Abstract
Genetic studies in the mouse have demonstrated multiple roles for β-catenin in the skeleton. In the embryo, β-catenin is critical for the early stages of osteoblast differentiation. Postnatally, β-catenin in mature osteoblasts and osteocytes indirectly suppresses osteoclast differentiation. However, a direct role for β-catenin in regulating osteoblast number and/or function specifically in the postnatal life has not been demonstrated. Addressing this knowledge gap is important because low-density lipoprotein receptor-related protein 5 (LRP5), a coreceptor for WNT signaling proposed to function through β-catenin, controls osteoblast number and function in postnatal mice or humans. To overcome the neonatal lethality caused by embryonic deletion of β-catenin in early-stage osteoblast-lineage cells, we use the Osx-CreER(T2) mouse strain to remove β-catenin in Osterix (Osx)-expressing cells by administering tamoxifen (TM) temporarily to postnatal mice. Lineage-tracing experiments in the long bones demonstrate that Osx-CreER(T2) targets predominantly osteoblast-lineage cells on the bone surface, but also transient progenitors that contribute to bone marrow stromal cells and adipocytes. Deletion of β-catenin by this strategy greatly reduces the bone formation activity of the targeted osteoblasts. However, the targeted osteoblasts rapidly turn over and are replaced by an excessive number of non-targeted osteoblasts, causing an unexpected increase in bone formation, but an even greater increase in osteoclast number and activity produces a net effect of severe osteopenia. With time, the mutant mice also exhibit a marked increase in bone marrow adiposity. Thus, β-catenin in postnatal Osx-lineage cells critically regulates bone homeostasis by promoting osteoblast activity and suppressing osteoblast turnover, while restraining osteoclast and marrow fat formation.
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