Inhibitory effects of sword bean extract on alveolar bone resorption induced in rats by P orphyromonas gingivalis infection

Background The domesticated legume, Canavalia gladiata (commonly called the sword bean), is known to contain canavanine. The fruit is used in Chinese and Japanese herbal medicine for treating the discharge of pus, but its pharmacological mechanisms are still unclear. Objectives This study examined the effect of sword bean extract ( SBE ) on (i) oral bacteria and human oral epithelial cells in vitro , and (ii) the initiation and progression of experimental Porphyromonas gingivalis ‐induced alveolar bone resorption in rats. Material and Methods A high‐performance liquid chromatography / ultraviolet method was applied to quantitate canavanine in SBE . By assessing oral bacterial growth, we estimated the minimum inhibitory concentration and minimum bactericidal concentration of SBE , canavanine, chlorhexidine gluconate ( CHX ) solution. The cytotoxicity of SBE , canavanine, CHX , leupeptin and cystatin for KB cells was determined using a trypan blue assay. The effects of SBE , canavanine, leupeptin and cystatin on Arg‐gingipain (Rgp) and Lys‐gingipain (Kgp) were evaluated by colorimetric assay using synthetic substrates. To examine its effects on P. gingivalis ‐associated periodontal tissue breakdown, SBE was orally administered to P. gingivalis ‐infected rats. Result Sword bean extract contained 6.4% canavanine. SBE and canavanine inhibited the growth of P. gingivalis and Fusobacterium nucleatum . The cytotoxicity of SBE, canavanine and cystatin on KB cells was significantly lower than that of CHX. Inhibition of Rgp with SBE was comparable to that with leupeptin, a known Rgp inhibitor, and inhibition of Kgp with SBE was significantly higher than that with leupeptin at 500 μg/ mL ( p  <   0.05). P. gingivalis ‐induced alveolar bone resorption was significantly suppressed by administration of SBE, with bone levels remaining comparable to non‐infected animals ( p  <   0.05). Conclusion The present study suggests that SBE might be effective against P. gingivalis ‐associated alveolar bone resorption.