Determination of cyclooxygenase products and prostaglandin metabolites using high-pressure liquid chromatography and radioimmunoassay.

A method is described for measurement of the cyclooxygenase products, thromboxane,prostacyclin, and prostaglandins (PG), and several prostaglandin metabolites. The procedure involves separation of the compounds by high-pressure liquid chromatography combined with identification and estimation by serologic analysis. These combined procedures have been used to identify and estimate five such products, PGE₂, PGE₁ PGF2α, PGF_1α, and 6-keto-PGF_1α, in the culture fluids of dog kidney cells stimulated by a tumor-promoting phorbol diester. The prostaglandin metabolites, 13,14-dihydro-15-keto-PGE₂, 13,14-dihydro-15-keto-PF2_2α, 13,14-dihydro-PGE₂, and 13,14-dihydro-PGF_2α, were not found in these culture fluids.     

Patterns of prostaglandin synthesis and degradation in isolated superficial and proliferative colonic epithelial cells compared to residual colon

Prostaglandin (PG) synthesis and degradation were examined in different regions (epithelial versus non-epithelial structures) of the rat distal colon by both HPLC analysis of [¹⁴C] arachidonate (AA) metabolites and by specific radioimmunoassays. Intact isolated colonic epithelial cells synthesized mainly PGF₂α and TXA₂, as monitored from the formation of its stable degradation product TXB₂ (PGF_2α > TXB₂ > 6-keto-PGF_1α, the stable degradation product of PGI₂=PGD₂=PGE₂=13,14-dihydro-15-keto-PGF_2α). The profile of PG products of isolated surface epithelial cells was identical to that of proliferative epithelial cells. However, generation of PGs by surface epithelium was 2 to 3-fold higher than by proliferative cells both basally and in the presence of a maximal stimulating concentration (0.1 mM) of AA. The latter implied a greater synthetic capacity of surface epithelium, rather than differences due to endogenous AA availability. The major sites of PG synthesis in colon clearly resided in submucosal structures; the residual colon devoid of epithelial cells accounted for at least 99% of the total PGs produced by intact distal colon. The profile of AA metabolites formed by submucosal structures also differed markedly from that of the epithelium. The dominant submucosal product was PGE₂. PGE₂ and its degradation product 13,14-dihydro-15-keto-PGE₂ accounted for 63% of the PG products formed by submucosal structures (PGE₂ PGD₂ > 13,14-dihydro-15-keto-PGE₂ > PGF_2α=TXB₂=6-keto-PGF_1α > 13,14-dihydro- 15-keto-PGF_2α). By contrast, epithelial cells, and particularly surface epithelium, contributed disproportionately to the PG degradative capacity of colon, as assessed from the metabolism of either PGE₂ or PGF_2α. When expressed as a percentage, epithelial cells accounted for 71% of total colonic PGE₂ degradative capacity but only 23% of total colonic protein. Approximately 15% of [³H] PGE₂ added to the serosal side of everted colonic loops crossed to the mucosal side intact. Thus, at least a portion of the PGE₂ formed in the submucosa reaches, and thereby can potentially influence functions of the epithelium.     

Transient cerebral ischemia and brain prostaglandins.

Prostaglandin levels were measured in gerbil brain during cerebral ischemia for up to 2 hours, and during reperfusion after various periods of transient ischemia. The levels of PGF_2α and its metabolite (13,14-dihydro-15-keto-PGF_2α) were low and did not change during ischemia. However, PGF_2α, 13,14-dihydro-15-keto-PGF_2α, PGE₂, and thromboxane B₂ increased during reperfusion after brief episodes of ischemia. Indomethacin or aspirin inhibited this increase. Animals pretreated with indomethacin recovered more rapidly and were more active during reperfusion than those without treatment.     

Rat osteogenic sarcoma cells: Effects of some prostaglandins, their metabolites and analogues on cyclic AMP production

Cyclic AMP production by freshly isolated cells, from a ³²P-induced transplantable rat osteogenic sarcoma, was stimulated by PGE₁, PGE₂ and to a less extent by PGF_2α and PGA₂. In the case of PGE₂, the cyclic AMP content of cells was miximal within 5 min. The 13, 14-dihydro derivatives of PGE₁, PGE₂ and PGF_2α had approximately 40% of the activity of the parent prostaglandin whilst, in every case, the metabolites (15-keto and 13,14-dihydro-15-keto) had very little activity. Two prostaglandin endoperoxide analogues (U44069 and U46619) had only 10% of the activity of an equimolar dose of PGE₂. The data presented in this paper demonstrates similarities between the responses of these cells and cells derived from bony tissue in terms of the ability of prostaglandins to stimulate bone resorption in tissue culture.     

Maternal and fetal prostaglandin concentrations during late gestation in dairy cattle

A study was conducted to measure the blood plasma concentrations of prostaglandin F_2α (PGF_2α), 13,14-dihydro-15-keto-prostaglandin F_2α (PGFM), prostaglandin E₂ (PGE₂) and 13,14-dihydro-15-keto-prostaglandin E₂ (PGEM) in the jugular vein, umbilical vein and artery and uterine vein of 18 Holstein Friesian cows during late gestation. A caesarean section was performed on all cows before term in order to obtain blood samples from the different sources. Plasma PG concentrations in the uterine or fetal circulation were significantly higher than in jugular vein plasma. Correlations between peripheral PG metabolite concentrations and primary PG concentrations in the various sources of the uterus or fetus were not significant (r = .17 − .47) and demonstrated that prostaglandin values based upon peripheral blood alone are of limited value.     

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 and metabolism of prostaglandins E2, F2α and D2 by the rat gastrointestinal tract. Stimulation by a hypertonic environment in vitro

Whole cell preparations of rat stomach corpus, jejunum, and colon were incubated and the released prostaglandin E₂ (PGE₂), PGF_2α, PGD₂, 15 keto-13,14 dihydro PGE₂, and 15 keto-13,14 dihydro PGF_2α were measured by combined gas chromatography-mass spectrometry. All regions made PGD₂ and possessed a high capacity for producing 15 keto-13,14 dihydro derivatives of both PGE₂ and PGF_2α. Hypertonic sucrose solutions resulted in concentration-dependent increases in prostaglandin release, particularly of PGE₂ and its metabolite. It is suggested that PG's may play a role in the local effects of luminal hyperosomolarity on digestive tract functions.     

Levels of 13,14-dihydro-15-keto-PGE2 in some biological fluids as measured by radioimmunoassay

A rabbit antiserum directed toward the prostaglandin E₂ metabolite 13,14-dihydro-15-keto-prostaglandin E₂ (KH₂PGE₂) was produced by immunization with a human albumin-KH₂PGE₂ conjugate. The antiserum recognized the 15-keto-group (it cross reacts with 13,14-dihydro-prostaglandin E₂ 0.2%); the saturated 13,14-bond (it cross reacts with 15-keto-prostaglandin E₂ 7%); the 9-keto group (it cross reacts with 13,14-dihydro-15-keto-prostaglandin F_2α 5%); and the 11-hydroxy group (it cross reacts with 13,14-dihydro-15-keto-PGA₂ 0.4%).By subjecting the antiserum to preparative isoelectric electrofocusing, populations of antibodies that varied in their cross reaction with 13,14-dihydro-15-keto-prostaglandin F_2α (KH₂PGF_2α) from 20% to 1% were obtained. The levels of KH₂PGE₂ in plasma of rat and mouse as measured by radioimmunoassay of the unfractionated plasma were 0.39 ± 0.07 ng/ml and 0.41 ± 0.13 ng/ml, respectively. Recovery of exogenously added KH₂PGE₂ from human plasma was 100%. Radioimmunoassay with two antisera; an antiserum directed toward KH₂PGF_2α that cross reacts with KH₂PGE₂ 1% and the antiserum to KH₂PGE₂, demonstrated that KH₂PGE₂, not KH₂PGF_2α, was being measured with the anti-KH₂PGE₂. The levels of KH₂PGE₂ in rat plasma did not vary with sex. In rats, the levels of KH₂PGE₂ markedly increased after exercise stress.In mice carrying a spindle-cell sarcoma (SAI) and a fibrosarcoma (SaD2), the levels of KH₂PGE₂ in the plasma increased with time after transplantation. The increase was not observed in the plasma of mice carrying a transplantable anaplastic carcinoma (15091AK), a lymphatic leukemia (AW5147), two mammary adenocarcinomas (CADI, CAD2), a myeloid leukemia (C1498), and a hepatoma (BW7756).     

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.     

Effects of indomethacin, prostaglandin E2, prostaglandin F2α and 6-keto-prostaglandin F1α on hatching of mouse blastocysts

The present study has been performed to investigate how PGs would participate the hatching process. Effects of indomethacin, an antagonist to PGs biosynthesis, on the hatching of mouse blastocysts were examined in vitro. Furthermore, it was studied that prostaglandin E₂ (PGE₂), prostaglandin F_2α (PGF_2α) or 6-keto-prostaglandin F_1α (6-keto-PGF_1α) were added to the culture media with indomethacin. (1) The hatching was inhibited by indomethacin yet the inhibition was reversible. (2) In the groups with indomethacin and PGE₂, no improvement was seen in the inhibition of hatching and the inhibition was irreversible. (3) In the groups with indomethacin and PGF_2α, inhibition of hatching was improved in comparison with the group with indomethacin. (4) In the groups with indomethacin and 6-keto-PGF_1α, no improvement was seen. The above results indicated that PGF_2α possibly had an accelerating effect on hatching and a high concentration of PGE₂ would exert cytotoxic effect on blastocysts.     

Effects of oestradiol, progesterone, hydrocortisone and oxytocin on prostaglandin output from the guinea-pig endometrium maintained in tissue culture

The effects of oestradiol, oxytocin, progesterone and hydrocortisone on prostaglandin (PG) output from guinea-pig endomerium, removed on days 7 and 15 of the oestrous cycle and maintained in tissue culture for 3 days, have been investigated. Oetradiol (3.7 to 3700nM) and oxytocin ( 2 to 200pM) did not stimulate endometrial PGF_2α output, thus not confirming the findings of a previous report (Leaver & Seawright, 1928), nor did they stimulate the outputs of PGE₂ and 6-keto-PGF_1α. In fact, oestradiol (3700nM) inhibited the outputs of PGF_2α, PGE₂ and, to a lesser extent, 6-keto-PGF_1α. Progesterone (3.2 to 3200nM) inhibited the outputsof PGF_2α and PGE₂; hydrocortisone (2.8 to 2800nM) had no effect on endometrial PG output. These findings indicate that the inhibitory effect of progesterone on endometrial PG synthesis and release in the guinea-pig is not due to progesterone having a glucocorticoid-like action. Furthermore, progesterone had no effect on 6-keto-PGF_1α output, suggesting that the mechanisms controlling endometrial PGI₂ synthesis (as reflected by measuring 6-keto-PGF_1α) are different from those controlling endometrial PGF_2α and PGE₂ synthesis.     

Plasma prostaglandin levels and circulating fuel levels in rats with diabetic ketoacidosis: Effects of cyclooxygenase inhibitors and of alpha and beta adrenergic blockade

We studied the effects of two structurally unrelated inhibitors of the fatty acid cyclooxygenase and of alpha and beta adrenergic blockade on the elevated plasma levels of 13,14-dihydro-15-keto-prostaglandin (PG)E₂, 6-keto-PGF_1α and thromboxane(TX)B₂, the stable derivatives of PGE₂, PGI₂ (prostacyclin) and TXA₂, respectively, in rats with streptozotocin-induced diabetic ketoacidosis (DKA). Meclofenamic acid and indomethacin each produced a significant decrease in the elevated plasma levels of 13,14-dihydro-15-keto-PGE₂, 6-keto-PGF_1α and TXB₂. Phentolamine significantly reduced the plasma level of TXB₂ but had no effect on the elevated circulating levels of glucose, free fatty acids, total ketones, 13,14,-dihydro-15-keto-PGE₂ or 6-keto-PGF_1α. Propranolol significantly reduced the elevated circulating levels of glucose, free fatty acids and total ketones but had no effect on the levels of the three prostaglandin derivatives. The ability of meclofenamic acid and indomethacin to reduce the plasma levels of 13,14-dihydro-15-keto-PGE₂, 6-keto-PGF_1α and TXB₂ confirms that the plasma levels of these three derivatives are elevated in rats with DKA. Since abnormalities in the production of PGI₂ and perhaps other cyclooxygenase derivatives may contribute to the pathogenesis of certain important hemodynamic and gastrointestinal features of DKA, cyclooxygenase inhibitors may play a role in the management of selected patients with this disorder. Alpha adrenergic activity is essential for the maintenance of the elevated plasma TXB₂ level in rats with DKA. The fall in the plasma TXB₂ level during alpha adrenergic blockade appears to reflect inhibition of platelet aggregation and platelet TXA₂ production, but other sources of the elevated plasma TXB₂ level in DKA are not excluded. Beta adrenergic activity contributes to the maintenance of elevated circulating levels of glucose, free fatty acids and total ketones in experimental DKA but not to the elevated plasma levels of the prostaglandin derivatives.     

A radioimmunoassay for 13,14-dihydro-15-keto prostaglandin F2α with chromatography and internal recovery standard

Antibodies to the 13,14-dihydro-15-keto metabolite of prostaglandin F_2α(PGF_2αM) were raised in sheep using a bovine thyroglobulin conjugate of PGF_2αM. Labeled 13,14-dihydro-15-keto prostaglandin A₂ (PGA₂M), 13,14-dihydro-15-keto prostaglandin E₂ (PGE₂M) and PGF_2αM were prepared from their corresponding high specific activity parent prostaglandins with swine kidney homogenate and purified using reverse phase liquid-liquid partition chromatography. A rapid method of column chromatography for use prior to radioimmunnoassay was developed.Mathematical corrections for the effect of recovery tracer on the logit/log transformation are presented with a new approach to expression of radioimmunoassay cross reactions allowing continuous expression of the variation of these cross reactions with displacement. These mathematical approaches are widely applicable to other radioimmunoassay systems and transformations.The assay was used for measurement in groups of human volunteers: males, females, women at delivery and paired venous umbilical cord bloods. A correlation between venous cord and maternal peripheral PGF_2αM levels is demonstrated with a gradient from the cord plasma to maternal plasma.     

Prostaglandins and prostaglandin metabolites in human gastric juice

Human gastric juice contains higher concentrations of PG metabolites than of unmetabolized PG indicating that local metabolism might play a role in limiting the biological activity of PG in gastric mucosa and has to be considered when investigating endogenous gastric PG. A major fraction of the 15-keto-13,14-dihydro-PGE₂ (KH₂PGE₂) formed in gastric mucosa and released into the gastric lumen seems to be rapidly dehydrated to a compound co-chromatographing with KH₂PGA₂, while the amounts of the bicyclic degradation product 11-deoxy-13,14-dihydro-15-keto-11,16-cyclo-PGE₂ (11-deoxy-KH₂-cyclo-PGE₂), as measured by radioimmunoassay, in freshly extracted gastric juice are negligible. Stimulation of secretion with pentagastrin does not influence significantly the concentrations of PG and PG metabolites in human gastric juice, but total output tends to increase parallel to the increase in secretion volume. Levels of immunoreactive 6-keto-PGF_1α in human gastric juice are much lower than those of PGE₂. Since human gastric mucosa synthesizes considerable amounts of PGI₂ and 6-keto-PGF_1α in vitro, the low levels of 6-keto-PGF_1α in gastric juice might indicate that PGI₂ formed by gastric mucosa in vivo is, like PGE₂ and PGF_2α, rapidly metabolized and/or removed preferentially via the blood stream.     

Bronchopulmonary effects of prostaglandin F2α and three of its metabolites in the dog

The airway and lung dynamics of prostaglandin F_2α (PGF_2α) and three of its metabolites were examined in the spontaneously-ventilated, pentobarbital anesthetized dog. Changes in expiratory flow rate, tidal volume, respiration rate, lung resistance and dynamic lung compliance were evaluated and compared quantitatively. In a dose range of 0.3–3.0 μg/kg i.v., PGF_2α and its 13,14-dihydro metabolite were found to be exceptionally potent agents. This metabolite was approximately twice as potent as PGF_2α on most parameters studied. Two other metabolites, 15-keto-PGF_2α and 15-keto-13,14-dihydro-PGF_2α, were only slightly effective, even in a dose range of 1.0–30.0 μg/kg i.v. These latter two metabolites produced dose-response curves with significantly shallower slopes than PGF_2α and were shown to be at least thirty-five times less potent than the parent compound. Therefore, oxidation of PGF_2α at the carbon-15 position by 15-hydroxy prostaglandin dehydrogenase appears to produce compounds with minimal bronchopulmonary activity.     

Trisomy 21 (Down's syndrome). Glutathione peroxidase, hexose monophoshate shunt and I.Q.

This work was undertaken to determine the ability of human prostate tissue to synthesize prostaglandin F₂ alpha and to metabolize the F₂ alpha to 15-keto-PGF₂ alpha, 13,14-dihydro-15-keto-PGF₂ alpha and 13,14-dihydro-PGF₂ alpha. Surgically obtained prostate tissue was incubated with either ³H-arachidonic acid or ³H-PGF₂ alpha and incorporation of tritium into PGF₂ alpha or the aforementioned metabolites was determined. The identity of these substances was corroborated by gas chromatography and chemical ionization mass spectrometry. Significant increases above control levels were obtained when testosterone and lactogen were added to the incubation mixture. Maximal biosynthesis and metabolism of the prostaglandin was obtained when androgen and lactogen were present together. It is believed that androgen and lactogen produce a synergistic acceleration of PGF₂ alpha synthesis and metabolism.     

Catabolism of prostaglandin F2α in rat ovary : Differences between ovarian and uterine tissues

The catabolism of prostaglandin F_2α(PGF_2α) in rat ovarian homogenate was studied comparing with uterine homogenate. Two kinds of metabolite were recognized by incubation of PGF_2α with ovarian or uterine homogenate; 13,14-dihydro-15-keto-PGF_2α(15KD-PGF_2α) and 13,14-dihydro-PGF_2α(13,14H₂-PGF_2α) in ovarian homogenate and 15-keto-PGF_2α(15K-PGF_2α) and 15KD-PGF_2α in uterine homogenate. Incubation of 15KD-PGF_2α with ovarian homogenate resulted in the formation of 13,14H₂-PGF_2α but incubation with uterine homogenate did not produce 13,14H₂-PGF_2α. 13,14H₂-PGF_2α was in accord with Rf value of a compound formed by reduction of 15KD-PGF_2α with sodium borohydride.     

Characterisation of the prostanoid receptors mediating contraction of guinea-pig isolated trachea

The receptors mediating prostanoid-induced contraction of guinea-pig isolated trachea have been characterised in terms of a recently proposed general classification of prostanoid receptors. Results obtained on the trachea were compared with those obtained on guinea-pig fundus, which contains a sub-type of PGE₂-sensitive (EP-) receptor termed the EP₁-receptor, and guinea-pig lung strip, which contains a thromboxane-sensitive or TP-receptor. The following agonists were studied, PGE₂, PGF₂α and the thromboxane-like agonists U-46619 and Wy17186. The antagonists studied were SC-19220 which selectivity blocks EP₁-receptors, and AH19437 which selectively blocks TP-receptors. On guinea-pig fundus the rank order of agonist potency was PGE₂ > PGF₂α > Wy17186 U-46619, and responses to all agonists were antagonised by SC-19220 but not by AH19437. On guinea-pig lung strip the rank order of potency was U-46619 > Wy17186 PGF₂α > PGE₂ and responses to all agonists tested were blocked by AH19437 but not by SC-19220. On the trachea, the rank order was PGE₂ = U-46619 > Wy17186 = PGF₂α. SC-19220 antagonised responses to PGE₂ and PGF₂α, but not those to U-46619 or Wy17186. Conversely, AH19437 antagonised responses to U-46619 and Wy17186 but not those to PGE₂ or PGF₂α. It is concluded that prostanoid-induced contractions of guinea-pig trachea can be mediated by both EP₁- and TP-receptors.     

Hypoxia enhances prostaglandin synthesis in renal mesangial cell cultures

In view of recent findings which suggest that renal prostaglandins mediate the effect of hypoxia on erythropoietin production, we have studied whether hypoxia is a stimulus for in vitro prostaglandin synthesis. Studies were carried out in rat renal mesangial cell cultures which produce erythropoietin in an oxygen-dependent manner. Production rates of PGE₂ and in specified samples also of 6-keto-PGF_1α, as a measure of PGI₂, and PGF_2α were determined by radioimmunoassay after incubation at either 20% O₂ (normoxic) or 2% O₂ (hypoxic) in gas permeable dishes for 24 hrs. Considerable variation in PGE₂ production was noted among independent cell lines. PGE₂ production appeared to be inversely correlated to the cellular density of the cultures. In addition, PGE₂ production was enhanced in hypoxic cell cultures. The mean increase was 50 to 60%. PGF_2α and 6-keto-PGF_1α increased by about the same rate. These results indicate that hypoxia is a stimulus for in vitro prostaglandin production.     

Pharmacological modulation of prostaglandin production by phagocytic cells of the thymic reticulum in relation to immunoregulation

We cultured phagocytic cells derived from the thymic reticulum in order to study the regulation of prostaglandin (PG) production by antiinflammatory or immunostimulating agents. The kinetics of PGE₂, 6-keto-PGF_1α and PGF_2α production were measured by specific radioimmunoassays of the supernatants harvested from cells treated with dexamethasone, a steroidal antiinflammatory drug and by two non steroidal inhibitors (indomethacin and sulindac) or by various immunostimulating agents, one of them, RU 41740 is currently being used in humans. Our results revealed that ech of these drugs exerts a differential effect on the PG production, with a striking action on PGE₂ synthesis, a lesser effect on 6-keto-PGF_1α production and almost no effect on PGF_2α synthesis. The possible mechanisms responsible for this complex regulation of PG production are discussed.