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Genetic analysis of osteoblast activity identifies Zbtb40 as a regulator of osteoblast activity and bone mass

Madison L. Doolittle, Gina M. Calabrese, Larry D. Mesner, Dana A. Godfrey, Robert Maynard, Cheryl L. Ackert‐Bicknell, Charles R. Farber

2020PLoS Genetics30 citationsDOIOpen Access PDF

Abstract

Osteoporosis is a genetic disease characterized by progressive reductions in bone mineral density (BMD) leading to an increased risk of fracture. Over the last decade, genome-wide association studies (GWASs) have identified over 1000 associations for BMD. However, as a phenotype BMD is challenging as bone is a multicellular tissue affected by both local and systemic physiology. Here, we focused on a single component of BMD, osteoblast-mediated bone formation in mice, and identified associations influencing osteoblast activity on mouse Chromosomes (Chrs) 1, 4, and 17. The locus on Chr. 4 was in an intergenic region between Wnt4 and Zbtb40, homologous to a locus for BMD in humans. We tested both Wnt4 and Zbtb40 for a role in osteoblast activity and BMD. Knockdown of Zbtb40, but not Wnt4, in osteoblasts drastically reduced mineralization. Additionally, loss-of-function mouse models for both genes exhibited reduced BMD. Our results highlight that investigating the genetic basis of in vitro osteoblast mineralization can be used to identify genes impacting bone formation and BMD.

Topics & Concepts

OsteoblastBiologyOsteoporosisBone mineralGenome-wide association studyPhenotypeInternal medicineEndocrinologyGeneticsGene knockdownCell biologyGeneMedicineGenotypeIn vitroSingle-nucleotide polymorphismBone Metabolism and DiseasesBone health and osteoporosis researchTGF-β signaling in diseases
Genetic analysis of osteoblast activity identifies Zbtb40 as a regulator of osteoblast activity and bone mass | Litcius