摘要
Objective: To explore the therapeutic mechanism of Bushen Yiqi Hexue recipe (补肾益气血方, BYHR), and observe its effect on pinopodes expression on endometrial surface in mifepristone induced embryo implantation dysfunctional mice. Methods: Pregnant Kunming mice were randomly divided into the normal group, the control group and the treated group. Mice in the treated group were administered with BYHR, and those in the normal group and the control group were administered with normal saline, starting from the very first day of pregnancy (Pd1). On the Pd4, mifepristone (RU486) was subcutaneously injected into mice in the control group and the treated group. Pinopodes expression on endometrial surface at 09:30-10:00 pm on Pd4 (regarded as time point 1, T1) and at 09:30-10:00 am on Pd5 (as time point 2, T2) was determined by scanning electron microscopy. Pregnancy rate and average implanted embryos were observed on Pd7. Results: Pregnancy rate and average implanted embryos in the control group were obviously lower than those in the normal group (all P<0.01), while the two parameters were significantly higher in the treated group (P<0.05, P<0.01, respectively) than those in the control group. In the normal group, abundant developing pinopodes were distributed over the whole endometrial surface in T1, and they were altered to a great deal of fully developed pinopodes in T2. But in the control group, only a few pinopodes were expressed locally on endometrial surface in T1, showing a nonsynchronous figure of development, and they completely disappeared in T2. In the treated group, a lot of developing pinopodes were expressed like those in the normal group but somewhat lagged behind, whereas many fully developed pinopodes were expressed in T2. Conclusion: The decrease of the pinopodes in T1 and the cleaning up of them in T2 is possibly the partial mechanism of mifepristone in inducing embryo implantation dysfunction. It is indicated that BYHR could improve pinopodes expression on endometrial surface, eventually better the uterine receptivity and improve the embryo implantation.
Objective: To explore the therapeutic mechanism of Bushen Yiqi Hexue recipe (补肾益气血方, BYHR), and observe its effect on pinopodes expression on endometrial surface in mifepristone induced embryo implantation dysfunctional mice. Methods: Pregnant Kunming mice were randomly divided into the normal group, the control group and the treated group. Mice in the treated group were administered with BYHR, and those in the normal group and the control group were administered with normal saline, starting from the very first day of pregnancy (Pd1). On the Pd4, mifepristone (RU486) was subcutaneously injected into mice in the control group and the treated group. Pinopodes expression on endometrial surface at 09:30-10:00 pm on Pd4 (regarded as time point 1, T1) and at 09:30-10:00 am on Pd5 (as time point 2, T2) was determined by scanning electron microscopy. Pregnancy rate and average implanted embryos were observed on Pd7. Results: Pregnancy rate and average implanted embryos in the control group were obviously lower than those in the normal group (all P<0.01), while the two parameters were significantly higher in the treated group (P<0.05, P<0.01, respectively) than those in the control group. In the normal group, abundant developing pinopodes were distributed over the whole endometrial surface in T1, and they were altered to a great deal of fully developed pinopodes in T2. But in the control group, only a few pinopodes were expressed locally on endometrial surface in T1, showing a nonsynchronous figure of development, and they completely disappeared in T2. In the treated group, a lot of developing pinopodes were expressed like those in the normal group but somewhat lagged behind, whereas many fully developed pinopodes were expressed in T2. Conclusion: The decrease of the pinopodes in T1 and the cleaning up of them in T2 is possibly the partial mechanism of mifepristone in inducing embryo implantation dysfunction. It is indicated that BYHR could improve pinopodes expression on endometrial surface, eventually better the uterine receptivity and improve the embryo implantation.
基金
ProjectsupportedbytheNationalNaturalScienceFoundationofChina(No.30171193)