Identification of 153 new loci associated with heel bone mineral density and functional involvement of GPC6 in osteoporosis

Kemp John P.; Morris John A.; Medina-Gomez Carolina; Forgetta Vincenzo; Warrington Nicole M.; Youlten Scott E.; Zheng Jie; Gregson Celia L.; Grundberg Elin; Trajanoska Katerina; Logan John G.; Pollard Andrea S.; Sparkes Penny C.; Ghirardello Elena J.; Allen Rebecca; Leitch Victoria D.; Butterfield Natalie C.; Komla-Ebri Davide; Adoum Anne-Tounsia; Curry Katharine F.; White Jacqueline K.; Kussy Fiona; Greenlaw Keelin M.; Xu Changjiang; Harvey Nicholas C.; Cooper Cyrus; Adams David J.; Greenwood Celia M. T.; Maurano Matthew T.; Kaptoge Stephen; Rivadeneira Fernando; Tobias Jonathan H.; Croucher Peter I.; Ackert-Bicknell Cheryl L.; Bassett J. H. Duncan; Williams Graham R.; Richards J. Brent; Evans David M.

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Identification of 153 new loci associated with heel bone mineral density and functional involvement of GPC6 in osteoporosis

机译：鉴定153个与骨骨矿物密度相关的新基因座，在骨质疏松症中的GPC6功能累及

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Osteoporosis is a common disease diagnosed primarily by measurement of bone mineral density (BMD). We undertook a genomewide association study (GWAS) in 142,487 individuals from the UK Biobank to identify loci associated with BMD as estimated by quantitative ultrasound of the heel. We identified 307 conditionally independent single-nucleotide polymorphisms (SNPs) that attained genome-wide significance at 203 loci, explaining approximately 12% of the phenotypic variance. These included 153 previously unreported loci, and several rare variants with large effect sizes. To investigate the underlying mechanisms, we undertook (1) bioinformatic, functional genomic annotation and human osteoblast expression studies; (2) gene-function prediction; (3) skeletal phenotyping of 120 knockout mice with deletions of genes adjacent to lead independent SNPs; and (4) analysis of gene expression in mouse osteoblasts, osteocytes and osteoclasts. The results implicate GPC6 as a novel determinant of BMD, and also identify abnormal skeletal phenotypes in knockout mice associated with a further 100 prioritized genes.

机译：骨质疏松症是一种常见的疾病，主要通过测量骨矿物密度（BMD）。我们在英国BioBank的142,487名中进行了一项关于Geofers的基因组协会学习（GWA），以确定与BMD相关的基因座，据鞋跟的量化超声估计。我们鉴定了307条有条件独立的单核苷酸多态性（SNP），其在203个基因座上获得了基因组显着性，解释了大约12％的表型方差。这些包括153个先前未报告的基因座，以及几种具有大效果大小的罕见变体。为了探讨潜在的机制，我们进行了（1）生物信息，功能性基因组注释和人成骨细胞表达研究; （2）基因功能预测; （3）120个敲除小鼠的骨骼表型，缺失与铅独立SNP附近的基因缺失; （4）小鼠成骨细胞，骨细胞和破骨细胞中基因表达的分析。结果将GPC6作为BMD的新决定因素涉及，并且还鉴定与另外100个优先基因相关的敲除小鼠中的异常骨骼表型。

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《Nature Genetics》 |2017年第10期|共12页
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Kemp John P.; Morris John A.; Medina-Gomez Carolina; Forgetta Vincenzo; Warrington Nicole M.; Youlten Scott E.; Zheng Jie; Gregson Celia L.; Grundberg Elin; Trajanoska Katerina; Logan John G.; Pollard Andrea S.; Sparkes Penny C.; Ghirardello Elena J.; Allen Rebecca; Leitch Victoria D.; Butterfield Natalie C.; Komla-Ebri Davide; Adoum Anne-Tounsia; Curry Katharine F.; White Jacqueline K.; Kussy Fiona; Greenlaw Keelin M.; Xu Changjiang; Harvey Nicholas C.; Cooper Cyrus; Adams David J.; Greenwood Celia M. T.; Maurano Matthew T.; Kaptoge Stephen; Rivadeneira Fernando; Tobias Jonathan H.; Croucher Peter I.; Ackert-Bicknell Cheryl L.; Bassett J. H. Duncan; Williams Graham R.; Richards J. Brent; Evans David M.;
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Univ Queensland Diamantina Inst Translat Res Inst Brisbane Qld Australia;

McGill Univ Jewish Gen Hosp Lady Davis Inst Ctr Clin Epidemiol Montreal PQ Canada;

Erasmus MC Dept Internal Med Rotterdam Netherlands;

McGill Univ Jewish Gen Hosp Lady Davis Inst Ctr Clin Epidemiol Montreal PQ Canada;

Univ Queensland Diamantina Inst Translat Res Inst Brisbane Qld Australia;

Garvan Inst Med Res Sydney NSW Australia;

Univ Bristol MRC Integrat Epidemiol Unit Bristol Avon England;

Univ Bristol Dept Translat Hlth Sci Musculoskeletal Res Unit Bristol Avon England;

McGill Univ Dept Human Genet Montreal PQ Canada;

Erasmus MC Dept Internal Med Rotterdam Netherlands;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Wellcome Trust Sanger Inst Wellcome Trust Genome Campus Hinxton Cambs England;

Wellcome Trust Sanger Inst Wellcome Trust Genome Campus Hinxton Cambs England;

McGill Univ Jewish Gen Hosp Lady Davis Inst Ctr Clin Epidemiol Montreal PQ Canada;

Univ Toronto Donnelly Ctr Cellular &

Biomed Res Toronto ON Canada;

Univ Southampton MRC Lifecourse Epidemiol Unit Southampton Hants England;

Univ Southampton MRC Lifecourse Epidemiol Unit Southampton Hants England;

McGill Univ Jewish Gen Hosp Lady Davis Inst Ctr Clin Epidemiol Montreal PQ Canada;

New York Univ Langone Dept Pathol Med Ctr New York NY USA;

Univ Cambridge Dept Publ Hlth &

Primary Care Cambridge England;

Erasmus MC Dept Internal Med Rotterdam Netherlands;

Univ Bristol Dept Translat Hlth Sci Musculoskeletal Res Unit Bristol Avon England;

Garvan Inst Med Res Sydney NSW Australia;

Univ Rochester Ctr Musculoskeletal Res Dept Orthopaed Rochester NY USA;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

Imperial Coll London Dept Med Mol Endocrinol Lab London England;

McGill Univ Jewish Gen Hosp Lady Davis Inst Ctr Clin Epidemiol Montreal PQ Canada;

Univ Queensland Diamantina Inst Translat Res Inst Brisbane Qld Australia;

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正文语种 eng
中图分类医学遗传学;
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1. Identification of 153 new loci associated with heel bone mineral density and functional involvement of GPC6 in osteoporosis [J] . Kemp John P., Morris John A., Medina-Gomez Carolina, Nature Genetics . 2017,第10期

机译：鉴定153个与骨骨矿物密度相关的新基因座，在骨质疏松症中的GPC6功能累及
2. Physician treatment of osteoporosis in response to heel ultrasound bone mineral density reports. [J] . Boyd JL, Holcomb JP, Rothenberg RJ Journal of clinical densitometry . 2002,第4期

机译：足跟超声检查骨质疏松症的医师治疗的骨矿物质密度报告。
3. 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 [J] . John P. Kemp, Carolina Medina-Gomez, Karol Estrada, PLoS Genetics . 2014,第6期

机译：骨矿物质密度的表型解剖揭示了骨骼部位的特异性，并有助于鉴定新的基因位点在骨质量获得的遗传调控中。
4. Preliminary Study Report: Topological Texture Features Extracted from Standard Radiographs of the Heel Bone are Correlated with Femoral Bone Mineral Density [C] . HF Boehm, J Lutz, M Koerner, SPIE Conference on Medical Imaging . 2009

机译：初步研究报告：从鞋跟骨标准射线照片中提取的拓扑质地特征与股骨矿物密度相关联
5. Osteoporosis: Identification of factors associated with fracture, bone mineral density, bone geometry and bone strength in older adults [D] . Barbour, Kamil. 2010

机译：骨质疏松症：确定与老年人骨折，骨矿物质密度，骨几何形状和骨强度有关的因素
6. Identification of 153 new loci associated with heel bone mineral density and functional involvement of GPC6 in osteoporosis [O] . John P Kemp, John A Morris, Carolina Medina-Gomez, -1

机译：鉴定153个与脚跟骨矿物质密度和GPC6在骨质疏松症中的功能参与有关的新基因座
7. Identification of 153 new loci associated with heel bone mineral density and functional involvement of GPC6 in osteoporosis [O] . Kemp, John P, Medina-Gomez, Carolina, Forgetta, Vincenzo, 2018

机译：鉴定153个与脚跟骨矿物质密度和GPC6在骨质疏松症中的功能参与有关的新基因座

Identification of 153 new loci associated with heel bone mineral density and functional involvement of GPC6 in osteoporosis

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