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.     

The metabolism of arachidonic acid in isolated perfused fetal and neonatal rabbit lungs

The developmental pattern of fetal and neonatal rabbit lungs to metabolize arachidonic acid (AA) to different cyclo-oxygenase products was studied in isolated rabbit lungs, which were perfused with Krebs bicarbonate buffer. ¹⁴C-AA (66 nmol) was injected into the pulmonary circulation and the nonrecirculating perfusion effluent was collected for four minutes. About ten per cent of the injected radioactivity was found in the 0–4 min perfusion effluent. The metabolites of AA in the effluent were analyzed by thin layer chromatography. The major metabolites of AA were PGE₂ and its 15-keto-derivates, but also PGF_2α and its 15-keto-derivates, TXB₂ and 6-keto-PGF_1α were found in the effluent. The most drastic developmental change was the increase in the amount of 15-keto-metabolites of PGE₂ from late fetal period to the lungs of one day old rabbits (1.8 fold increase between birth and first postnatal day). Smaller changes were detected in the amounts of other cyclo-oxygenase products.     

Effect of alpha-adrenergic stimulation on prostacyclin and renin release in the rat kidney

The relationship between renin secretion and PGI₂ production, in response to intrarenal infusion of norepinephrine, was examined in the isolated perfused rat kidney. Infusion of norepinephrine in a dose which caused substantial vasoconstriction (100 ng/min), markedly increased urinary excretion of 6-keto PGF_1α, the stable derivative of PGI₂, without significantly altering renin secretion measured in the effluent perfusate. No change in urinary 6-keto PGF_1α occurred when vasoconstriction was prevented by infusing the alpha-adrenoceptor blocking drug phenoxybenzamine (2 × 10³ ng/min) alongside norepinephrine 100 ng/min). However, under these conditions there was marked stimulation of renin secretion which, as has been demonstrated previously, is mediated by a beta-adrenoceptor. There were significant increase in urine flow rates during both vasoconstrictor and non-vasoconstrictor infusions. These findings clearly indicate that in the rat kidney prostacyclin production and renin release in response to norepinephrine are dissociated.     

Sulindac does not preserve renal prostacyclin synthesis during endotoxemia

Previous reports have suggested that sulindac is a unique non- steroidal anti-inflammatory (NSAID) agent, because it does not inhibit renal prostaglandin synthesis in doses that inhibit platelet thromboxane B₂ synthesis when tested . NSAIDS are of potential therapeutic benefit in the treatment of septic or endotoxic shock. Therefore, this study was designed to investigate the proposed unique action of sulindac in experimental endotoxemia. In the current study, the effect of sulindac on aortic, portal and renal venous immunoreactive (i) 6-keto-PGF_1α levels, the stable metabolite of prostacyclin, was investigated during endotoxemia in the rat. In doses sufficient to reduce the elevation in aortic and portal venous plasma 16-keto- PGF_1α levels, sulindac also significantly (p < 0.05) attenuated the elevated renal venous plasma 6-keto-PGF_1α levels, compared to the vehicle group. Using lower doses, sulindac failed to reduce the endotoxin associate increased in either aortic or renal venous plasma 16-keto-PGF_1α levels. Thus, sulindac failed to demonstrate any selective sparing effect on renal prostacyclin generation during endotoxemia.     

Cigarette smoke ventilation decreases prostaglandin inactivation in rat and hamster lungs

The effects of cigarette smoke on the metabolism of exogenous PGE₂ and PGF_2α were investigated in isolated rat and hamster lungs. When isolated lungs from animals were ventilated with cigarette smoke during pulmonary infusion of 100 nmol of PGE₂ or PGF_2α, the amounts of the 15-keto-metabolites in the perfusion effluent were decreased. Pre-exposure of animals to cigarette smoke daily for 3 weeks did not change the metabolism of PGE₂ when the lungs were ventilated with air. Cigarette smoke ventilation of lungs from pre-exposed animals caused, however, a similar decrease in the metabolism of PGE₂ as in animals not previously exposed to smoke. After pulmonary injection of 10 nmol of ¹⁴C-PGE₂ the radioactivity appeared more rapidly in the effluent during cigarette smoke ventilation suggesting inhibition of the PGE₂ uptake mechanism. In rat lungs pulmonary vascular pressor responses to PGE₂ and PGF_2α were inhibited by smoke ventilation.     

Enhanced formation of PGI2, a potent hypotensive substance, by aortic rings and homogenates of the spontaneously hypertensive rat

Intact rings and homogenates of aorta from spontaneously hypertensive rats (SHR) contain enhanced capacity over normal rats (NR) to convert arachidonic acid into PGI₂. The PGI₂ synthetic system in SHR is stimulated to a greater extent than NR by norepinephrine. Indomethacin blocks this stimulation. PGE₂ and PGF_2α were detected in much smaller amounts in homogenates (undetected in rings) but their formation was not enhanced by the hypertensive tissue. The identity of PGI₂ was based on 1) direct pharmacological assay on the rat blood pressure. In this system identical vasodepressor responses to PGI₂ are observed after intracarotid and intrajugular administration 2) indirectly as 6-keto PGF_1α isolated after incubation of aortic homogenates with tritiated arachidonic acid and 3) indirectly by GC-MS assay of PGE₂, PGF_2α and 6-keto PGF_1α formed during incubation of aortic homogenates with excess unlabeled arachidonic acid. These results provide additional support to our recent hypothesis that PGI₂, of aortic origin, might actively participate in the regulation of systemic blood pressure. Its enhanced formation by intact hypertensive vascular tissue reflects an increase in the number of enzyme molecules immediately available to the substrate. This could probably be an adaptive response to the elevated levels of catecholamines in the circulation.     

Dual actions of prostacyclin (PGI2) on the rat pregnant uterus

Using strips of rat pregnant uterus, treated with indomethacin to suppress spontaneous contractility, the oxytocic activity of prostacyclin was compared with other prostaglandins. A prostacyclin concentration of 32 ng/ml elicited uterine contractions in all experiments. In this respect prostacyclin was 80 times more active than 6-oxo-PGF_1α but less active than PGE₂ or PGF_2α. Apart from a direct stimulant effect, prostacyclin also exhibited an indirect potentiating action. In threshould concentrations prostacyclin caused a 3-fold potentiation of threshold doses of oxytocin. A lesser 1.5-fold potentiation of PGF_2α was also observed. The implications of these findings in relation to prostacyclin playing a role in parturition are discussed.     

Prostaglandin release by slow reacting substance from guinea pig and human lung tissue

Slow reacting substance (SRS) injected into the pulmonary artery released prostaglandin E (PGE) and F_2α (PGF_2α) and the 15-keto-13, 14-dihydro PG metabolites from non-sensitized and ovalbumin sensitized, isolated, perfused guinea pig lungs. PGs were also released from lungs incubated with SRS. Sensitized lungs released more PGs in both types of preparations. Indomethacin inhibited the effect of SRS. Passively sensitized human lung fragments, in parallel to guinea pig lung, released PGE, PGF_2α and the metabolites when incubatted with SRS or antigen. In experiments, SRS and arachidonic acid given intravenously increased the airway insufflation pressure in anesthetized guinea pigs. These effects, but not the action of injected PGF_2α and histamine, were abolished by indomethacin. The results indicate that one of the modes of SRS action is by release of PGs, and are consistent with the hypothesis that PGs are predominantly “secondary” mediators (in the temporal sense) of the antigen-antibody reaction.     

Thromboxane and pulmonary hypertension following E. coli endotoxin infusion in sheep: Effect of an imidazole derivative

We assessed the effect of a specific thromboxane synthetase inhibitor (an imidazole derivative) on pulmonary hemodynamics and the concentrations of TxB₂ (TxA₂), 6-keto-PGF_1α (PGI₂), and PGF_2α in pulmonary lymph and transpulmonary blood samples following intravenous administration of E. coli endotoxin (1 μg/kg) in sheep. In control animals the rise in pulmonary artery pressure correlated with increases in plasma and lymph TxB₂ concentrations and large transpulmonary concentration gradients of this metabolite were measured. In imidazle treated animals both pulmonary hypertension as well as increases in plasma and lymph TxB₂ concentrations were substantially reduced. In contrast, peak concentrations of 6-keto-PGF_1α (PGI₂) and PGF_2α were severalfold higher than those measured in control animals. This suggests a shunting of endoperoxide metabolism towards prostacyclin and primary prostaglandins and documents the specificity of the thromboxane synthetase inhibitor. Out study provides evidence that endotoxin-induced pulmonary hypertension is mediated by pulmonary synthesis of TxA₂.     

Acetylcholine induces vasodilation and prostacyclin synthesis in rat lungs

Acetylcholine causes pulmonary vasodilation, but its mechanism of action is unclear. We hypothesized that acetylcholine-induced pulmonary vasodilation might be associated with prostacyclin formation. Therefore, we used isolated rat lungs perfused with a recirculating cell- and plasma-free physiological salt solution to study the effect of acetylcholine infusion on pulmonary perfusion pressure, vascular responsiveness and lung prostacyclin production. Acetylcholine (20 ug infused over 1 minute) caused immediate vasodilation during ongoing hypoxic vasoconstriction and prolonged depression of subsequent hypoxic and angiotensin II-induced vasoconstrictions. Both effects of acetylcholine were abolished by atropine pretreatment. The prolonged acetylcholine effect, but not the immediate response, was blocked by meclofenamate, an inhibitor of cyclooxygenase. The prolonged effect, but not the immediate response, of acetylcholine was associated with an increase in perfusate 6-keto-PGF_1α concentration. The acetylcholine stimulated increase in 6-keto-PGF_1α production was inhibited by meclofenamate and by atropine. Thus, blockade of prostacyclin production corresponded with blockade of the prolonged acetylcholine effect. In conclusion, acetylcholine caused in isolated rat lungs an immediate vasodilation and a prolonged, time-dependent depression of vascular responsiveness. Whereas both acetylcholine effects were under muscarinic receptor control, only the prolonged effect depended on the cyclooxygenase pathway and, presumably, protacyclin synthesis.     

Sex differences in platelet thromboxane and arterial prostacyclin production in control and n-6 fatty acid supplemented rats

Sex differences in eicosanoid production in platelets and vessel walls have been studied in control and n-6 fatty acid supplemented rats. In platelet rich plasma (PRP) of control female rats, arachidonic acid (AA) levels in phospholipids (PL), thromboxane B₂ (TxB₂) formation following collagen stimulation and aggregatory responses to collagen were higher than in PRP of male rats. 6 keto PGF_1α release from PRP-perfused isolated aortas were the same for both sexes, but the antiaggregatory activity of the wall was higher in males than in females, in association with a greater sensitivity of male platelets to prostacyclin.The administration of n-6 fatty acid supplements increased AA level in PL, TxB₂ production and aggregation only in male platelets. Production of 6 keto PGF_1α and the antiaggregatory activity of aortic walls were reduced after dietary treatment in males, but biochemical and functional parameters were not correlated in females.The results indicate complex sex-related differences in fatty acid metabolism and eicosanoid production, and in responses to n-6 dietary fatty acids in platelets and the vascular system in the rat.     

Metabolism of prostaglandin F1α in the pulmonary circulation

³H_5,6-Prostaglandin F_1α is largely eliminated from the circulation during a single passage through the pulmonary vascular bed. Its elimination requires cellular uptake. The volume of distribution and the mean transit time of the radioactivity are greater than those of an intravascular marker, blue dextran. The lungs retain 25–30% of the radioactivity, most in the form of a metabolite less polar than PGF_1α itself. The pulmonary venous effluent contains the same metabolite along with some unmetabolized PGF_1α. The metabolite can be distinguished from prostaglandins of the A, B, D, E and F series. It is reduced on reaction with borohydride, but reduction does not yield PGF_1α. Na0H has no effect on the metabolite, a finding that rules out the presence of a β-hydroxy-ketone configuration of the ring structure. The chromatographic behavior of the metabolite and its reaction with borohydride are those expected of 9,11-hydroxy-15-ketoprostanoic acid.     

Metabolism of prostaglandin F1α in the pulmonary circulation

³H_5,6-Prostaglandin F_1α is largely eliminated from the circulation during a single passage through the pulmonary vascular bed. Its elimination requires cellular uptake. The volume of distribution and the mean transit time of the radioactivity are greater than those of an intravascular marker, blue dextran. The lungs retain 25–30% of the radioactivity, most in the form of a metabolite less polar than PGF_1α itself. The pulmonary venous effluent contains the same metabolite along with some unmetabolized PGF_1α. The metabolite can be distinguished from prostaglandins of the A, B, D, E and F series. It is reduced on reaction with borohydride, but reduction does not yield PGF_1α. NaOH has no effect on the metabolite, a finding that rules out the presence of a β-hydroxy-ketone configuration of the ring structure. The chromatographic behavior of the metabolite and its reaction with borohydride are those expected of 9,11-hydroxy-15-ketoprostanoic acid.     

Investigation of the vascular actions of arachidonate lipoxygenase and cyclo-oxygenase products on the isolated perfused stomach of rat and rabbit

The vascular actions of several prostanoids and arachidonate lipoxygenase products were investigated on the gastric circulation of rat and rabbit perfused with Kreb's solution. Under resting conditions, prostacyclin and PGE₂ produced small decreases in perfusion pressure with prostacyclin being the more potent. During vasoconstriction induced by infusion of noradrenaline, vasopressin or angiotensin II, prostacyclin was 20–40 times as active as PGE₂ as a gastric vasodilator in rat or rabbit stomach. PGF_2α was a less potent vasoconstrictor than noradrenaline, while the epoxy-methano endoperoxide analogue produced a long-lasting vasoconstriction. The putative metabolite, 6-oxo-PGE₁ was less active than prostacyclin as a vasodilator, having comparable activity to PGE₁, whereas 6-oxo-PGF_1α had very little activity. The endoperoxide, PGH₂ reduced perfusion pressure, this effect being inhibited by concurrent infusion of 15-HPETE. The vasodilation induced by arachidonic acid was likewise reduced by 15-HPETE, and abolished by indomethacin infusion. The arachidonate lipoxygenase hydroperoxides were vasodilator in the gastric circulation, the rank order of potency being 12-HPETE > 11-HPETE > 5-HPETE > 15-HPETE in both rat and rabbit stomach. It is possible that such vasoactive lipoxygenase products, may play modulator roles in the gastric mucosa.     

Effect of pulmonary oedema induced by α-naphthylthiourea on synthesis of cyclo-oxygenase products in rat isolated lungs

Synthesis of COP (prostaglandins; PG and thromboxanes; Tx) from exogenous and endogenous arachidonic acid (AA) was studied in isolated perfused lungs from rats treated in vivo with a single dose of α-naphthylthiourea (ANTU; 10mg/kg;). Lung dry: wet weight ratios showed changes characteristic of oedema between 6 and 16h after ANTU. Bioassay of COP showed that COP synthesis from exogenous AA was raised above control values in lungs from rats treated with ANTU, reaching a maximum at 16h after treatment. By radioimmunoassay, the major increase was in 6-oxo-PGF_1α, with lesser effects on PGE₂ and PGF_2α levels. Synthesis of bioassayable COP from endogenous AA induced by the calcium ionophore A23187 was increased as early as 2h after ANTU treatment and remained elevated up to 70h. In lungs 28h after ANTU, 6-oxo-PGF_1α release was greater than in normal lungs. These results show that in this model of pulmonary oedema, the potential for COP synthesis was increased. From the time course of this effect, increased COP synthesis was probably a response to the initial damage rather than a cause of the oedema.     

Prostacyclin induces a surprising long-lasting motility in quiescent uterine strips (indomethacin-treated) isolated from ovariectomized rats

Dose-response curves for several prostaglandins (PGI₂; PGD₂; PGF₂ and PGE₂); BaCl₂ or prostaglandin metabolites (15-keto-PGF_2α; 13, 14-diOH-15-keto-PGF_2α; 6-keto-PGF_1α and 6-keto-PGE₁ in quiescent (indomethacin-treated) uterine strips from ovariectomized rats, were constructed. All PGs tested as well as BaCl₂, triggered at different concentrations, evident phasic contractions. Within the range of concentrations tested the portion of the curves for the metabolites of PGF_2α was shifted to the right of that for PGF_2α itself; the curve for 6-keto-PGF_1α was displaced to the right of the curve for PGI₂ and that for 6-keto-PGE₁ to the left.It was also demonstrated that the uterine motility elicited by 10⁻⁵ M PGF_2α and its metabolites was long lasting (more than 3 hours) and so it was the activity evoked by PGI₂; 6-keto-PGF_1α and BaCl₂, but not the contractions following 6-keto-PGE₁, which disappeared much earlier. The contractile tension after PGF_2α; 15-keto-PGF_2α; 13, 14-diOH-15-keto-PGF_2α and PGI₂, increased as time progressed whilst that evoked by 6-keto-PGF_2α or BaCl₂ fluctuated during the same period around more constant levels.The surprising sustained and gradually increasing contractile activity after a single dose of an unstable prostaglandin such as PGI₂, on the isolated rat uterus rendered quiescent by indomethacin, is discussed in terms of an effect associated to its transformation into more stable metabolites (6-keto-PGF_1α, or another not tested) or as a consequence of a factor which might protects prostacyclin from inactivation.     

An enzyme-linked immunosorbent assay for 6-keto PGF

An enzyme-linked immunosorbent assay for 6-keto prostaglandin F_1α, a stable metabolite of prostacyclin, has been developed. The assay allows quantitation of 6-keto PGF_1α in the range 1–200 pg/0.1 ml and shows very low cross reactivity to nine other prostaglandins. Dose dependent stimulation by thrombin of 6-keto PGF_1α formation in human endothelial cells in culture has been used to verify the assay. Quantitation by the enzyme linked immunosorbent assay agrees closely with determination by radioimmunoassay.     

The effect of cigarette smoke on the metabolism of arachidonic acid in isolated hamster lungs

The effects of cigarette smoke on the metabolism of exogenous arachidonic acid (AA) were investigated in isolated hamster lungs. Arachidonate was injected into the pulmonary circulation and the metabolites were analysed from the nonrecirculating perfusion effluent by thin layer chromatography. After the pulmonary injection of 66 nmol of ¹⁴C-AA about 20 % of the injected radioactivity appreated in the perfusion effluent mostly as metabolites in six minutes. When isolated lungs were ventilated with cigarette smoke during the perfusion, the amounts of PGF_2α, PGE₂ and two unidentified metabolite groups increased in the lung effluent. In two other experimental series hamsters were exposed to cigarette smoke before the lung perfusion either once for 30 min or during one hour daily for ten consecutive days. Neither pre-exposures caused any changes in the amounts of arachidonate metabolites in the lung effluent.     

Prostaglandin synthesis by the cochlea

The exogenous and endogenous syntheses of prostaglandins (PG's) by the cochlea of adult mongolian gerbils were studied . After incubation of the whole membraneous cochlea with [³H]-arachidonic acid (AA), syntheses of PGF_2α, 6-keto PGF_1α, PGE₂, thromboxane (TX) B₂ and PGD₂ were evidenced in this order. The synthesis of radioactive PG's was almost completely inhibited by incubation with 10⁻⁵ M indomethacin. No significant amounts of those PG's were detected by radioimmunoassay (RIA) in the cochlea obtained from animals killed by microwave irradiation at 5.0 kw for 0.8 sec. However, when the homogenate of the whole membraneous cochlea obtained from animals without microwave irradiation was incubated at 37°C for 0–15 min, PGD₂, PGE₂, PGF₂α and 6-keto PGF₁α were found to be formed from endogenous AA in the cochlea by RIA. PG's were formed already at 0 time to considerable level (PGD₂, PGF₂α and 6-keto PGF₁α, 90–120 pg/cochlea; PGE₂, 370 pg/cochlea), reached to the maximum level (PGD₂, PGF₂α and 6-keto PGF₁α, 170–200 pg/cochlea; PGE₂, 500 pg/cochlea) at a 5-min incubation, and then gradually decreased. On the other hand, the amount of TXB₂ was lower than the detection limit by RIA (<50 pg/cochlea) even after the incubation. The cochlea was dissected into three parts: organ of Corti + modiolus (OC + M), lateral wall (LW), and cochlear nerve (CN), and then PG's formed by these tissues were determined after a 5-min incubation of the homogenates. In the CN and OC + M, PGE₂ was the major PG (100 and 160 pg/tissue, respectively), and the amounts of PGD₂, PGF₂α and 6-keto PGF₁α were about of those of PGE₂. In the LW, the amounts of PGD₂, PGE₂, PGF₂α and 6-keto PGF₁α were about the same level (70–100 pg/LW).     

Prostaglandin removal and metabolism by isolated perfused rat lung

We have investigated the mechanism(s) involved in the removal of prostaglandins (PG) from the pulmonary circulation by the lung. Unidirectional fluxes of PG from the circulation into the lung are measured in an isolated perfused rat lung preparation. Evidence is presented which suggests that a transport system for PG exists in lung tissue. This transport system is responsible for the removal of some PG from the circulation by the lung. PGE₁ and PGF_2α are substrates for this system, whereas PGB₁, PGA₁, and 15-keto-PGF_2α are not. Since PGA₁ is a substrate for the intracellular PG dehydrogenase, the selectivity of the lung's metabolism system for circulating PG is probably due to the selectivity of the transport system for PG. It is shown that the percentage of the pulmonary arterial concentration (C_A) of PGE₁ or PGF_2α that is metabolized on passage through the pulmonary circulation decreases rapidly as C_A increases. When the lungs were perfused with PGE₁ (PGF_2α), the metabolites detected in the venous effluent were 15-keto-PGE₁ (PGF_2α) and 15-keto-13,14-dihydro-PGE₁ (PGF_2α). The time course pattern of the appearance of metabolites in the venous effluent after the initiation of a constant C_A, and the relative concentrations of the metabolites in the venous effluent, were examined as a function of C_A.