摘要
目的: 研究锌对体外培养大鼠成骨细胞肌醇磷脂信号转导系统的影响。方法: 从大鼠颅骨分离出成骨细胞,于 D M E M 培养基中进行传代培养。实验分为对照组、10μmol/ L、25μmol/ L 及50μmol/ L Zn2 + 剂量组:分别测定了 Zn2 + 对成骨细胞长期或短期作用后蛋白激酶 C( P K C) 活性及三磷酸肌醇( I P3) 含量的变化。根据被磷酸化多肽底物的量测定 P K C 活性,按照3 Hm yo肌醇掺入及层析分离法测定 I P3 含量。结果: (1) 三个不同剂量的 Zn2 + 作用于大鼠成骨细胞3 天后, I P3 含量及 P K C 活性均显著高于对照组;且随着 Zn2 + 剂量的增加, I P3 含量及 P K C 活性有相应增加的趋势;(2) 在短期实验中,25μmol/ L Zn2 + 对成骨细胞的作用比较明显,仅作用15 分钟, I P3 含量即明显提高,且在以后的各个作用时点均明显高于对照组,但时间效应曲线平坦;50μm ol/ L Zn2 + 组 I P3 含量在各个时点略低于25μmol/ L Zn2 +组;10μm ol/ L Zn2 + 组略高于对照组。25μmol/ L Zn2 + 、50μm ol/ L Zn2 + 组 P
Objective: The effect of zinc on phosphoinositol signal transduction system in rat osteoblasts in vitro was studied. Methods: The osteoblasts were isolated from the rat calvaria, and were subcultured in DMEM medium. Four groups were designed in the study, and they were control, 10μmol/L, 25μmol/L and 50μmol/L Zn 2+ groups respectively. Cellular PKC activity and IP 3 content were measured after treatment of Zn 2+ for a long period or a short period. PKC activity was measured according to the level of phosphorylated peptide. IP 3 content was measured according to the methods of 3H myo inositol incorporation and chromatography separation. Results: (1)In long term test cellular IP 3 content and PKC activity in three Zn 2+ groups were significantly elevated as compared with the control group after treatment of Zn 2+ for three days. IP 3 content and PKC activity increased with Zn 2+ levels. (2)In short term test the effect of 25μmol/L Zn 2+ was obvious. Cellular IP 3 content increased significantly just after treatment of 25μmol/L Zn 2+ for 15 minutes, and remained at a high level in two hours. The time response curve kept stable. IP 3 content in 50μmol/L Zn 2+ group was a little lower than that of 25μmol/L Zn 2+ group. IP 3 content in 10μmol/L Zn 2+ group was just a little more than that of control group. PKC activities in 25μmol/L Zn 2+ group and 50μmol/L Zn 2+ group were higher than that of the control group at each time point in 2 hours. The time response curve of PKC was just stable and similar to that of IP 3. Conclusion: Zinc can activate the phosphoinositol signal transduction system in rat osteoblasts in vitro, and elevate IP 3 content and PKC activity. The mechanism includes not only the membrane receptor mediated pathway but also possibly the direct Zn 2+ action.
出处
《营养学报》
CAS
CSCD
北大核心
1999年第3期263-267,共5页
Acta Nutrimenta Sinica
基金
国家自然科学基金
关键词
DMEM
锌
三磷酸肌醇
蛋白激酶C
zinc phosphoinositol signal transduction system 1,4,5 triphosphate inositol protein kinase C
