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Abstract
To discover a potent candidate for suppressing mature osteoclasts formation in vitro using a TRAP staining assay. A series of PMSA derivatives were synthesized and evaluated for their bioactivity in our current study. Our results showed that PMSA derivative 11 exhibited the most promising bioactivity, with an IC50 value of 322.9 nM, which was ∼15-fold better than PMSA-3-Ac in suppressing osteoclastogenesis in vitro. Additionally, 11 blocked the formation of F-action belts and bone resorption in a concentration-dependent manner. Mechanistically, 11 decreased the expression of genes required for osteoclastogenesis by blocking NFATc1 translocation from the cytoplasm to nucleus. Furthermore, 11 demonstrated a therapeutic inhibitory effect on the differentiation of human iPSC-derived primary osteoclasts. In vivo investigation showed that 11 prevented excessive osteoclastogenesis-mediated bone loss in ovariectomized osteoporosis mimic mice. These findings highlighted the therapeutic potential of 11 as a lead compound for anti-osteoporosis by targeting NFATc1 translocation.
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