A Rare Mutation in  SMAD9  Associated With High Bone Mass Identifies the SMAD‐Dependent BMP Signaling Pathway as a Potential Anabolic Target for Osteoporosis

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ABSTRACT

Novel anabolic drug targets are needed to treat osteoporosis. Having established a large national cohort with unexplained high bone mass (HBM), we aimed to identify a novel monogenic cause of HBM and provide insight into a regulatory pathway potentially amenable to therapeutic intervention. We investigated a pedigree with unexplained HBM in whom previous sequencing had excluded known causes of monogenic HBM. Whole exome sequencing identified a rare (minor allele frequency 0.0023), highly evolutionarily conserved missense mutation in SMAD9 (c.65T>C, p.Leu22Pro) segregating with HBM in this autosomal dominant family. The same mutation was identified in another two unrelated individuals both with HBM. In silico protein modeling predicts the mutation severely disrupts the MH1 DNA‐binding domain of SMAD9. Affected individuals have bone mineral density (BMD) Z‐scores +3 to +5, mandible enlargement, a broad frame, torus palatinus/mandibularis, pes planus, increased shoe size, and a tendency to sink when swimming. Peripheral quantitative computed tomography (pQCT) measurement demonstrates increased trabecular volumetric BMD and increased cortical thickness conferring greater predicted bone strength; bone turnover markers are low/normal. Notably, fractures and nerve compression are not found. Both genome‐wide and gene‐based association testing involving estimated BMD measured at the heel in 362,924 white British subjects from the UK Biobank Study showed strong associations with SMAD9 (P _GWAS = 6 × 10 ⁻¹⁶; P _GENE = 8 × 10 ⁻¹⁷). Furthermore, we found Smad9 to be highly expressed in both murine cortical bone–derived osteocytes and skeletal elements of zebrafish larvae. Our findings support SMAD9 as a novel HBM gene and a potential novel osteoanabolic target for osteoporosis therapeutics. SMAD9 is thought to inhibit bone morphogenetic protein (BMP)‐dependent target gene transcription to reduce osteoblast activity. Thus, we hypothesize SMAD9 c.65T>C is a loss‐of‐function mutation reducing BMP inhibition. Lowering SMAD9 as a potential novel anabolic mechanism for osteoporosis therapeutics warrants further investigation. © 2019 The Authors. Journal of Bone and Mineral Research published by American Society for Bone and Mineral Research.

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Most cited references 43

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The recent prevalence of osteoporosis and low bone mass in the United States based on bone mineral density at the femoral neck or lumbar spine.

Nicole C. Wright, Anne C Looker, Kenneth Saag … (2014)

The goal of our study was to estimate the prevalence of osteoporosis and low bone mass based on bone mineral density (BMD) at the femoral neck and the lumbar spine in adults 50 years and older in the United States (US). We applied prevalence estimates of osteoporosis or low bone mass at the femoral neck or lumbar spine (adjusted by age, sex, and race/ethnicity to the 2010 Census) for the noninstitutionalized population aged 50 years and older from the National Health and Nutrition Examination Survey 2005-2010 to 2010 US Census population counts to determine the total number of older US residents with osteoporosis and low bone mass. There were more than 99 million adults aged 50 years and older in the US in 2010. Based on an overall 10.3% prevalence of osteoporosis, we estimated that in 2010, 10.2 million older adults had osteoporosis. The overall low bone mass prevalence was 43.9%, from which we estimated that 43.4 million older adults had low bone mass. We estimated that 7.7 million non-Hispanic white, 0.5 million non-Hispanic black, and 0.6 million Mexican American adults had osteoporosis, and another 33.8, 2.9, and 2.0 million had low bone mass, respectively. When combined, osteoporosis and low bone mass at the femoral neck or lumbar spine affected an estimated 53.6 million older US adults in 2010. Although most of the individuals with osteoporosis or low bone mass were non-Hispanic white women, a substantial number of men and women from other racial/ethnic groups also had osteoporotic BMD or low bone mass. © 2014 American Society for Bone and Mineral Research.

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Romosozumab in postmenopausal women with low bone mineral density.

Michael McClung, Andreas Grauer, Steven Boonen … (2014)

Sclerostin is an osteocyte-derived inhibitor of osteoblast activity. The monoclonal antibody romosozumab binds to sclerostin and increases bone formation.

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A recurrent mutation in the BMP type I receptor ACVR1 causes inherited and sporadic fibrodysplasia ossificans progressiva.

Eileen Shore, Meiqi Xu, George Feldman … (2006)

Fibrodysplasia ossificans progressiva (FOP) is a rare autosomal dominant disorder of skeletal malformations and progressive extraskeletal ossification. We mapped FOP to chromosome 2q23-24 by linkage analysis and identified an identical heterozygous mutation (617G --> A; R206H) in the glycine-serine (GS) activation domain of ACVR1, a BMP type I receptor, in all affected individuals examined. Protein modeling predicts destabilization of the GS domain, consistent with constitutive activation of ACVR1 as the underlying cause of the ectopic chondrogenesis, osteogenesis and joint fusions seen in FOP.

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Author and article information

Contributors

Celia L Gregson:

ORCID: https://orcid.org/0000-0001-6414-0529

celia.gregson@bristol.ac.uk

Journal

Journal ID (nlm-ta): J Bone Miner Res

Journal ID (iso-abbrev): J. Bone Miner. Res

Journal ID (doi): 10.1002/(ISSN)1523-4681

Journal ID (publisher-id): JBMR

Title: Journal of Bone and Mineral Research

Publisher: John Wiley & Sons, Inc. (Hoboken, USA )

ISSN (Print): 0884-0431

ISSN (Electronic): 1523-4681

Publication date (Electronic): 14 November 2019

Publication date (Print): January 2020

Volume: 35

Issue: 1 ( doiID: 10.1002/jbmr.v35.1 )

Pages: 92-105

Affiliations

[ ¹ ] Musculoskeletal Research Unit, Translational Health Sciences Bristol Medical School, University of Bristol Bristol UK

[ ² ] School of Physiology, Pharmacology, and Neuroscience, Faculty of Life Sciences University of Bristol Bristol UK

[ ³ ] Faculty of Health, Translational Genomics Group Institute of Health and Biomedical Innovation, Queensland University of Technology (QUT), Translational Research Institute, Princess Alexandra Hospital Woolloongabba Australia

[ ⁴ ] Faculty of Life Sciences School of Biochemistry, University of Bristol Bristol UK

[ ⁵ ] Medical Research Council Integrative Epidemiology Unit, Population Health Sciences Bristol Medical School, University of Bristol Bristol UK

[ ⁶ ] Division of Bone Biology Garvan Institute of Medical Research Sydney Australia

[ ⁷ ] Faculty of Medicine St Vincent's Clinical School, UNSW Sydney Sydney Australia

[ ⁸ ] School of Biotechnology and Biomolecular Sciences, UNSW Sydney Sydney Australia

[ ⁹ ] Dermatology Research Centre, The University of Queensland, The University of Queensland Diamantina Institute Brisbane Australia

[ ¹⁰ ] Norwich Medical School, University of East Anglia Norwich UK

[ ¹¹ ] Department of Diabetes Endocrinology and Clinical Biochemistry, Norfolk and Norwich University Hospital NHS Foundation Trust Norwich UK

[ ¹² ] Severn School of Radiology, Severn Deanery Bristol UK

[ ¹³ ] Faculty of Medicine The University of Queensland Diamantina Institute, The University of Queensland Woolloongabba Australia

[ ¹⁴ ] Department of Endocrinology and Diabetes Royal Brisbane & Women's Hospital Herston Australia

[ ¹⁵ ] Faculty of Medicine University of Queensland Herston Australia

Author notes

[*] [* ]Address correspondence to: Celia L Gregson, PhD, FRCP, Musculoskeletal Research Unit, Translational Health Sciences, Bristol Medical School, University of Bristol, Learning & Research Building (Level 1), Southmead Hospital, Bristol, BS10 5NB, UK. E‐mail: celia.gregson@ 123456bristol.ac.uk

[†]

DB and PL contributed equally to this work.

[‡]

JHT and ELD contributed equally to this work.

Author information

Celia L Gregson https://orcid.org/0000-0001-6414-0529

John P Kemp https://orcid.org/0000-0002-9105-2249

Jon H Tobias https://orcid.org/0000-0002-7475-3932

Emma L Duncan https://orcid.org/0000-0002-8143-4403

Article

Publisher ID: JBMR3875

DOI: 10.1002/jbmr.3875

PMC ID: 7004081

PubMed ID: 31525280

SO-VID: 07bc3ed6-86a2-4498-9d15-afd4594724c1

License:

This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 20 May 2019

Date revision received : 19 August 2019

Date accepted : 25 August 2019

Page count

Figures: 5, Tables: 2, Pages: 14, Words: 10262

Funding

Funded by: Arthritis Research UK , open-funder-registry 10.13039/501100000341;

Award ID: 19476

Award ID: 20000

Award ID: 21211

Award ID: 21937

Funded by: British Geriatrics Society , open-funder-registry 10.13039/501100000550;

Funded by: FP7 Health , open-funder-registry 10.13039/100011272;

Award ID: 247642

Funded by: Harold Hyam Wingate Foundation , open-funder-registry 10.13039/501100000746;

Award ID: DMMTF‐180208

Funded by: Medical Research Council , open-funder-registry 10.13039/501100007155;

Award ID: MC_UU_12013/4

Funded by: National Health and Medical Research Council , open-funder-registry 10.13039/501100000925;

Award ID: 1032571

Award ID: 511132

Award ID: GNT1158758

Funded by: University of Queensland , open-funder-registry 10.13039/501100001794;

Award ID: UQFEL1718945

Funded by: Wellcome Trust , open-funder-registry 10.13039/100010269;

Award ID: 080280/Z/06/Z

Award ID: 101123

Award ID: 20378/Z/16/Z

Award ID: 204813/Z/16/Z

Funded by: NIHR , open-funder-registry 10.13039/100006662;

Award ID: 5163

Custom metadata

source-schema-version-number 2.0

cover-date January 2020

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_JATSPMC version:5.7.5 mode:remove_FC converted:06.02.2020

ScienceOpen disciplines: Human biology

Keywords: dxa,exon sequencing,high bone mass,monogenic,osteoanabolic,smad9,zebrafish

Data availability:

ScienceOpen disciplines: Human biology

Keywords: dxa, exon sequencing, high bone mass, monogenic, osteoanabolic, smad9, zebrafish

A Rare Mutation in SMAD9 Associated With High Bone Mass Identifies the SMAD‐Dependent BMP Signaling Pathway as a Potential Anabolic Target for Osteoporosis

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ABSTRACT

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Most cited references 43

The recent prevalence of osteoporosis and low bone mass in the United States based on bone mineral density at the femoral neck or lumbar spine.

Romosozumab in postmenopausal women with low bone mineral density.

A recurrent mutation in the BMP type I receptor ACVR1 causes inherited and sporadic fibrodysplasia ossificans progressiva.

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