Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies

Tianhua Niu; Ning Liu; Xun Yu; Ming Zhao; Hyung Jin Choi; Paul J. Leo; Matthew A. Brown; Lei Zhang; Yu Fang Pei; Hui Shen; Hao He; Xiaoying Fu; Shan Lu; Xiang Ding Chen; Li Jun Tan; Tie Lin Yang; Yan Guo; Nam H. Cho; Jie Shen; Yan Fang Guo; Geoffrey C. Nicholson; Richard L. Prince; John A. Eisman; Graeme Jones; Philip N. Sambrook; Qing Tian; Xue Zhen Zhu; Christopher J. Papasian; Emma L. Duncan; André G. Uitterlinden; Chan Soo Shin; Shuanglin Xiang; Hong Wen Deng

doi:10.1002/jbmr.2687

Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies

Tianhua Niu
, Ning Liu
, Xun Yu
, Ming Zhao
, Hyung Jin Choi
, Paul J. Leo
, Matthew A. Brown
, Lei Zhang
, Yu Fang Pei
, Hui Shen
, Hao He
, Xiaoying Fu
, Shan Lu
, Xiang Ding Chen
, Li Jun Tan
, Tie Lin Yang
, Yan Guo
, Nam H. Cho
, Jie Shen
, Yan Fang Guo

Geoffrey C. Nicholson, Richard L. Prince, John A. Eisman, Graeme Jones, Philip N. Sambrook, Qing Tian, Xue Zhen Zhu, Christopher J. Papasian, Emma L. Duncan, André G. Uitterlinden, Chan Soo Shin, Shuanglin Xiang, Hong Wen Deng

生命科学与技术学院

Tulane University
Hunan Normal University
Seoul National University
Chungbuk National University
University of Queensland
University of Shanghai for Science and Technology
Ajou University
Southern Medical University
University of Western Australia
Sir Charles Gairdner Hospital
University of New South Wales
University of Tasmania
Kolling Institute of Medical Research
Xi'an Jiaotong University
University of Missouri at Kansas City
Royal Brisbane and Women's Hospital
Erasmus University Rotterdam
Netherlands Genomics Initiative

科研成果: 期刊稿件 › 文章 › 同行评审

26 引用（Scopus）

摘要

Protein phosphorylation regulates a wide variety of cellular processes. Thus, we hypothesize that single-nucleotide polymorphisms (SNPs) that may modulate protein phosphorylation could affect osteoporosis risk. Based on a previous conventional genome-wide association (GWA) study, we conducted a three-stage meta-analysis targeting phosphorylation-related SNPs (phosSNPs) for femoral neck (FN)-bone mineral density (BMD), total hip (HIP)-BMD, and lumbar spine (LS)-BMD phenotypes. In stage 1, 9593 phosSNPs were meta-analyzed in 11,140 individuals of various ancestries. Genome-wide significance (GWS) and suggestive significance were defined by α = 5.21 × 10^-6 (0.05/9593) and 1.00 × 10^-4, respectively. In stage 2, nine stage 1-discovered phosSNPs (based on α = 1.00 × 10^-4) were in silico meta-analyzed in Dutch, Korean, and Australian cohorts. In stage 3, four phosSNPs that replicated in stage 2 (based on α = 5.56 × 10^-3, 0.05/9) were de novo genotyped in two independent cohorts. IDUA rs3755955 and rs6831280, and WNT16 rs2707466 were associated with BMD phenotypes in each respective stage, and in three stages combined, achieving GWS for both FN-BMD (p = 8.36 × 10^-10, p = 5.26 × 10^-10, and p = 3.01 × 10^-10, respectively) and HIP-BMD (p = 3.26 × 10^-6, p = 1.97 × 10^-6, and p = 1.63 × 10^-12, respectively). Although in vitro studies demonstrated no differences in expressions of wild-type and mutant forms of IDUA and WNT16B proteins, in silico analyses predicts that WNT16 rs2707466 directly abolishes a phosphorylation site, which could cause a deleterious effect on WNT16 protein, and that IDUA phosSNPs rs3755955 and rs6831280 could exert indirect effects on nearby phosphorylation sites. Further studies will be required to determine the detailed and specific molecular effects of these BMD-associated non-synonymous variants.

源语言	英语
页（从-至）	358-368
页数	11
期刊	Journal of Bone and Mineral Research
卷	31
期	2
DOI	https://doi.org/10.1002/jbmr.2687
出版状态	已出版 - 1 2月 2016

联合国可持续发展目标

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可持续发展目标 3 良好健康与福祉

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10.1002/jbmr.2687

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Niu, T., Liu, N., Yu, X., Zhao, M., Choi, H. J., Leo, P. J., Brown, M. A., Zhang, L., Pei, Y. F., Shen, H., He, H., Fu, X., Lu, S., Chen, X. D., Tan, L. J., Yang, T. L., Guo, Y., Cho, N. H., Shen, J., ... Deng, H. W. (2016). Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies. Journal of Bone and Mineral Research, 31(2), 358-368. https://doi.org/10.1002/jbmr.2687

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title = "Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies",

abstract = "Protein phosphorylation regulates a wide variety of cellular processes. Thus, we hypothesize that single-nucleotide polymorphisms (SNPs) that may modulate protein phosphorylation could affect osteoporosis risk. Based on a previous conventional genome-wide association (GWA) study, we conducted a three-stage meta-analysis targeting phosphorylation-related SNPs (phosSNPs) for femoral neck (FN)-bone mineral density (BMD), total hip (HIP)-BMD, and lumbar spine (LS)-BMD phenotypes. In stage 1, 9593 phosSNPs were meta-analyzed in 11,140 individuals of various ancestries. Genome-wide significance (GWS) and suggestive significance were defined by α = 5.21 × 10-6 (0.05/9593) and 1.00 × 10-4, respectively. In stage 2, nine stage 1-discovered phosSNPs (based on α = 1.00 × 10-4) were in silico meta-analyzed in Dutch, Korean, and Australian cohorts. In stage 3, four phosSNPs that replicated in stage 2 (based on α = 5.56 × 10-3, 0.05/9) were de novo genotyped in two independent cohorts. IDUA rs3755955 and rs6831280, and WNT16 rs2707466 were associated with BMD phenotypes in each respective stage, and in three stages combined, achieving GWS for both FN-BMD (p = 8.36 × 10-10, p = 5.26 × 10-10, and p = 3.01 × 10-10, respectively) and HIP-BMD (p = 3.26 × 10-6, p = 1.97 × 10-6, and p = 1.63 × 10-12, respectively). Although in vitro studies demonstrated no differences in expressions of wild-type and mutant forms of IDUA and WNT16B proteins, in silico analyses predicts that WNT16 rs2707466 directly abolishes a phosphorylation site, which could cause a deleterious effect on WNT16 protein, and that IDUA phosSNPs rs3755955 and rs6831280 could exert indirect effects on nearby phosphorylation sites. Further studies will be required to determine the detailed and specific molecular effects of these BMD-associated non-synonymous variants.",

keywords = "HUMAN ASSOCIATION STUDIES, META-ANALYSIS, OSTEOPOROSIS, SINGLE-NUCLEOTIDE POLYMORPHISM, WNT/BETA-CATENIN/LRPS",

author = "Tianhua Niu and Ning Liu and Xun Yu and Ming Zhao and Choi, \{Hyung Jin\} and Leo, \{Paul J.\} and Brown, \{Matthew A.\} and Lei Zhang and Pei, \{Yu Fang\} and Hui Shen and Hao He and Xiaoying Fu and Shan Lu and Chen, \{Xiang Ding\} and Tan, \{Li Jun\} and Yang, \{Tie Lin\} and Yan Guo and Cho, \{Nam H.\} and Jie Shen and Guo, \{Yan Fang\} and Nicholson, \{Geoffrey C.\} and Prince, \{Richard L.\} and Eisman, \{John A.\} and Graeme Jones and Sambrook, \{Philip N.\} and Qing Tian and Zhu, \{Xue Zhen\} and Papasian, \{Christopher J.\} and Duncan, \{Emma L.\} and Uitterlinden, \{Andr{\'e} G.\} and Shin, \{Chan Soo\} and Shuanglin Xiang and Deng, \{Hong Wen\}",

note = "Publisher Copyright: {\textcopyright} 2015 American Society for Bone and Mineral Research.",

year = "2016",

month = feb,

day = "1",

doi = "10.1002/jbmr.2687",

language = "英语",

volume = "31",

pages = "358--368",

journal = "Journal of Bone and Mineral Research",

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Niu, T, Liu, N, Yu, X, Zhao, M, Choi, HJ, Leo, PJ, Brown, MA, Zhang, L, Pei, YF, Shen, H, He, H, Fu, X, Lu, S, Chen, XD, Tan, LJ, Yang, TL , Guo, Y, Cho, NH, Shen, J, Guo, YF, Nicholson, GC, Prince, RL, Eisman, JA, Jones, G, Sambrook, PN, Tian, Q, Zhu, XZ, Papasian, CJ, Duncan, EL, Uitterlinden, AG, Shin, CS, Xiang, S & Deng, HW 2016, 'Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies', Journal of Bone and Mineral Research, 卷 31, 号码 2, 页码 358-368. https://doi.org/10.1002/jbmr.2687

TY - JOUR

T1 - Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies

AU - Niu, Tianhua

AU - Liu, Ning

AU - Yu, Xun

AU - Zhao, Ming

AU - Choi, Hyung Jin

AU - Leo, Paul J.

AU - Brown, Matthew A.

AU - Zhang, Lei

AU - Pei, Yu Fang

AU - Shen, Hui

AU - He, Hao

AU - Fu, Xiaoying

AU - Lu, Shan

AU - Chen, Xiang Ding

AU - Tan, Li Jun

AU - Yang, Tie Lin

AU - Guo, Yan

AU - Cho, Nam H.

AU - Shen, Jie

AU - Guo, Yan Fang

AU - Nicholson, Geoffrey C.

AU - Prince, Richard L.

AU - Eisman, John A.

AU - Jones, Graeme

AU - Sambrook, Philip N.

AU - Tian, Qing

AU - Zhu, Xue Zhen

AU - Papasian, Christopher J.

AU - Duncan, Emma L.

AU - Uitterlinden, André G.

AU - Shin, Chan Soo

AU - Xiang, Shuanglin

AU - Deng, Hong Wen

PY - 2016/2/1

Y1 - 2016/2/1

N2 - Protein phosphorylation regulates a wide variety of cellular processes. Thus, we hypothesize that single-nucleotide polymorphisms (SNPs) that may modulate protein phosphorylation could affect osteoporosis risk. Based on a previous conventional genome-wide association (GWA) study, we conducted a three-stage meta-analysis targeting phosphorylation-related SNPs (phosSNPs) for femoral neck (FN)-bone mineral density (BMD), total hip (HIP)-BMD, and lumbar spine (LS)-BMD phenotypes. In stage 1, 9593 phosSNPs were meta-analyzed in 11,140 individuals of various ancestries. Genome-wide significance (GWS) and suggestive significance were defined by α = 5.21 × 10-6 (0.05/9593) and 1.00 × 10-4, respectively. In stage 2, nine stage 1-discovered phosSNPs (based on α = 1.00 × 10-4) were in silico meta-analyzed in Dutch, Korean, and Australian cohorts. In stage 3, four phosSNPs that replicated in stage 2 (based on α = 5.56 × 10-3, 0.05/9) were de novo genotyped in two independent cohorts. IDUA rs3755955 and rs6831280, and WNT16 rs2707466 were associated with BMD phenotypes in each respective stage, and in three stages combined, achieving GWS for both FN-BMD (p = 8.36 × 10-10, p = 5.26 × 10-10, and p = 3.01 × 10-10, respectively) and HIP-BMD (p = 3.26 × 10-6, p = 1.97 × 10-6, and p = 1.63 × 10-12, respectively). Although in vitro studies demonstrated no differences in expressions of wild-type and mutant forms of IDUA and WNT16B proteins, in silico analyses predicts that WNT16 rs2707466 directly abolishes a phosphorylation site, which could cause a deleterious effect on WNT16 protein, and that IDUA phosSNPs rs3755955 and rs6831280 could exert indirect effects on nearby phosphorylation sites. Further studies will be required to determine the detailed and specific molecular effects of these BMD-associated non-synonymous variants.

AB - Protein phosphorylation regulates a wide variety of cellular processes. Thus, we hypothesize that single-nucleotide polymorphisms (SNPs) that may modulate protein phosphorylation could affect osteoporosis risk. Based on a previous conventional genome-wide association (GWA) study, we conducted a three-stage meta-analysis targeting phosphorylation-related SNPs (phosSNPs) for femoral neck (FN)-bone mineral density (BMD), total hip (HIP)-BMD, and lumbar spine (LS)-BMD phenotypes. In stage 1, 9593 phosSNPs were meta-analyzed in 11,140 individuals of various ancestries. Genome-wide significance (GWS) and suggestive significance were defined by α = 5.21 × 10-6 (0.05/9593) and 1.00 × 10-4, respectively. In stage 2, nine stage 1-discovered phosSNPs (based on α = 1.00 × 10-4) were in silico meta-analyzed in Dutch, Korean, and Australian cohorts. In stage 3, four phosSNPs that replicated in stage 2 (based on α = 5.56 × 10-3, 0.05/9) were de novo genotyped in two independent cohorts. IDUA rs3755955 and rs6831280, and WNT16 rs2707466 were associated with BMD phenotypes in each respective stage, and in three stages combined, achieving GWS for both FN-BMD (p = 8.36 × 10-10, p = 5.26 × 10-10, and p = 3.01 × 10-10, respectively) and HIP-BMD (p = 3.26 × 10-6, p = 1.97 × 10-6, and p = 1.63 × 10-12, respectively). Although in vitro studies demonstrated no differences in expressions of wild-type and mutant forms of IDUA and WNT16B proteins, in silico analyses predicts that WNT16 rs2707466 directly abolishes a phosphorylation site, which could cause a deleterious effect on WNT16 protein, and that IDUA phosSNPs rs3755955 and rs6831280 could exert indirect effects on nearby phosphorylation sites. Further studies will be required to determine the detailed and specific molecular effects of these BMD-associated non-synonymous variants.

KW - HUMAN ASSOCIATION STUDIES

KW - META-ANALYSIS

KW - OSTEOPOROSIS

KW - SINGLE-NUCLEOTIDE POLYMORPHISM

KW - WNT/BETA-CATENIN/LRPS

UR - https://www.scopus.com/pages/publications/84959558318

U2 - 10.1002/jbmr.2687

DO - 10.1002/jbmr.2687

M3 - 文章

C2 - 26256109

AN - SCOPUS:84959558318

SN - 0884-0431

VL - 31

SP - 358

EP - 368

JO - Journal of Bone and Mineral Research

JF - Journal of Bone and Mineral Research

IS - 2

ER -

Identification of IDUA and WNT16 Phosphorylation-Related Non-Synonymous Polymorphisms for Bone Mineral Density in Meta-Analyses of Genome-Wide Association Studies

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