:  2016-05-25

9.  Improved prediction of fracture risk leveraging a genome-wide polygenic risk score.

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10.  Genome-Wide Association Analysis of Longitudinal Bone Mineral Content Data From the Iowa Bone Development Study.

Authors:  Camden P Bay; Steven M Levy; Kathleen F Janz; Brian J Smith; John R Shaffer; Mary L Marazita; Trudy L Burns
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