Mammalian target of rapamycin (MTOR) is a protein kinase that plays a central role in cell growth and proliferation. It is a part of the signaling network transmitting growth factor signaling to translational control. Previous studies have shown that MTOR is involved in embryo implantation, but its expression in the uterus and its role in implantation are unclear. Here, we have investigated the expression and role of MTOR in mouse uterus during early pregnancy. RT-FQ PCR showed that the mRNA levels of Mtor in endometria of pregnant mice were higher than those of nonpregnant mice. The mRNA levels in the pregnant mice gradually increased from D3 of pregnancy, reached maximum on D5, and then declined afterward. In situ hybridization and immunohistochemical analysis showed that the mRNA and protein of MTOR were mainly located in stromal cells. The levels of the expressed MTOR protein correlate with those of mRNA. The number of implantation sites was greatly decreased by the intrauterine injection with rapamycin in the early morning of D4 of the pregnancy. These findings suggest that MTOR may play an important role in embryo implantation in mice.
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Xuemei Chen, Junlin He, Yubin Ding, Lan Zeng, Rufei Gao, Shuqun Cheng, Xueqing Liu, and Yingxiong Wang
Yue Zhang, Mingyun Ni, Na Liu, Yongjiang Zhou, Xuemei Chen, Yubin Ding, Junlin He, Yingxiong Wang, Xueqing Liu, Yanqing Geng, and Liling Xie
Embryo implantation is a complex process involving synchronised crosstalk between a receptive endometrium and functional blastocysts. Apoptosis plays an important role in this process as well as in the maintenance of pregnancy. In this study, we analysed the expression pattern of programmed cell death 4 (Pdcd4), a gene associated with apoptosis in the mouse endometrium, during early pregnancy and pseudopregnancy by real-time quantitative polymerase chain reaction, in situ hybridisation, Western blotting and immunohistochemistry. The results showed that Pdcd4 was increased along with days of pregnancy and significantly reduced at implantation sites (IS) from day 5 of pregnancy (D5). The level of Pdcd4 at IS was substantially lower than that at interimplantation sites (IIS) on D6 and D7. In addition, Pdcd4 expression in the endometrium was reduced in response to artificially induced decidualisation in vivo and in vitro. Downregulation of Pdcd4 gene expression in cultured primary stromal cells promoted decidualisation, while upregulation inhibited the decidualisation process by increasing apoptosis. These results demonstrate that Pdcd4 is involved in stromal cell decidualisation by mediating apoptosis and therefore plays a role in embryo implantation in mice.
Xiao-Wei Wei, Xue-Qing Liu, Yu-Chen Zhang, Chuan-Mei Qin, Yi Lin, and Fu-Ju Tian
Recurrent pregnancy loss (RPL) is a multifactorial condition with no explanation of miscarriage in approximately half of the RPL patients, consequently leaving deep physical and emotional sequels. Transcription factor 3 (TCF3 or E2A), is a unique member of the LEF/TCF family and plays an important role in embryogenesis. However, its function in RPL is poorly understood. Using real-time polymerase chain reaction (qRT-PCR), western blotting, and immunohistochemistry, we demonstrated that TCF3 was downregulated in decidual tissues from RPL patients compared with healthy control (HC). Further, TCF3 knockdown inhibited proliferation, induced G0/G1 phase arrest, and promoted migration in human endometrial stromal cells (HESCs), while overexpression of TCF3 exhibited the opposite effects. RNA-sequencing analysis combined with gene-set enrichment analysis results showed that the mitogen-activated protein kinase pathway is potentially downstream of TCF3. Knockdown of TCF3 confirmed increased p38 phosphorylation, while overexpression of TCF3 inhibited p38 phosphorylation. Furthermore, we found that TCF3 protein level was decreased in HESCs under hypoxic incubation, while hypoxia-inducible factor-1α (HIF1A) knockdown increased the expression of TCF3. TCF3 overexpression recovered the proliferation ability of HESCs inhibited by hypoxia and reversed hypoxia-induced migration. Consistently, we found that RPL patients had a significantly higher level of HIF1A in the decidual tissue than HC. Overall, this study clarifies that increased HIF1A in the decidua contributes to the occurrence of RPL through the TCF3/p38 signaling pathway.
Xue Zhang, Bo-Yin Tan, Shuang Zhang, Qian Feng, Ying Bai, Shi-Quan Xiao, Xue-Mei Chen, Jun-Lin He, Xue-Qing Liu, Ying-Xiong Wang, Yu-Bin Ding, and Fang-Fang Li
Decidualization of uterine stromal cells plays an important role in the establishment of normal pregnancy. Previous studies have demonstrated that Acyl-CoA binding protein (Acbp) is critical to cellular proliferation, differentiation, mitochondrial functions, and autophagy. The characterization and physiological function of Acbp during decidualization remain largely unknown. In the present study, we conducted the expression profile of Acbp in the endometrium of early pregnant mice. With the occurrence of decidualization, the expression of Acbp gradually increased. Similarly, Acbp expression was also strongly expressed in decidualized cells following artificial decidualization, both in vivo and in vitro. We applied the mice pseudopregnancy model to reveal that the expression of Acbp in the endometrium of early pregnant mice was not induced by embryonic signaling. Moreover, P4 significantly upregulated the expression of Acbp, whereas E2 appeared to have no regulating effect on Acbp expression in uterine stromal cells. Concurrently, we found that interfering with Acbp attenuated decidualization, and that might due to mitochondrial dysfunctions and the inhibition of fatty acid oxidation. The level of autophagy was increased after knocking down Acbp. During induced decidualization, the expression of ACBP was decreased with the treatment of rapamycin (an autophagy inducer), while increased with the addition of Chloroquine (an autophagy inhibitor). Our work suggests that Acbp plays an essential role in the proliferation and differentiation of stromal cells during decidualization through regulating mitochondrial functions, fatty acid oxidation, and autophagy.
Yu-chen Zhang, Xiao-li Qin, Xiao-ling Ma, Hui-qin Mo, Shi Qin, Cheng-xi Zhang, Xiao-wei Wei, Xue-qing Liu, Yan Zhang, Fu-ju Tian, and Yi Lin
Preeclampsia is a gestational hypertensive disease; however, preeclampsia remains poorly understood. Bioinformatics analysis was applied to find novel genes involved in the pathogenesis of preeclampsia and identified CLDN1 as one of the most differentially expressed genes when comparing patients with preeclampsia and healthy controls. The results of the qRT-PCR, Western blotting and immunohistochemistry experiments demonstrated that CLDN1 was significantly downregulated in the chorionic villi in samples from patients with preeclampsia. Furthermore, knockdown of CLDN1 in HTR-8/SVneo cells resulted in the inhibition of proliferation and induction of apoptosis, and overexpression of CLDN1 reversed these effects. In addition, RNA-seq assays demonstrated that the gene BIRC3 is potentially downstream of CLDN1 and is involved in the regulation of apoptosis. Knockdown of CLDN1 confirmed that the expression level of BIRC3 was obviously decreased and was associated with a significant increase in cleaved PARP. Interestingly, the apoptotic effect in CLDN1 knockdown cells was rescued after BIRC3 overexpression. Overall, these results indicate that a decrease in CLDN1 inhibits BIRC3 expression and increases cleaved PARP levels thus participating in the pathogenesis of preeclampsia.