Endometrial transcript profile of progesterone-regulated genes during early pregnancy of Water Buffalo (Bubalus bubalis).

Progesterone (P4 ) plays a key role in the establishment and maintenance of pregnancy in most mammals. Unravelling the expression of progesterone-regulated genes can expand the understanding of the embryonic mortality. Accordingly, we studied the relative mRNA expression of the P4 -regulated genes in the buffalo. Uteri were collected from the abattoir and categorized into nonpregnant late luteal phase, stage I (28-38th days of gestation) and stage II (48-56th days of gestation) of pregnancy (n = 6/group). After extraction of total RNA from the endometrial tissues, we carried out qRT-PCR for determining the relative mRNA expression of the P4 -regulated genes using nonpregnant late luteal phase as calibrator group. The expression of LGALS3BP (essential for maternal recognition of pregnancy) gene was found to be significantly upregulated (p < 0.05), while MUC1 (important for embryo attachment) gene was downregulated in stage I and II of pregnancy. We observed no significant change in the expression of LGALS1, LGALS9 and CTSL genes. The SLC5A11 and SLC2A1 genes (involved in the transport of glucose to endometrium) in early pregnancy were upregulated in the pregnancy stage I (p < 0.05) relative to nonpregnant late luteal phase. The CST3 gene was significantly upregulated in pregnancy stage II (p < 0.01). These results provide molecular insights into the specific pathways involved in foeto-maternal communication during early pregnancy in buffaloes.

Study of lysophosphatidic acid receptors (LPARs) in buffalo uterus demonstrated upregulation of LPAR1 and LPAR6 in early pregnancy.

Lysophosphatidic acid (LPA) is an important factor involved in embryo implantation and pregnancy establishment in humans and domestic livestock. LPA exerts its action through six G-protein-coupled receptors (LPA1-LPA6). We investigated the types of LPA receptors expressed in buffalo uterus and also their differential expression in the nonpregnant, and early-pregnant endometrium. The nonpregnant, and early-pregnant (<42 days) uteri were collected from the local slaughterhouse. RT-PCR experiments detected mRNAs of all the six LPA receptors (LPAR1-LPAR6) in both nonpregnant, and early-pregnant endometrial tissues. Their comparative profiling by real-time PCR revealed that the early pregnant endometrium expressed more mRNAs of LPAR1 and LPAR6. All the mRNA fragments were sequenced and submitted to Genbank, NCBI. Western blot studies also showed a similar expression pattern of these two receptor proteins, including higher expression of both LPA1 and LPA6 proteins during early pregnancy. And between these two receptors, LPA6 upregulation was more pronounced than LPA1. In immunohistochemistry, these receptors were found to be localized in the endometrial glandular epithelial cells of both types of uterus. Level of LPA was also higher in early pregnant endometrial tissues. In summary, our study demonstrated expression of all the six LPAR mRNAs in buffalo uterus, wherein the early-pregnant uterus did express comparatively higher mRNA as well as protein of LPA1 and LPA6, indicating their role in pregnancy. The more pronounced expression of LPA6 possibly indicates its greater contribution to mediating LPA signaling in early pregnancy (29-42 days) of buffalo.

Hypercholesterolemia impairs oxytocin-induced uterine contractility in late pregnant mouse.

High cholesterol is known to negatively affect uterine contractility in ex vivo conditions. The aim of the present study was to reveal the effect of in vivo hypercholesterolemia on spontaneous and oxytocin-induced uterine contractility in late pregnant mouse uterus. Female Swiss albino mice were fed with high cholesterol (HC) diet (0.5% sodium cholate, 1.25% cholesterol and 15% fat) for 6 weeks and then throughout the gestation period after mating. On day 19 of gestation, serum cholesterol level was increased more than 3-fold while triglycerides level was reduced in HC diet-fed animals as compared to control animals fed with a standard diet. In tension experiments, neither the mean integral tension of spontaneous contractility nor the response to CaCl2 in high K+-depolarized tissues was altered, but the oxytocin-induced concentration-dependent contractile response in uterine strips was attenuated in hypercholesterolemic mice as compared to control. Similarly, hypercholesterolemia dampened concentration-dependent uterine contractions elicited by a GNAQ protein activator, Pasteurella multocida toxin. However, it had no effect on endogenous oxytocin level either in plasma or in uterine tissue. It also did not affect the prostaglandin release in oxytocin-stimulated tissues. Western blot data showed a significant increase in caveolin-1 and GRK6 proteins but decline in oxytocin receptor, GNAQ and RHOA protein expressions in hypercholesterolemic mouse uterus. The results of the present study suggest that hypercholesterolemia may attenuate the uterotonic action of oxytocin in late pregnancy by causing downregulation of oxytocin receptors and suppressing the signaling efficacy through GNAQ and RHOA proteins.