力学刺激对3月龄骨质疏松大鼠成骨细胞增殖与合成功能的影响

探讨周期性双轴力学应变对成骨细胞增殖与分化合成功能的影响。将正常 3月龄雌性 SD大鼠和骨质疏松大鼠颅顶骨分离的成骨细胞分别在含 10 %胎牛血清的 F- 12培养液中培养 ,并接种在双轴力学应变装置中。当细胞生长至亚融合状态 (Subconfluence) ,给细胞施加力学刺激 ,频率为 1Hz,力学刺激分别为 4 0 0、10 0 0、4 0 0 0μ strain;作用时间分别为每天 30 m in,2、4、8h,共加载两天。以未受力学刺激的细胞为对照组 ,受力学刺激的细胞为实验组 ,并进行比较。采用流式细胞技术测定细胞增殖变化 ;采用同位素标记方法检测成骨细胞骨钙素、I型胶原 C端前肽 (PICP)和总蛋白的分泌量。结果表明 :1)在静态培养条件下 ,3ovx组与 3control组比较 ,其细胞功能活性无明显变化 ,但 3ovx组大鼠成骨细胞增殖活性明显增高 ,这与绝经后骨质疏松骨代谢的高转换率相一致。 2 )4 0 0、10 0 0 μstrain力学刺激可以促进 3control组成骨细胞 I型胶原、骨钙素和总蛋白的分泌量增加 ,促进成骨细胞的分化成熟 ;在 10 0 0μstrain力学刺激下 ,成骨细胞合成骨基质的能力增加最为明显。同时 ,在 4 0 0、10 0 0μstrain力学刺激的初期也可以促进成骨细胞的增殖 ,而促进成骨细胞的分化成熟的作用大于促进细胞增殖的作用。 3)在4 0 0 0 μ

The Effect of Mechanical Stimulation on the Proliferation and Synthetic Function of Osteoblasts from Osteoporotic Rat

The purpose of this paper is to investigate that the effect of cyclic biaxial mechanical strain on proliferation and synthetic function in the osteoblasts isolated from 3 month-old normal female Sprague-Dawley (SD) rats and osteoporotic rats. The osteoblasts were cultured in F-12 medium contained with 10% fetal bovine serum (FBC) and grown to subconfluency in Flexercell apparatus in a humidified incubator with 5% CO2 and 95% air at 37 degrees C. Mechanical strain was applied to the cells for periods of 30 min, 2, 4 and 8 hours every day,lasting 2 days. The amplitude of mechanical strain applied to the cells were 400, 1000 and 4000 microm strain respectively, at a frequency of one hertz (1 H). Unstrained cells were used as control. The results showed that proliferation activity of osteoblast in osteoporotic rats are higher than that in normal rats without mechanical strain the mechanical strain can elevate the proliferation activity and the synthetic function of osteoblast from normal rats at 400, 1000 microm strain. However, the mechanical strain increased significantly the proliferation in the osteoblasts and suppressed obviously the synthetic function in the osteoblasts at 4000 microm strain. The mechanical strain don't affect the proliferation activity and the synthetic function of osteoblast from osteoporotic rats at 400 microm strain. The mechanical strain decrease the proliferation activity of osteoblast from osteoporotic rats at 1000 microm strain. The mechanical strain can elevate the proliferation activity and the synthetic function of osteoblast from osteoporotic rats at 4000 microm strain. In our study, the reaction of the osteoblasts from normal rats and osteoporotic rats to the mechanical stimulation suggested that there are more highly sensitive to the mechanical stimulation in the osteoblasts from normal rats than that from osteoporotic rats.