Objective: Previously, we reported that (j)-epigallocatechin-3-gallate (EGCG), a green tea polyphenol, increased the osteogenic differentiation of murine bone marrow mesenchymal stem cells by increasing the messenger RNA expression of osteogenesis-related genes, alkaline phosphatase activity, and, eventually, mineralization. The present study further investigated the effects of EGCG on bone microstructure change and possible mechanisms in ovariectomy (OVX)Yinduced osteopenic rats. Methods: Rats subjected to OVX were administered EGCG systemically for 12 weeks. Proximal tibial bone mineral densities before and after treatment were compared between groups. Changes in the microarchitecture of both the proximal tibia and the third lumbar spine were compared between EGCG-treated and nontreated groups using micro-CT (KCT). Bone histology and immunohistochemistry in the proximal tibia were evaluated. Results: Results showed that EGCG 3.4 mg/kg/day (estimated peak serum concentration, 10 Kmol/L) hampered the decrease in bone mineral density (from 7.97% to 3.96%) and improved the parameters of KCT measurements, including bone volume (from 18% to 27%), trabecular thickness (from 0.17 to 0.22 mm), trabecular number (from 1.13 to 1.37 mmj1), and trabecular separation (from 0.91 to 0.69 mm), compared with nontreated ovariectomized rats. Similar improvements in bone volume (from 30% to 49%) and trabecular thickness (from 0.14 to 0.26 mm) were also found in the third lumbar spine. Bone volume in the tibial cortex also increased after EGCG treatment (from 9% to 28%). A higher trabecular number and greater trabecular volume were also seen in histology, further confirming the results of KCT. The immunolocalized bone morphogenetic protein 2 brown-stained area increased from 31% in the OVX group to 53% in the OVX + 10 EGCG group (P G 0.01). Serial biochemistry data revealed no significant systemic toxic effect of EGCG. Conclusions: Intraperitoneal treatment with EGCG 3.4 mg/kg/day for 3 months can mitigate bone loss and improve bone microarchitecture in ovariectomized rats, and increased expression of bone morphogenetic protein 2 may contribute to this effect.
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