CDKN1A/P21 is a potent inhibitor of cell cycle progression and its overexpression is thought to be associated with inhibition of normal bone regenerative osteogenesis during spaceflight. To test whether CDKN1A/P21 regulates osteogenesis in response to mechanical loading we studied cyclic stretch versus static culture of Cdkn1a (null) or wildtype primary mouse bone marrow osteoprogenitors during 21-day ex-vivo mineralization assays. Cyclically stretched Cdkn1a cells are 3.95-fold more proliferative than wildtype, while static Cdkn1a cells show a 2.50-fold increase. Furthermore, stage-specific single cell RNAseq analyses show expression of Cdkn1a is strongly suppressed by cyclic stretch in early and late osteoblasts, and minimally in the progenitor population. Lastly, both stretch and/or Cdkn1a deletion cause population shift from osteoprogenitors to osteoblasts, also indicating increased differentiation. Collectively, our results support the hypothesis that Cdkn1a constitutively plays a mechano-reversible anti-proliferative role during osteogenesis and suggests a new molecular target to counter regenerative deficits caused by disuse.
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