ABSTRACT
Objective · To observe effect of 17β estrodial (17β E2) with different concentrations on C type natriuretic peptide (CNP), insulin like growth factor 1 (IGF1), and natriuretic peptide receptor B (NPR-B) expression and proliferation of growth plate chondrocytes of rats in vitro. Methods · Eight Wistar rats were sacrificed and their epiphyseal cartilages of the upper tibias were separated to obtain chondrocytes on the 14th day after birth. Then chondrocytes were cultured with 17β E2 in different concentrations (10-4、10-6、10-8、10-10 and 10-12 mol/L) for 48 h, while control group was cultured without 17β E2. CCK8 method, ELISA and qRT-PCR were used to analyze the proliferation of chondrocytes, the levels of CNP and IGF1 in culture medium and mRNA levels of CNP, NPR-B and IGF1, respectively. Results · 17β E2 in different concentrations affected the proliferation of growth plate chondrocytes significantly. When the concentration of 17β E2 was 10-8 mol/L, it had the strongest effect on the cell proliferation. When the concentration increased to 10-4 mol/L, the proliferation of chondrocytes was inhibited. With the increasement of 17β E2 concentration, the levels of CNP in the culture medium and the mRNA levels of CNP in the chondrocytes were significantly different. The highest levels of CNP protein and mRNA both appeared in 10-8 mol/L group, while the lowest levels both appeared in 10-4 mol/L group. IGF1 and its mRNA also reached the highest levels in 10-8 mol/L group,but the lowest concentration and mRNA level were in 10-10 mol/L group and 10-12 mol/L, respectively. Both CNP mRNA and protein levels were positive correlated with the proliferation of chondrocytes (P=0.000). Nevertheless, there was no significant correlation between the proliferation of chondrocytes and IGF1 mRNA or protein levels (P>0.05). Conclusion · 17β E2 modulates proliferation of rat growth plate chondrocytes in a dose-effect manner. It enhances proliferation at relatively low concentrations (10-10-10-8 mol/L) and inhibits proliferation at high concentration. This effect is positively related to CNP expression in chondrocytes.
ABSTRACT
ObjectiveStromal cell-derived factor -1 (SDF-1 ) is closely related to the biological characteristics of breast cancer. We aimed to explore whether estrogen affected breast cancer by SDF-1. MethodsThe breast cancer cell line MCF-7 and MRC5 were chosen, and divided into three groups: the control group, the estrogen group and the estrogen + estrogen receptor blocker group. Each group was cultured with different physiological concentrations of 17-β estrogen at certain time, and the same alcohol concentration of 17-β estradiol at different time points, and then the enzyme-linked immunosorbent assay (ELISA) was used to measure the concentration of SDF-1 in culture medium, and the semi-quantitative reverse transcriptionpolymerase chain reaction (RT -PCR) was used to detect the expression of SDF-1 mRNA in each group.ResultsSDF-1 can be detected in the culture medium of both MCF-7 and MRC5 cell lines. All different concentrations of 17-β estradiol may increase the secretion of SDF-1 in MCF-7 cells. When adding 17-β estradiol to the concentration of 107mol/L, the secretion of SDF-1 reached the peak in 2 hours, which was 6 times and 2.7 times that of control group ( P < 0.01 ). The effect could be ehminated by pure estrogen receptor ICI182,780. In addition, the mRNA expression of SDF-1 was consistent with the SDF-1 protein levels-l07 mol/L group. The expression of SDF-1 mRNA was higher than both that of the control group and the blocking group in 2 hours (P < 0.05 ). ConclusionsIn some breast cancer cell lines, physiological concentrations of estrogen can increase the secretion of SDF- 1, and this effect is mainly achieved through the estrogen receptor. Estrogen can influence the biological characteristics of breast cancer by SDF-1.