Functional Genomics of Human Skeletal Development and the Patterning of Height Heritability

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2024 Nov 16

PMID 39549696

Authors

Daniel Richard

Pushpanathan Muthuirulan

Mariel Young

Loic Yengo

Sailaja Vedantam

Eirini Marouli

Eric Bartell

Joel Hirschhorn

Terence D Capellini

Affiliations

Soon will be listed here.

Abstract

Underlying variation in height are regulatory changes to chondrocytes, cartilage cells comprising long-bone growth plates. Currently, we lack knowledge on epigenetic regulation and gene expression of chondrocytes sampled across the human skeleton, and therefore we cannot understand basic regulatory mechanisms controlling height biology. We first rectify this issue by generating extensive epigenetic and transcriptomic maps from chondrocytes sampled from different growth plates across developing human skeletons, discovering novel regulatory networks shaping human bone/joint development. Next, using these maps in tandem with height genome-wide association study (GWAS) signals, we disentangle the regulatory impacts that skeletal element-specific versus global-acting variants have on skeletal growth, revealing the prime importance of regulatory pleiotropy in controlling height variation. Finally, as height is highly heritable, and thus often the test case for complex-trait genetics, we leverage these datasets within a testable omnigenic model framework to discover novel chondrocyte developmental modules and peripheral-acting factors shaping height biology and skeletal growth.

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References

Tak Y, Farnham P . Making sense of GWAS: using epigenomics and genome engineering to understand the functional relevance of SNPs in non-coding regions of the human genome. Epigenetics Chromatin. 2016; 8:57. PMC: 4696349. DOI: 10.1186/s13072-015-0050-4. View

Lanktree M, Guo Y, Murtaza M, Glessner J, Bailey S, Onland-Moret N . Meta-analysis of Dense Genecentric Association Studies Reveals Common and Uncommon Variants Associated with Height. Am J Hum Genet. 2011; 88(1):6-18. PMC: 3014369. DOI: 10.1016/j.ajhg.2010.11.007. View

Meech R, Edelman D, Jones F, Makarenkova H . The homeobox transcription factor Barx2 regulates chondrogenesis during limb development. Development. 2005; 132(9):2135-46. DOI: 10.1242/dev.01811. View

Auton A, Brooks L, Durbin R, Garrison E, Kang H, Korbel J . A global reference for human genetic variation. Nature. 2015; 526(7571):68-74. PMC: 4750478. DOI: 10.1038/nature15393. View

Zhang C, Gao Y, Jadhav U, Hung H, Holton K, Grodzinsky A . Creb5 establishes the competence for Prg4 expression in articular cartilage. Commun Biol. 2021; 4(1):332. PMC: 7955038. DOI: 10.1038/s42003-021-01857-0. View

Narkis G, Tzchori I, Cohen T, Holtz A, Wier E, Westphal H . Isl1 and Ldb co-regulators of transcription are essential early determinants of mouse limb development. Dev Dyn. 2012; 241(4):787-91. PMC: 3443392. DOI: 10.1002/dvdy.23761. View

Kolberg L, Raudvere U, Kuzmin I, Vilo J, Peterson H . gprofiler2 -- an R package for gene list functional enrichment analysis and namespace conversion toolset g:Profiler. F1000Res. 2021; 9. PMC: 7859841. DOI: 10.12688/f1000research.24956.2. View

Vidal A, Overcash F, Murphy S, Murtha A, Schildkraut J, Forman M . Associations between birth and one year anthropometric measurements and IGF2 and IGF2R genetic variants in African American and Caucasian American infants. J Pediatr Genet. 2015; 2(3). PMC: 4452198. DOI: 10.3233/PGE-13064. View

Ward L, Kellis M . Interpreting noncoding genetic variation in complex traits and human disease. Nat Biotechnol. 2012; 30(11):1095-106. PMC: 3703467. DOI: 10.1038/nbt.2422. View

10.

Hamamura K, Zhang P, Yokota H . IGF2-driven PI3 kinase and TGFbeta signaling pathways in chondrogenesis. Cell Biol Int. 2008; 32(10):1238-46. PMC: 2586935. DOI: 10.1016/j.cellbi.2008.07.007. View

11.

Wood A, Esko T, Yang J, Vedantam S, Pers T, Gustafsson S . Defining the role of common variation in the genomic and biological architecture of adult human height. Nat Genet. 2014; 46(11):1173-86. PMC: 4250049. DOI: 10.1038/ng.3097. View

12.

Sinnott-Armstrong N, Naqvi S, Rivas M, Pritchard J . GWAS of three molecular traits highlights core genes and pathways alongside a highly polygenic background. Elife. 2021; 10. PMC: 7884075. DOI: 10.7554/eLife.58615. View

13.

de Leeuw C, Mooij J, Heskes T, Posthuma D . MAGMA: generalized gene-set analysis of GWAS data. PLoS Comput Biol. 2015; 11(4):e1004219. PMC: 4401657. DOI: 10.1371/journal.pcbi.1004219. View

14.

Hollander J, Zeng L . The Emerging Role of Glucose Metabolism in Cartilage Development. Curr Osteoporos Rep. 2019; 17(2):59-69. PMC: 7716749. DOI: 10.1007/s11914-019-00506-0. View

15.

Suzuki K, Hatzikotoulas K, Southam L, Taylor H, Yin X, Lorenz K . Genetic drivers of heterogeneity in type 2 diabetes pathophysiology. Nature. 2024; 627(8003):347-357. PMC: 10937372. DOI: 10.1038/s41586-024-07019-6. View

16.

Fujikawa J, Takeuchi Y, Kanazawa S, Nomir A, Kito A, Elkhashab E . Kruppel-like factor 4 regulates matrix metalloproteinase and aggrecanase gene expression in chondrocytes. Cell Tissue Res. 2017; 370(3):441-449. DOI: 10.1007/s00441-017-2674-0. View

17.

Lachmann A, Xu H, Krishnan J, Berger S, Mazloom A, Maayan A . ChEA: transcription factor regulation inferred from integrating genome-wide ChIP-X experiments. Bioinformatics. 2010; 26(19):2438-44. PMC: 2944209. DOI: 10.1093/bioinformatics/btq466. View

18.

Henderson J, Daniel P, Fraser P . The pancreas as a single organ: the influence of the endocrine upon the exocrine part of the gland. Gut. 1981; 22(2):158-67. PMC: 1419227. DOI: 10.1136/gut.22.2.158. View

19.

Reshef Y, Finucane H, Kelley D, Gusev A, Kotliar D, Ulirsch J . Detecting genome-wide directional effects of transcription factor binding on polygenic disease risk. Nat Genet. 2018; 50(10):1483-1493. PMC: 6202062. DOI: 10.1038/s41588-018-0196-7. View

20.

Skene N, Bryois J, Bakken T, Breen G, Crowley J, Gaspar H . Genetic identification of brain cell types underlying schizophrenia. Nat Genet. 2018; 50(6):825-833. PMC: 6477180. DOI: 10.1038/s41588-018-0129-5. View