The effect of acute hypoxia on prostaglandin release in perfused human fetal placenta

The release of prostaglandin E₂ and F_2α, thromboxane B₂ and 6-keto-prostaglandin F_1α was measured in isolated human placental cotyledons perfused under high- and low-oxygen conditions. Also the effect of reoxygenation on prostaglandin production was studied. During the high-oxygen period, prostaglandin E₂ accounted for 44 % and 6-keto-prostaglandin F_1α for 28 % of all prostaglandin release, and the rank order of prostaglandin release was E₂ > 6-keto-prostaglandin F_1α > thromboxane B₂ > prostaglandin F_2α. Hypoxia had no significant effect on quantitative prostaglandin release, but the ration of prostaglandin E₂ to prostaglandin F_2α was significantly increased. After the hypoxic period during reoxygenation the release of 6-keto-prostaglandin F_1α was significantly decreased, as was the ratio of 6-keto-prostaglandin F_1α to thromboxane B₂. Also the ratio of the vasodilating prostaglandins (E₂, 6-keto-prostaglandin F_1α) to the vasocontricting prostaglandins (thromboxane B₂, prostaglandin F_2α) was decreased during reoxygenation period. With the constant flow rate, the perfusion pressure increased during hypoxia in six and was unchanged in three preparation. The results indicate that changes in the tissue oxygenation in the placenta affect prostaglandin release in the fetal placental circulation. This may also have circulatory consequences.     

Prostaglandins and thromboxanes in amniotic fluid during rivanol-induced abortion and labour

Abortion or delivery were induced by extra-amniotic instillation of Rivanol during the second trimester in twelve patients and during the third trimester in two patients with fetal death and one patient with fetal acrania. Serial sampling of amniotic fluid was performed through a transabdominal catheter and the levels of free arachidonic acid (AA), prostaglandin F₂α (PGF₂α), prostaglandin E₂ (PGE₂), 6-keto-prostaglandin F₁α (6-keto-PGF₁α) and thromboxane B₂ (TXB₂) were determined. The levels of AA, PGF₂α, PGE₂, 6-keto-PGF₁α and TXB₂ in amniotic fluid increased significantly during induction with the exception of AA in fetal death which was high and remained constant during induction. Furthermore, PGF₂α, 6-keto-PGF₁α and TXB₂ were all significantly correlated to AA.These observations suggested that free AA is released during Rivanol-induction of abortion and labour giving an increased synthesis of PGF₂α, PGE₂ prostacyclin and thromboxane A₂ in the fetal membranes and the decidua but not in the fetus. This increase might be relevant for the initiation and progress of abortion and labour in these patients.     

Synthesis of thromboxane B2 and 6-keto-prostaglandin F1α by bovine gastric mucosal and muscle microsomes

Bovine gastric mucosal and muscle microsomes synthesize prostaglandins and thromboxane B₂ (TXB₂) from arachidonic acid (AA). TXB₂ and 6-keto-prostaglandin F₁α (6-keto-PGF₁α) were the major products synthesized by pylorus, body, and cardiac region of the gastric mucosa. Gastric muscle mainly synthesized 6-keto-PGF₁α. TXB₂ and 6-keto-PGF₁α synthesis occurs at an appreciable rate from endogenous precursors but more rapidly with added arachidonate. Prostaglandins E₂, F₂α and D₂ were synthesized in smaller amounts under the conditions studied.     

The identification of two novel prostaglandins and a thromboxane

6,15-Dioxo-PGF_1α, 6-15-dioxo-13,14-dihydro-PGF_1α and 15-oxo-thromboxane B₂ have been identified in incubates of ram seminal vesicle homogenates with added arachidonic acid or in the perfusate from sensitised challenged guinea pig lungs. These compounds are probably related to 6-oxo-PGF_1α and thromboxane B₂. The structures have been determined by gas chromatography mass spectrometry, following suitable chemical derivatisation.     

Effect of prostaglandin I2 and related compounds on vascular permeability response in granuloma tissues

The effects of prostaglandin I₂, 6-ketoprostaglandin F_1α, prostaglandin E₁ and thromboxane B₂ on the vascular permeability response in rat carrageenin granuloma were studied with the aid of ¹³¹I- and ¹²⁵I-human serum albumin as indicators for the measurement of local vascular permeability.A single injection of 5 μg of prostaglandin I₂ methyl ester or I₂ sodium salt into the locus of the granulomatous inflammation elevated local vascular permeability 2.0–2.5 times over the control within 30 min. The potency was equal to that of the positive control prostaglandin E₁ which has been known to be the most potent mediator in this index among several candidate prostaglandins for chemical mediator of inflammation. The other prostaglandin and thromboxane B₂ tested were essentially inactive.     

Effect of bisenoic prostaglandins on the uterine vasculature of the nonpregnant sheep

The effects of the bisenoic prostaglandins on the uterine vasculature and uterine contractile activity have been evaluated in an unanesthetized chronically catheterized nonpregnant sheep preparation. Changes in uterine blood flow were monitored with electromagnetic flow probes while uterine contractile activity and tone were determined via an intra-uterine balloon connected to a pressure transducer. Prostaglandins A₂, D₂, E₂, and prostacyclin (PGI₂) were all found to be vasodilators. PGD₂ and PGI₂ were much more potent than PGA₂ and PGE₂ in dilating the uterine vasculature. The prostacyclin breakdown product 6-keto PGF_1α, PGF_2α, thromboxane B₂, and the endoperoxide analogues U44069 and U46619 produced vasoconstriction of the uterine vasculature. Prostaglandins A₂, D₂ and F_2α increased while PGI₂ decreased uterine contractile activity. PGF_2α also increased uterine tone suggesting that a portion of its vasoconstrictor activity may be due to mechanical compression of the uterine vasculature.     

Ascorbic acid promotes prostanoid release in human lung parenchyma

Ascorbic acid reduces airway reactivity to inhaled bronchoconstrictor agents in man and guinea pigs. The precise mechanism(s) responsible for this effect are unknown, but in both species an acute indomethacin treatment reverses the action of the ascorbic acid. To determine if ascorbic acid promotes prostanoid synthesis and/or inhibits degradation, human lung parenchymal slices (100–200mg) were incubated for 60 minutes in oxygenated Tyrode's solution alone or with sodium ascorbate (0.001M–1M) and/or methacholine (1μM–100μM) and/or indomethacin (0.17μM–17μM). Aliquots of the incubation medium were assayed by radioimmunoassay for PGE₂, PGF_2α, thromboxane B₂ and 6-keto-PGF_1α. Ascorbic acid increased the accumulation of all four prostanoids in the incubation medium, especially thromboxane B₂ and 6-keto-PGF_1α. This stimulatory effect of ascorbic acid was concentration-dependent and was inhibited by indomethacin. We conclude that ascorbic acid can alter prostanoid generation by human lung tissue and this effect may, in part, explain its antibronchoconstrictor activity in man.     

Chemotactic activity of thromboxane B2, prostaglandins and their metabolites for polymorphonuclear leucocytes

(1) The chemotactic activities of thromboxane B₂ (TxB₂, PGE₂, PGF_2α, the 15-oxo, 15-oxo-13,14-dihydro and 13,14-dihydro metabolites of PGE₂, PGF_2α, and a metabolite of TxB₂ for polymorphonuclear leucocytes (PMN) have been investigated.(2) Thromboxane B₂ increased the directional migrationm of rat peritoneal PMN at a concentration of 2.0 μg/ml and of human peripheral neutrophils at a concentration of 0.5 μg/ml.(3) Neither PGE₂, PGF_2α nor their metabolites showed chemotactic activity for rat peritoneal PMN.(4) PGF_2α and 15-oxo-13,14-dihydro-thromboxane B₂ showed no chemotactic activity for human peripheral PMN.(5) The possible role of thromboxane B₂ in inflammation is discussed.     

An NADP-linked prostacyclin dehydrogenase in rabbit kidney

An NADP-linked 15-hydroxyprostaglandin dehydrogenase specific for prostacyclin was purified 1,300-fold from rabbit kidney. Prostaglandins E₂, F_2α, and 6-Keto PGF_1α and thromboxane B₂ were oxidized by the purified enzyme with rates of reaction less than 4% that of PGI₂. Unlike other rabbit kidney NADP-linked 15-hydroxyprostaglandin dehydrogenases, this enzyme catalyzes oxido reduction more rapidly at the 15- position than at the 9- position and does not utilise NAD as a cofactor. It has a molecular weight of 62,000 and migrates on polyacrylamide disc gel electrophoresis as a single diffuse band. The reaction product was identified by thin-layer chromatography as 6,15-diketo PGF_1α. Prostacyclin dhydrogenase is the first 15-hydroxyprostaglandin dehydrogenase described which is specific for the metabolism of prostacyclin.     

Metabolism of arachidonic acid by caruncular and allantochorionic tissues in cows with retained fetal membranes (RFM)

The metabolism of arachidonic acid (AA) by caruncular and allantochorionic tissues and its regulation was studied in normal cows (n=13) and those with retained fetal membranes (RFM; n=9). Tissues were taken via the vagina about 6 hours postpartum and incubated for 6 hours in minimum essential medium containing tritiated AA alone or in the presence of oxytocin, platelet activating factor (PAF), epidermal growth factor (EGF) or ionophore calcium (A23187). The metabolites of AA were separated by reverse phase-high pressure-liquid chromatography. Tissue concentrations of prostaglandin F_2α (PGF_2α) and prostaglandin E₂ (PGE₂) and plasma 13,14-dihydro-15-keto-PGF_2α (PGFM) concentration were also measured by radioimmunoassay. For caruncular tissue, less thromboxane B₂ (TXB₂) and more 6-keto prostaglandin F_1α (PGIM) was synthesized in tissue from the animals with RFM than in the controls. Oxytocin, PAF, EGF and A23187 increased only PGIM production in the control animals; A23187 also decreased TBX₂ synthesis. For the allantochorion, more PGE₂, leukotriene B₄ (LTB₄) and PGIM and less TXB₂, PGF_2α and hydroxyecosatetranoic acids (HETE) was synthesized in tissue from cows with RFM than from animals that delivered normally. All of the substances used in this study increased PGIM, PGF_2α and LTB₄ and decreased TXB₂ production by the allantochorionic tissue in control animals. The metabolism of AA by the allantochorionic tissue seems quantitatively under hormonal control. The metabolism of AA at the level of both maternal and fetal components of the placenta in cows with RFM differed from that seen in animals that expelled the membranes normally.     

Increased thromboxane A2 production but normal prostacyclin by the placenta in hypertensive pregnancies

The production of vasodilatory, antiaggregatory prostacyclin (PGI₂) and vasoconstrictory, proaggregatory thromboxane A₂ (TxA₂) by the placenta was studied in the cases of hypertensive pregnancy complications by superfusing pieces from maternal and fetal sides of placentae of 9 pre-eclamptic, 6 hypertensive and 11 healthy women and measuring the release of 6-keto-prostaglandin F_1α (6-keto-PGF_1α) and thromboxane B₂ (TxB₂), the breakdown products of PGI₂ and TxA₂ respectively, from the superfusate. Both sides of the placentae from the controls produced 6-keto-PGF_1α (maternal side 0.5±0.1 ng/g/min dry weight of tissue, mean±SEM; fetal side 0.7±0.2 ng/g/min) and TxB₂ (maternal side 2.5±0.4 ng/g/min; fetal side 2.7±0.5 ng/g/min with no correlation between the two. The 6-keto-PGF_1α production was normal in hypertensive complications whereas the TxB₂ production was increased on the fetal side of the placentae obtained from the pre-eclamptic (3.7±0.3 ng/g/min: p<0.05) and hypertensive women (4.1±0.4 ng/g/min; p<0.025). This may explain the occurrence of microthrombi and infarctions in placentae of hypertensive women.     

Prostaglandin synthesis in isolated glomeruli

Prostaglandins are thought to play an important role in the local regulation of glomerular blood flow and in the release of renin from the juxtaglomerular apparatus. We therefore examined prostaglandin synthesis by isolated rat glomeruli. Isolated glomeruli were either prelabeled with [14_C] arachidonic acid or were incubated with [14_C] arachidonic acid for the entire experimental incubation in Krebs buffer. Prostaglandin synthesis was determined by thin layer radiochromatography of acid extracts of the supernatant solutions. Indomethacin inhibitable synthesis of small amounts of 6-keto-PGF_1α, the metabolite of prostacyclin(PGI₂,) and larger amounts of PGF_2α, and PGE₂, and possibly thromboxane B₂ (TXB₂) by isolated glomeruli could be demonstrated with either prelabeling or direct incubation. These findings support the hypothesis that prostaglandins are produced within the glomerulus where they may affect local glomerular blood flow and function.     

Anti-inflammatory drugs, prostanoid and proteoglycan production by cultured bovine articular chondrocytes

The effect of various anti-inflammatory drugs on the production of prostaglandins E₂ and F₂α, 6 keto PGF₁α and thromboxane B₂ by bovine articular chondrocytes was measured by radioimmunoassay. While indomethacin and meclofenamic acid caused a dose-dependent inhibition of all prostanoids measured, the effects of hydrocortisone and colchicine varied with respect to different prostanoids. Hydrocortisone (10⁻⁷M – 10⁻³M) both in the presence and absence of added arachidonic acid, resulted in an inhibition of prostaglandins E₂ and F₂, and to a lesser extent, 6 keto PGF₁α, but T×B₂ production was only slightly inhibited by the drug in the absenced of arachidonic acid and markedly increased in its presence. Colchicine (10⁻⁷M – 10⁻³M) had the opposite effect, causing an inhibition of T×B₂ and stimulating PGE₂ and 6 keto PGF₁α production. These findings suggest that certain anti-inflammatory drugs may, in addition to their action on phospholipase A₂ and cyclo-oxygenase, exert potent effects at the level of the different synthetases. In order to see whether these alterations in relative prostanoid levels affected proteoglycan metabolism, the effect of anti-inflammatory drugs on proteoglycan synthesis by cultured chondrocytes was tested using ³⁵SO₄ labeling methodology. The results showed that the concentrations tested (10⁻⁵M to 10⁻⁷M), indomethacin, dexamethasone, hydrocortisone and colchicine inhibited ³⁵SO₄ incorporation into newly synthesized proteoglycan molecules both in the presence (10⁻⁶M) and absence of exogenous arachidonic acid. In the same concentration range choroquine had no effect.These results do not support the hypothesis of direct prostanoid involvement in the modulation of proteoglycan synthesis in articular cartilage.     

Determination of 9α,11β-prostaglandin F2 by stereospecific antibody in various rat tissues

In view of the recent finding that prostaglandin D₂ is stereospecifically converted to 9α,11β-prostaglandin F₂, an isomer of prostaglandin F₂α, a highly specific and sensitive radioimmunoassay for 9α,11β-prostaglandin F₂ was developed and applied to determine the content of this prostaglandin in various rat tissues. Antisera against 9α-11β-prostaglandin F₂ were raised in rabbits immunized with the bovine serum albumin conjugate, and [³H]9α,11β-prostaglandin F₂ was enzymatically prepared from [³H]prostaglandin D₂. The assay detected 9α,11β-prostaglandin F₂ over the range of 20 pg to 1 ng, and the antiserum showed less than 0.04% cross-section with prostaglandin F₂α, prostaglandin F₂β and 9β,11β-prostaglandin F₂. To avoid postmortem changes, tissues were frozen in liquid nitrogen immediately after removal. The basal level of 9α,11β-prostaglandin F₂ was hardly detectable in various tissues of the rat examined, including spleen, lung, liver and brain; although it was found to be 0.31 ± 0.06 ng/g wet weight in the small intestine. During convulsion induced by pentylenetetrazole, enormous amounts of prostaglandin D₂ (ca. 180 ng/g wet weight) and prostaglandin F₂α (ca. 70 ng/g) were produced in the brain; however, 9α,11β-prostaglandin F₂ was detected neither there nor in the blood. This result demonstrates that the conversion to 9α,11β-prostaglandin F₂ is a minor pathway, if one at all, of prostaglandin D₂ metabolism in the rat brain.     

Release of 6-keto-prostaglandin F1α and thromboxane B2 from mouse peritoneal macrophages during their adhesion and spreading on a glass surface

The release of 6-keto-prostaglandin F_1α (6KF_1α)_and of thromboxane B₂ (TXB₂) from cells were investigated using mouse peritoneal exudate cells (PECs) and non-cultured peritoneal macrophages. They were prepared by adhesion to glass dishes and incubated for 1 hr at 37°C in 5% Co₂ in air. Both the percentage of spreading macrophages and the release of 6KF_1α and TXb₂ increased in proportion to the incubation time. 6KF_1α and TXB₂ were released from the macrophages, not from the non-adherent cells. When PECs were incubated in silicon-coated glass dishes, the spreading of macrophages was hardly detected and lower amounts of 6KF_1α and TXB₂ were released from these cells compared with cells incubated in non-treated glass dishes. These findings suggest that adhesion with the correlated spreading of macrophages on glass dishes serve as a considerable physical factor for the release of 6KF_1α and TXB₂.     

Determination of seven prostanoids in 1 ml of urine by gas chromatography—negative ion chemical ionization triple stage quadrupole mass spectrometry

In an isotope dilution assay, prostaglandin (PG) E₂, 6-keto-PGF_1α, thromboxane (Tx) B₂ and their metabolites PGE-M (11α-hydroxy-9,15-dioxo-2,3,4,5,20-pentanor-19-carboxyprostanoic acid), 2,3-dinor-6-keto-PGF_1α, 2,3-dinor-TxB₂ and 11-dehydro-TxB₂ were determined in urine by gas chromatography—triple stage quadrupole mass spectrometry (GC—MS—MS). After addition of deuterated internal standards, the prostaglandins were derivatized to their methoximes and extracted with ethyl acetate—hexane. The sample was further derivatized to the pentafluorobenzylesters and purified by thin-layer chromatography (TLC). Three zones were scraped from the TLC plate. The prostanoid derivatives were converted to their trimethylsilyl ethers and the products were quantified by GC—MS—MS. In each run, two or three prostanoids were determined.     

Isolation of prostacyclin from whole blood

A method was developed for the isolation of prostacyclin (PGI₂) from whole blood in a fraction suitable for high pressure liquid chromatography (HPLC) separation of PGI₂ and 6-keto-prostaglandin F_1α (6-K-PGF_1α). Prostacyclin was stabilized in whole blood by rapidly raising the pH to 10 with Na₂CO₃ and cooling the samples to 0°C. Under these conditions, 2.9% hydrolysis was observed after 20 min. Reverse phase extraction columns were used to directly extract both PGI₂ and 6-K-PGF_1α from the alkaline plasma with recoveries of greater than 95% using an acetonitrile/2mM Na₂B₄O₇, pH 10, elution solvent mixture. An additional 1.7% hydrolysis was found during the column extraction procedure. Final separation of PGI₂ and 6-K-PGF_1α was performed with HPLC using an alkaline solvent system. This method is capable of rapidly and efficiently extracting and separating PGI₂ and 6-K-PGF_1α from whole blood or plasma. It introduces less than 5% hydrolysis of PGI₂, thus providing a means of applying highly sensitive 6-K-PGF_1α assays to the determination of PGI₂ levels in physiological samples.     

Bio-synthesis of PGD2 and TXB2 by rabbit blood monocytes

A method for the preparation of a highly purified sample of rabbit blood monocytes is described. The metabolism of arachidonic acid (AA) in these cells was studied. Mononuclear cells were prepared by centrifugation on Ficoll-Paque gradients and the monocytes were obtained by further centrifugation and adherence onto plastic culture dishes. These procedures provided a preparation which contained 95% monocytes (non-specific esterase positive). Incubation of [1-¹⁴C]-AA with these cells produced four major metabolites which were separated by TLC; these corresponded to prostaglandin (PG) D₂, thromboxane (TX) B₂, 12-hydroxyheptadecatrienoic acid (HHT) and 12-/15- hydroxyeicosatetraenoic acid (HETE). A minor product which co-migrated with PGE₂ was also detected but neither 6-keto-PGF_1α nor PGF_2α were detected. Also, there was no evidence of the formation of 5-lipoxygenase products (5-HETE and LTB₄) by rabbit monocytes with or without calcium-ionophore A23187-stimulation. The production of PGD₂, TXB₂ and PGE₂ was further confirmed by analyzing [³H]-AA metabolites using high-performance liquid chromatography (HPLC) with tritiated standards as references. The biosynthesis of these compounds from endogenous substrate in A23187-stimulated monocytes was confirmed by specific radioimmunoassays with or without prior HPLC separation. The synthesis of immunoreactive LTB₄ and LTC₄ by A23187-stimulated cells was also monitored and found to be relatively low. The synthesis of PGD₂, TXB₂ and PGE₂ from both exogenous and endogenous substrate was suppressed by treatment of the monocytes with indomethacin (10⁻⁶ M).     

Analysis of the thromboxane/prostacyclin balance in human urine by gas chromatography/selected ion monitoring: abnormalities in diabetics

We microanalyzed 2,3-dinor-6-keto-prostaglandin F_1α (2,3-dinor-6-keto-PGF_1α 1) and 11-dehydrothromboxane B₂ (11-dehydro-TXB₂, 2) in human urine. Samples containing a [²H₄]-analogue as an internal standard were extracted by chromatography using Sep Pak tC18 and silica gel. The compounds were then analysed by means of the lactone ring opening reaction and dimethylisopropylsilylation. The conversion of 1 to 1-methyl ester (ME)-propylamide (PA)-9,12,15-dimethylisopropylsilyl (DMIPS) ether derivative and of 2 to 1-ME-6-methoxime (MO)-9,12,15-tris-DMIPS ether derivative was followed by gas chromatography/selected ion monitoring (GC/SIM). Interfering substances from the urine matrix were eliminated during GC/SIM analysis using a DB-5 column. We were able to detect 1 (222–1031 pg/mg creatinine) and 2 (18–155 pg/mg creatinine) in human urine. Furthermore, the thromboxane/prostacyclin (IX/PGI) ratio in the urine of diabetics was higher than that of healthy volunteers. This method can be used to determine the TX/PGI balance in human urine.     

Testing the “redirection hypothesis” of prostaglandin metabolism in the kidney

Furosemide increases the synthesis of two major renal eicosanoids, prostacylin (PGI₂) and thromboxane A₂ (TXA₂), by stimulating the release of arachidonic acid which in turn is metabolized to PGG₂/PGH₂, then to PGI₂ and TXA₂. PGI₂ may mediate, in part, the early increment in plasma renin activity (PRA) after furosemide. We hypothesized that thromboxane synthetase inhibition should direct prostaglandin endoperoxide metabolism toward PGI₂, thereby enhancing the effects of furosemide on renin release. Furosemide (2.0 mg.kg⁻¹ i.v.) was injected into Sprague-Dawley rats pretreated either with vehicle or with U-63, 557A (a thromboxane synthetase inhibitor, 2 mg/kg⁻¹ followed by 2 mg/kg⁻¹.hr⁻¹). Urinary 6ketoPGF₁ α and thromboxane B₂ (TXB₂), reflecting renal synthesis of PGI₂ and TXA₂, as well as PRA and serum TXB₂, were measured. Serum TXB₂ was reduced by 96% after U-63, 557A. U-63, 557A did not affect the basal PRA. Furosemide increased PRA in both vehicle and U63, 557A treated rats. However, the PRA-increment at 10, 20 and 40 min following furosemide administration was greater in U-63, 557A-treated rats than in vehicle-treated rats and urine 6ketoPGF₁ α excretion rates were increased. These effects of thromboxane synthesis inhibition are consistent with a redirection of renal PG synthesis toward PGI₂ and further suggest that such redirection can be physiologically relevant.