Archives of Medical Science (Nov 2019)
Amarogentin promotes osteoblast differentiation in oestrogen-deficiency-induced osteoporosis rats by modulating the Nrf-2/MAPK/ERK signalling pathway
Abstract
Introduction The beneficial effect of amarogentin in the management of osteoporosis was determined using in vivo and in vitro methods. Material and methods Experimental osteoporosis was induced in rats via bilateral ovariectomy. Rats were then treated for 5 weeks with amarogentin (50 and 100 mg/kg, p.o.). The levels of several biochemical markers of bone resorption and formation as well as bone mineral density (BMD) were measured in the rat serum. Isolated rat bone tissues were analysed using western blot assays. In the in vitro study, MG63 human osteoblasts were treated with amarogentin (0–100 µg/ml), after which alkaline phosphatase activity and osteoblast proliferation were evaluated. Osteoblasts treated with amarogentin and inhibitors of extracellular signal-regulated kinase (ERK) were further examined via western blotting. Results In the rat model of oestrogen-deficiency-induced osteoporosis, BMD was significantly enhanced (p < 0.01) and levels of inflammatory cytokines were reduced in amarogentin-treated animals vs. the controls. Amarogentin treatment also attenuated the altered levels of osteocalcin, C-telopeptide of type 1 collagen, procollagen type I N-terminal propeptide, and bone-specific alkaline phosphatase, and the altered expression of Akt, Nrf-2, ERK, and nuclear factor-B p65 in the serum of rats with osteoporosis. In the in vitro study, amarogentin treatment enhanced alkaline phosphatase activity and osteoblast proliferation compared to the non-treated control. Amarogentin treatment alone enhanced the expression of p-ERK compared to treatment with an amarogentin + ERK inhibitor. Conclusions Both the in vivo and the in vitro studies demonstrated the protective effect of amarogentin against oestrogen-deficiency-induced osteoporosis in rats. The mechanism seems to involve the amarogentin-mediated enhancement of osteoblast differentiation via the Nrf-2/MAPK/ERK signalling pathway.
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