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OBJECTIVE To study the protective effect and possible mechanism of soybean isoflavones against threatened miscarriage rats. METHODS Female mice were selected to promote estrus and mate with male mice. After pregnancy, they were randomly divided into normal group (purified water, i.g., n=10), model group (purified water, i.g., n=9), positive control drug group (progesterone 4 mg/kg, i.m., n=9), low-, medium- and high-dose soybean isoflavone groups (25, 50 and 100 mg/kg, i.g., n=10). Except for the normal group, the rest were given mifepristone+misoprostol on the 8th day of pregnancy to establish threatened miscarriage model, and then given purified water or drugs, once a day, on days 1-7 and 9-12 of pregnancy, respectively. At 14 days of pregnancy, the rates of fetal protection were counted. Serum levels of β-human chorionic gonadotrophin (β-HCG) and progesterone (P) in rats were detected. Pathological and morphological changes in rat placenta and decidua tissues were observed, and the apoptosis indexes of cells were detected; mRNA and protein expressions of factor of apoptosis related (Fas), factor of apoptosis related ligand (FasL), proliferating cell nuclear antigen (PCNA) and heparin binding epidermal growth factor (HB-EGF) were determined in placenta tissues, and mRNA and protein expressions of Fas, PCNA and HB-EGF in decidua tissues were detected. RESULTS In the model group, the placental tissues of rats were hyperemia and dilatation, with fewer and irregular blood vessels; severe stromal edema,inflammatory cell infiltration and iron-choledrin depositionwere observed. Compared with model group, the fetal survival rates, serum levels of β-HCG and P, the expressions of PCNA and HB-EGF mRNA and proteins in the placenta and decidua tissue of soybean isoflavone groups increased significantly (P< 0.05), while pathological changes were improved significantly; cell apoptosis index in the placenta and decidua tissue, the expressions of Fas, FasL mRNA and proteins in the placenta and Fas mRNA and protein in the decidua tissue decreased significantly (P<0.05). The effect of soybean isoflavones was dose-dependent (P<0.05). CONCLUSIONS Soybean isoflavone has protective effect on threatened miscarriage, the mechanism of which is related to down-regulating the expressions of Fas and FasL mRNA and protein at the maternal-fetal interface, and up-regulating the expressions of mRNA and protein of PCNA and HB- EGF.
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OBJECTIVE@#To determine the correlation of phosphorylated ribosomal S6 protein (P-S6) content in blood and brain tissue in mice and rats with seizure.@*METHODS@#Seizure models were induced by intraperitoric injection of kainic acid (KA) in C57BL/mice and SD rats. Flow cytometry was used to detect the content of P-S6 in blood; Western blot was used to detect the expression of P-S6 in brain tissues. The correlation between P-S6 expression in blood and in brain tissue was examine by Pearson analysis, and the correlation between P-S6 expression in blood and the severity of seizure was also observed.@*RESULTS@#Western blotting analysis showed that the expression of P-S6 was significantly increased in peripheral blood and brain tissue in mice 1 h after KA-induced seizure,and the expression levels increased to (1.49±0.45) times (<0.05) and (2.55±0.66) times ( <0.01) of the control group, respectively. Flow cytometry showed that the positive percentage and average fluorescence intensity of P-S6 in the blood of mice increased significantly 1 h after KA-induced seizures (<0.01), which was consistent with the expression of P-S6 in brain tissue (=0.8474, <0.01). Flow cytometry showed that the average fluorescence intensity of P-S6 in blood increased from 14.89±9.75 to 52.35±21.72 (<0.01) in rats with seizure, which was consistent with the change of P-S6 in brain tissue (=0.9385, <0.01). Rats with higher levels of seizure were of higher levels of P-S6 in peripheral blood.@*CONCLUSIONS@#Consistent correlation of P-S6 expression is demonstrated in peripheral blood and in brain tissue after KA-induced seizure, suggesting that the expression of P-S6 in blood can accurately reflect the changes of mTOR signaling pathway in brain tissue.