Synthesis of prostacyclin and its effect on the contractile activity of the inflamed porcine uterus.

The goal of the study was to estimate the content of prostacyclin (PGI(2)), the levels of PGI synthase (PTGIS) and receptor (PTGIR) protein expression, and the cellular localization of these factors in the inflammatory-changed porcine uterus. The effect of PGI(2) on the contractility of the inflamed uteri was also determined. On Day 3 of the estrous cycle (Day 0 of the study), 50 mL of either saline or Escherichia coli suspension (10(9) colony-forming units/mL) were injected into each uterine horn. Acute endometritis developed in all bacteria-inoculated gilts, however on Day 8 of the study a severe form of acute endometritis was noted more often than on Day 16. Bacteria injections increased the contents of 6-keto-prostaglandin F(1α) in endometrium, myometrium, washings, and the level of PTGIS in endometrium on Days 8 and 16, and the content of PTGIR in endometrium on Day 16. In the inflamed uteri on both study days, stronger immunoreactivity for PTGIS was observed in part of the luminal and glandular epithelial cells and in a portion of the endometrial arteries, and for PTGIR in part of the luminal epithelium and endothelial cells in a portion of the endometrial arteries. On Day 8, PGI(2) decreased contraction intensity in endometrium/myometrium and myometrium of the saline-treated uteri and increased the contraction intensity in both types of strips from the inflamed organs. Our study reveals that inflammation of the porcine uterus upregulates PGI(2) synthesis and that PGI(2) increases contractility, which suggests that PGI(2) might be essential for the course of uterine inflammation.

Effect of a prostaglandin I(2) analog on the expression of thrombomodulin in liver and spleen endothelial cells after an extensive hepatectomy.

PURPOSE: Dysfunction of the remnant liver after a hepatectomy is caused by microthrombus formation due to endothelial cell (EC) damage. This study evaluated the effect of prostaglandin I(2) (PGI(2)) on the expression of thrombomodulin (TM), a marker for the anticoagulant properties of ECs, using cultured human umbilical vein endothelial cells (HUVECs), and using a canine extensive hepatectomy model. METHODS: The presence of PGI(2) receptors was confirmed on HUVECs by reverse transcription-polymerase chain reaction, and the effect of the PGI(2) analog on TM expression on HUVECs was determined by an enzyme-linked immunosorbent assay. Twenty mongrel dogs were divided into four groups comprising a sham operation, 70% hepatectomy, 84% hepatectomy, and 84% hepatectomy, with the administration of the PGI(2) analog, respectively, and TM expression in the liver, spleen, pancreas, kidney, lung, portal vein, and intestine was determined immunohistochemically. RESULTS: The TM expression on HUVECs was upregulated by the PGI(2) analog. The TM expression on ECs in the hepatic sinusoids and splenic sinus were markedly decreased after the 84% hepatectomy, but such damage was markedly mitigated following an 84% hepatectomy with administration of the PGI(2) analog. CONCLUSIONS: An extensive hepatectomy induced severe EC damage not only in the hepatic sinusoids but in the splenic sinuses as well. Prostaglandin I(2) prevented damage to these ECs, suggesting that PGI(2) improves the microcirculation in the remnant liver.

Developmental regulation of prostacyclin synthase and prostacyclin receptors in the ovine uterus and conceptus during the peri-implantation period.

This study documents the expression of prostacyclin (PGI2) synthase (PTGIS) and PGI2 receptors in the trophoblast and uterus of the ewe at the time of maternal recognition of pregnancy (i.e. days 7, 9, 12, 14 and 17). The membrane receptor for PGI2 (PTGIR) and the nuclear receptors, i.e. peroxisome proliferator-activated receptors (PPAR) and their heterodimer partners the retinoid X receptors (RXR), were analysed. In the endometrium, PTGIS transcript and protein were expressed at day 9 of pregnancy and levels declined from days 12 to 17. Immunohistochemistry and in situ hybridization indicated that PTGIS was mainly located in the luminal epithelium of the endometrium. Endometrial PTGIR, PPARA, PPARG and RXRG expression was regulated during the peri-implantation period whereas PPARD, RXRA and RXRB were consistently expressed. In the trophoblast, PTGIS transcript levels rose as development progressed and peaked at day 17. PTGIR and PPARA transcripts peaked before day 12 and then declined and became nearly undetectable by day 17, whereas PPARD and PPARG transcript levels rose steadily from days 12 to 17. Because the PPARs and the RXRs display different expression profiles, we suggest that different heterodimers may form and support distinct functions as development proceeds. Our results also underline the importance of PTGIS and PPARD in the trophoblast and PTGIR in the uterus, suggesting that PGI2 is of both uterine and trophoblastic origin and is involved in a complex signalling pathway at around the time of implantation in the ewe.

[Designed molecular probes in brain research: molecular imaging of IP2 receptor in the human brain].

The study of the role of prostaglandins in living human brain requires a highly designed non-invasive molecular probe with a specific function in the central nervous system and high stability in an in vivo system in addition to the ability of blood-brain-barrier penetration. We succeeded in designing 15R-TIC, which binds with a novel prostacyclin receptor subtype (IP2) expressed specifically in the central nervous system. 15R-TIC exhibited a distinct nerve-protecting effect in both high oxygen and in vivo ischemic conditions. In addition, a rapid C-methylation reaction, developed in order to incorporate a short-lived 11C-positron nuclide into the molecule, realized the synthesis of 15R-[11C]TIC methyl ester with the radioactivity of 2.5 GBq. The molecular imaging was established for both monkey and human brains by intravenous injection of this positron emission tomography (PET) probe.

Temporal expression and signalling of prostacyclin receptor in the human endometrium across the menstrual cycle.

Prostacyclin (PGI(2)) synthesis and function in the human uterus has been implicated in the regulation of the process of normal and dysfunctional menstruation. PGI(2) synthesis is elevated during normal menstruation and is also associated with blood loss in women who suffer from heavy menses. This study was designed to outline further the role of PGI(2) in menstruation by investigating the temporal pattern and site of expression of prostaglandin I synthase (PGIS) and the prostacyclin receptor (IP receptor) in the non-pregnant human endometrium across the menstrual cycle. Quantitative RT-PCR demonstrated increased expression of PGIS and IP receptor during the menstrual phase of the cycle compared with all other phases (P < 0.05). Furthermore, PGIS and IP receptor were localised to the glandular epithelium, stromal and endothelial cells in the basal and functional layers of the endometrium. Functionality of the IP receptor in the human endometrium was assessed by measuring cAMP generation following treatment with 100 nmol l(-1) of the PGI(2) analogue, iloprost. cAMP generation was significantly higher in endometrial tissue collected during the proliferative compared with the secretory phase of the menstrual cycle (P < 0.05). In conclusion, this study has confirmed increased expression and signalling of PGIS and IP receptor during the menstrual phase and outlines a potential autocrine/paracrine role for PGI(2) on several cellular compartments in the endometrium including the endothelium. This may underscore a pivotal role for PGI(2) receptor signalling in normal and dysfunctional menstruation.

Prostacyclin enhances embryo hatching but not sperm motility.

BACKGROUND: Recently we discovered that the human oviduct synthesizes abundant prostacyclin (PGI(2)). Gene knock-out studies suggest that PGI(2) is essential to endometrial decidualization, but the effects of PGI(2) on sperm and embryos have not been reported. METHODS: The effects of PGI(2) on human sperm were analysed by a computer-assisted semen analysis system. The effects of PGI(2) on mouse embryos were examined based on the rates of complete hatching. The expression of PGI(2) receptor (IP) was evaluated by Western blot analysis and immunohistochemistry. The binding of PGI(2) to embryos was confirmed by radioligand binding assay. Finally, cAMP levels were assessed in PGI(2)-challenged embryos. RESULTS: Iloprost (a stable PGI(2) analogue) did not affect the motility or the overnight survivability of human sperm. Western blot analysis did not detect IP in the sperm plasma membrane. In contrast, the hatching of mouse embryos was enhanced by iloprost (ED(50) 6.7 nmol/l). Exposure to iloprost during 8-cell to morulae or morulae to early blastocyst stages was critical to enhanced hatching. This coincided with the developmental stage-specific expression of IP. Although iloprost bound to blastocysts, it did not significantly increase cAMP. CONCLUSION: PGI(2) enhanced the hatching of mouse embryos but not the motility of human sperm.