Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies

Tianhua Niu; Ning Liu; Ming Zhao; Guie Xie; Lei Zhang; Jian Li; Yu Fang Pei; Hui Shen; Xiaoying Fu; Hao He; Shan Lu; Xiang Ding Chen; Li Jun Tan; Tie Lin Yang; Yan Guo; Paul J. Leo; Emma L. Duncan; Jie Shen; Yan Fang Guo; Geoffrey C. Nicholson; Richard L. Prince; John A. Eisman; Graeme Jones; Philip N. Sambrook; Xiang Hu; Partha M. Das; Qing Tian; Xue Zhen Zhu; Christopher J. Papasian; Matthew A. Brown; André G. Uitterlinden; Yu Ping Wang; Shuanglin Xiang; Hong Wen Deng

doi:10.1093/hmg/ddv144

Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies

Tianhua Niu
, Ning Liu
, Ming Zhao
, Guie Xie
, Lei Zhang
, Jian Li
, Yu Fang Pei
, Hui Shen
, Xiaoying Fu
, Hao He
, Shan Lu
, Xiang Ding Chen
, Li Jun Tan
, Tie Lin Yang
, Yan Guo
, Paul J. Leo
, Emma L. Duncan
, Jie Shen
, Yan Fang Guo
, Geoffrey C. Nicholson

Richard L. Prince, John A. Eisman, Graeme Jones, Philip N. Sambrook, Xiang Hu, Partha M. Das, Qing Tian, Xue Zhen Zhu, Christopher J. Papasian, Matthew A. Brown, André G. Uitterlinden, Yu Ping Wang, Shuanglin Xiang, Hong Wen Deng

School of Life Science and Technology (SLST)

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

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

MicroRNAs (miRNAs) are critical post-transcriptional regulators. Based on a previous genome-wide association (GWA) scan, we conducted a polymorphism in microRNAs' Target Sites (poly-miRTS)-centric multistage meta-analysis for lumbar spine (LS)-, total hip (HIP)-, and femoral neck (FN)-bone mineral density (BMD). In stage I, 41,102 poly-miRTSs were meta-analyzed in 7 cohorts with a genome-wide significance (GWS) α=0.05/41,102=1.22×10^-6. By applying α=5×10^-5 (suggestive significance), 11 poly-miRTSs were selected, with FGFRL1 rs4647940 and PRR5 rs3213550 as top signals for FN-BMD (P-value=7.67×10^-6 and 1.58×10^-5) in gender-combined sample. In stage II in silico replication (two cohorts), FGFRL1 rs4647940 was the only signal marginally replicated for FN-BMD (P-value=5.08×10^-3) at α=0.10/11=9.09×10^-3. PRR5 rs3213550 was also selected based on biological significance. In stage III de novo genotyping replication (two cohorts), FGFRL1 rs4647940 was the only signal significantly replicated for FN-BMD (P-value=7.55×10^-6) at α=0.05/2=0.025 in gender-combined sample. Aggregating three stages, FGFRL1 rs4647940 was the single stage I-discovered and stages II- and III-replicated signal attaining GWS for FN-BMD (P-value=8.87×10^-12). Dual-luciferase reporter assays demonstrated that FGFRL1 3' untranslated region harboring rs4647940 appears to be hsa-miR-140-5p's target site. In a zebrafish microinjection experiment, dre-miR-140-5p is shown to exert a dramatic impact on craniofacial skeleton formation. Taken together, we provided functional evidence for a novel FGFRL1 poly-miRTS rs4647940 in a previously known 4p16.3 locus, and experimental and clinical genetics studies have shown both FGFRL1 and hsa-miR-140-5p are important for bone formation.

Original language	English
Pages (from-to)	4710-4727
Number of pages	18
Journal	Human Molecular Genetics
Volume	24
Issue number	16
DOIs	https://doi.org/10.1093/hmg/ddv144
State	Published - 28 Apr 2015

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10.1093/hmg/ddv144

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Niu, T., Liu, N., Zhao, M., Xie, G., Zhang, L., Li, J., Pei, Y. F., Shen, H., Fu, X., He, H., Lu, S., Chen, X. D., Tan, L. J., Yang, T. L., Guo, Y., Leo, P. J., Duncan, E. L., Shen, J., Guo, Y. F., ... Deng, H. W. (2015). Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies. Human Molecular Genetics, 24(16), 4710-4727. https://doi.org/10.1093/hmg/ddv144

@article{57196abbf51b407ca0d1a02aa1b9019b,

title = "Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies",

abstract = "MicroRNAs (miRNAs) are critical post-transcriptional regulators. Based on a previous genome-wide association (GWA) scan, we conducted a polymorphism in microRNAs' Target Sites (poly-miRTS)-centric multistage meta-analysis for lumbar spine (LS)-, total hip (HIP)-, and femoral neck (FN)-bone mineral density (BMD). In stage I, 41,102 poly-miRTSs were meta-analyzed in 7 cohorts with a genome-wide significance (GWS) α=0.05/41,102=1.22×10-6. By applying α=5×10-5 (suggestive significance), 11 poly-miRTSs were selected, with FGFRL1 rs4647940 and PRR5 rs3213550 as top signals for FN-BMD (P-value=7.67×10-6 and 1.58×10-5) in gender-combined sample. In stage II in silico replication (two cohorts), FGFRL1 rs4647940 was the only signal marginally replicated for FN-BMD (P-value=5.08×10-3) at α=0.10/11=9.09×10-3. PRR5 rs3213550 was also selected based on biological significance. In stage III de novo genotyping replication (two cohorts), FGFRL1 rs4647940 was the only signal significantly replicated for FN-BMD (P-value=7.55×10-6) at α=0.05/2=0.025 in gender-combined sample. Aggregating three stages, FGFRL1 rs4647940 was the single stage I-discovered and stages II- and III-replicated signal attaining GWS for FN-BMD (P-value=8.87×10-12). Dual-luciferase reporter assays demonstrated that FGFRL1 3' untranslated region harboring rs4647940 appears to be hsa-miR-140-5p's target site. In a zebrafish microinjection experiment, dre-miR-140-5p is shown to exert a dramatic impact on craniofacial skeleton formation. Taken together, we provided functional evidence for a novel FGFRL1 poly-miRTS rs4647940 in a previously known 4p16.3 locus, and experimental and clinical genetics studies have shown both FGFRL1 and hsa-miR-140-5p are important for bone formation.",

author = "Tianhua Niu and Ning Liu and Ming Zhao and Guie Xie and Lei Zhang and Jian Li and Pei, \{Yu Fang\} and Hui Shen and Xiaoying Fu and Hao He and Shan Lu and Chen, \{Xiang Ding\} and Tan, \{Li Jun\} and Yang, \{Tie Lin\} and Yan Guo and Leo, \{Paul J.\} and Duncan, \{Emma L.\} 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 Xiang Hu and Das, \{Partha M.\} and Qing Tian and Zhu, \{Xue Zhen\} and Papasian, \{Christopher J.\} and Brown, \{Matthew A.\} and Uitterlinden, \{Andr{\'e} G.\} and Wang, \{Yu Ping\} and Shuanglin Xiang and Deng, \{Hong Wen\}",

year = "2015",

month = apr,

day = "28",

doi = "10.1093/hmg/ddv144",

language = "英语",

volume = "24",

pages = "4710--4727",

journal = "Human Molecular Genetics",

issn = "0964-6906",

publisher = "Oxford University Press",

number = "16",

}

Niu, T, Liu, N, Zhao, M, Xie, G, Zhang, L, Li, J, Pei, YF, Shen, H, Fu, X, He, H, Lu, S, Chen, XD, Tan, LJ, Yang, TL , Guo, Y, Leo, PJ, Duncan, EL, Shen, J, Guo, YF, Nicholson, GC, Prince, RL, Eisman, JA, Jones, G, Sambrook, PN, Hu, X, Das, PM, Tian, Q, Zhu, XZ, Papasian, CJ, Brown, MA, Uitterlinden, AG, Wang, YP, Xiang, S & Deng, HW 2015, 'Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies', Human Molecular Genetics, vol. 24, no. 16, pp. 4710-4727. https://doi.org/10.1093/hmg/ddv144

TY - JOUR

T1 - Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies

AU - Niu, Tianhua

AU - Liu, Ning

AU - Zhao, Ming

AU - Xie, Guie

AU - Zhang, Lei

AU - Li, Jian

AU - Pei, Yu Fang

AU - Shen, Hui

AU - Fu, Xiaoying

AU - He, Hao

AU - Lu, Shan

AU - Chen, Xiang Ding

AU - Tan, Li Jun

AU - Yang, Tie Lin

AU - Guo, Yan

AU - Leo, Paul J.

AU - Duncan, Emma L.

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 - Hu, Xiang

AU - Das, Partha M.

AU - Tian, Qing

AU - Zhu, Xue Zhen

AU - Papasian, Christopher J.

AU - Brown, Matthew A.

AU - Uitterlinden, André G.

AU - Wang, Yu Ping

AU - Xiang, Shuanglin

AU - Deng, Hong Wen

PY - 2015/4/28

Y1 - 2015/4/28

N2 - MicroRNAs (miRNAs) are critical post-transcriptional regulators. Based on a previous genome-wide association (GWA) scan, we conducted a polymorphism in microRNAs' Target Sites (poly-miRTS)-centric multistage meta-analysis for lumbar spine (LS)-, total hip (HIP)-, and femoral neck (FN)-bone mineral density (BMD). In stage I, 41,102 poly-miRTSs were meta-analyzed in 7 cohorts with a genome-wide significance (GWS) α=0.05/41,102=1.22×10-6. By applying α=5×10-5 (suggestive significance), 11 poly-miRTSs were selected, with FGFRL1 rs4647940 and PRR5 rs3213550 as top signals for FN-BMD (P-value=7.67×10-6 and 1.58×10-5) in gender-combined sample. In stage II in silico replication (two cohorts), FGFRL1 rs4647940 was the only signal marginally replicated for FN-BMD (P-value=5.08×10-3) at α=0.10/11=9.09×10-3. PRR5 rs3213550 was also selected based on biological significance. In stage III de novo genotyping replication (two cohorts), FGFRL1 rs4647940 was the only signal significantly replicated for FN-BMD (P-value=7.55×10-6) at α=0.05/2=0.025 in gender-combined sample. Aggregating three stages, FGFRL1 rs4647940 was the single stage I-discovered and stages II- and III-replicated signal attaining GWS for FN-BMD (P-value=8.87×10-12). Dual-luciferase reporter assays demonstrated that FGFRL1 3' untranslated region harboring rs4647940 appears to be hsa-miR-140-5p's target site. In a zebrafish microinjection experiment, dre-miR-140-5p is shown to exert a dramatic impact on craniofacial skeleton formation. Taken together, we provided functional evidence for a novel FGFRL1 poly-miRTS rs4647940 in a previously known 4p16.3 locus, and experimental and clinical genetics studies have shown both FGFRL1 and hsa-miR-140-5p are important for bone formation.

AB - MicroRNAs (miRNAs) are critical post-transcriptional regulators. Based on a previous genome-wide association (GWA) scan, we conducted a polymorphism in microRNAs' Target Sites (poly-miRTS)-centric multistage meta-analysis for lumbar spine (LS)-, total hip (HIP)-, and femoral neck (FN)-bone mineral density (BMD). In stage I, 41,102 poly-miRTSs were meta-analyzed in 7 cohorts with a genome-wide significance (GWS) α=0.05/41,102=1.22×10-6. By applying α=5×10-5 (suggestive significance), 11 poly-miRTSs were selected, with FGFRL1 rs4647940 and PRR5 rs3213550 as top signals for FN-BMD (P-value=7.67×10-6 and 1.58×10-5) in gender-combined sample. In stage II in silico replication (two cohorts), FGFRL1 rs4647940 was the only signal marginally replicated for FN-BMD (P-value=5.08×10-3) at α=0.10/11=9.09×10-3. PRR5 rs3213550 was also selected based on biological significance. In stage III de novo genotyping replication (two cohorts), FGFRL1 rs4647940 was the only signal significantly replicated for FN-BMD (P-value=7.55×10-6) at α=0.05/2=0.025 in gender-combined sample. Aggregating three stages, FGFRL1 rs4647940 was the single stage I-discovered and stages II- and III-replicated signal attaining GWS for FN-BMD (P-value=8.87×10-12). Dual-luciferase reporter assays demonstrated that FGFRL1 3' untranslated region harboring rs4647940 appears to be hsa-miR-140-5p's target site. In a zebrafish microinjection experiment, dre-miR-140-5p is shown to exert a dramatic impact on craniofacial skeleton formation. Taken together, we provided functional evidence for a novel FGFRL1 poly-miRTS rs4647940 in a previously known 4p16.3 locus, and experimental and clinical genetics studies have shown both FGFRL1 and hsa-miR-140-5p are important for bone formation.

UR - https://www.scopus.com/pages/publications/84939501014

U2 - 10.1093/hmg/ddv144

DO - 10.1093/hmg/ddv144

M3 - 文章

C2 - 25941324

AN - SCOPUS:84939501014

SN - 0964-6906

VL - 24

SP - 4710

EP - 4727

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 16

ER -

Identification of a novel FGFRL1 MicroRNA target site polymorphism for bone mineral density in meta-analyses of genome-wide association studies

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