Shikonin Suppresses Osteoclastogenesis in Vitro and Ameliorates Ovariectomized-induced Osteoporosis in Mouse Model
10.13241/j.cnki.pmb.2017.24.010
- VernacularTitle:紫草素抑制破骨细胞分化及改善去卵巢诱导的小鼠骨质疏松
- Author:
Shaofeng WANG
;
Xiangdong KONG
;
Yong SHA
;
Jun FAN
;
Hui GAO
;
Qinlong JI
- Keywords:
Shikonin;
Osteoclastogenesis;
Osteoporosis;
RANKL
- From:
Progress in Modern Biomedicine
2017;17(24):4645-4649
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the effects of shikonin on osteoclastogenesis in vitro and amelioration of bone loss in ovariectomized-induced osteoporosis in mouse model.Methods:The optimal concentration of shikonin treating were evaluated in vitro depending on its effect on the viability of C57BL/6J mouse bone-marrow-derived macrophages by CCK-8 method.To establish the osteoclastogenesis cell model,macrophages were cultured with RANKL and M-CSF treatment,and TRAP staining was used to observe the generation of osteoclasts after treating with different concentration of shikonin solution.Expressions of osteoclast marker genes,including TRAP,c-Fos and NFATclwere detected with real-time PCR.Fifthteen mice were randomly allocated into sham operation group,ovariectomized model group and shikonin treatment group.After the modeling,mice in treatment group were received the intraperitoneal injection of shikonin,while the other two groups treated with normal saline.After thirty days treatments,all animals' tibias were dissected for micro-CT analysis.Results:①The macrophages viability was significantly inhibited when the concentration of shikonin was higher than 250 nmol/(P<0.01).②The osteoclastogenesis was significantly suppressed by differemt dose of shikonin(P<0.01).③ The expression of the osteoclastic marker genes (TRAP,c-Fos and NFATc 1) were suppressed by addition of shikonin comparing to control group (P<0.01).④ Shikonin effectively prevented ovariectomy-induced bone loss (P<0.05).Conclusion:Shikonin suppresses osteoclastogenesis in vitro and ameliorates ovariectomized-induced osteoporosis in mouse model.