Effect of the protein kinase inhibitors, staurosporine and K-252a, on PGI2 production by rat liver cells (the C-9 cell line)

Staurosporine and K-252a, known inhibitors of several protein kinases, stimulated PGI₂ production (measured as 6-keto-PGF_1α in rat liver cells (the C-9 cell line). Preincubation of the rat liver cells with staurosporine or K-252a enhanced the PGI₂ production stimulated by 12-O-tetradecanoylphorbol-13-acetate (TPA), platelet activating factor (PAF) and the Ca²⁺-ionophore a-23187, but not the PGI₂ synthesis stimulated by exogeneous arachidonic acid. These results suggest that phosphorylation of some proteins or certain amino acids on a protein can regulate arachidonic acid metabolism probably in the pathway leading to deesterification of phospholipids.     

Effect of prostacyclin on platelet-activating factor induced rabbit platelet aggregation

In this paper, the effect of prostacyclin (PGI₂) on the aggregation induced by Platelet-activating factor (PAF), a phospholipid mediator of anaphylaxis, was studied. Synthetic PGI₂ and PGI₂-like activity generated from rabbit aorta were demonstrated to be effective inhibitors of PAF-induced rabbit platelet aggregation and release of ³H-serotonin (³H-5HT).     

Enhanced prostacyclin generation by phenolic compounds acting as a tryptophan-like cofactor of PG hydroperoxidase

Isolated rat aortae were incubated at 22°C in tris-buffered saline (pH 7.4). The incubation medium was changed every 10 min, and the amounts of prostacyclin (PGI₂) in the medium were immediately bioassayed as an inhibitory activity against rabbit platelet aggregation induced by ADP. The addition of arachidonic acid to the medium increased the generation of PGI₂ but this was followed by a gradual decrease even in the presence of the same amount of arachidonic acid. The decrease of PGI₂ generation from exogenous arachidonic acid was prevented by tryptophan, which is required by PG hydroperoxidase with heme compound as cofactors. MK-447 and its analogues, which are phenolic compounds and exerted tryptophan-like action on the PG endoproxide biosynthesis by bovine seminal vesicle microsomes, also prevented the decrease of PGI₂ generation in isolated rat aortae. The phenolic compounds enhanced PGI₂ generation from endogenous arachidonic acid. These results indicate that theh phenolic compounds enhanced PGI₂ generation in vascular tissue, acting as a tryptophan-like cofactor of PG hydroperoxidase.     

The effects of prostacyclin (PGI2) on tissues which detect prostaglandins (PG'S)

The effects of prostacyclin (PGI₂) and its stable metabolite 6-oxo-PGF_1α on various bioassay tissues are compared with those of PGE₂ and PGF_2α, using the cascade superfusion method. On vascular smooth muscle, PGI₂ caused relaxation of all tissues tested except the rabbit aorta. PGE₂ relaxed rabbit coeliac and mesenteric artery but contracted bovine coronary artery and had no effect on rabbit aorta. 6-oxo-PGF_1α was ineffective at the concentrations tested.On gastro-intestinal smooth muscle, PGI₂ contracted strips of rat and hamster stomach and the chick rectum. It was less potent than PGE₂ or PGF_2α. None of these substances contracted that cat terminal ileum. 6-oxo-PGF_1α was inactive on these tissues at the doses tested.PGI₂ was less active than PGE₂ or PGF_2α in contracting guinea-pig trachea and rat uterus; 6-oxo-PGF_1α was active only on the rat uterus. Thus, PGI₂ can be distinguished from the other stable prostaglandins using the cascade method of superfusion.     

Antagonism of PAF-induced death in mice

The ability of three platelet activating factor (PAF) antagonists, BN52021, L652, 731 and 48740RP, and the leukotriene antagonist FPL55712 to block iv PAF-induced death was tested in mice. PAF-induced sudden death was been previously characterized as a model of systemic anaphylaxis and circulatory shock related its hypotensive actions. Of the drugs, BN52021 and L652, 731 provided dose-dependent protection against PAF toxicity, whereas the others had no effect. 48740RP was, however active against PAF-induced rabbit platelet aggregation. BN52021 was inactive in three other mouse sudden death models in which arachidonic acid, U46619 or collagen combined with epinephrine is injected iv to provoke a thrombotic/ischemic sudden death. In contrast, the TXA₂ antagonist SQ29548 inhibited the acute toxicity of two of these latter challenges (arachidonic acid and thromboxane agonist U46619), but was inactive against PAF lethality.These results suggest that PAF toxicity in mice is a specific model for PAF agonism, and is not mediated by TXA₂ or peptido-leukotrienes. Further, PAF-induced mortality should be a simple and useful technique for testing potential PAF antagonists for activity by various routes of administration.     

Comparison of the effects of prostacyclin (PGI2), prostaglandin E1 and D2 on platelet aggregation in different species

The activity of prostacyclin (PGI₂), PGE₁ or PGD₂ as inhibitors of platelet aggregation in plasma from human, dog, rabbit, rat, sheep and horse was investigated. Prostacyclin was the most potent inhibitor in all species. PGD₂ was a weak inhibitor in dog, rabbit and rat plasma whereas PGE₁ and prostacyclin were highly active. Theophylline or dipyridamole potentiated the inhibition of human platelet aggregation by prostacyclin, PGE₁ or PGD₂. Compound N-0164 abolished the inhibition by PGD₂ of human platelet aggregation but did not inhibit the effects of PGE₁ or prostacyclin. The results suggest that prostacyclin and PGE₁ act on similar sites on platelets which are distinct from those for PGD₂.     

Potentiation of anti-aggregating activity of PGI2 by 7-ethoxycarbonyl-6,8-dimethyl-4-hydroxymethyl-1(2H)-phthalazinone (EG-626) in rabbit platelets in vitro

Anti-aggregating activity of 7-ethoxycarbonyl-6,8-dimethyl-4-hydroxymethyl-1(2H)-phthalazinone (EG-626) was tested using rabbit platelets in vitro. EG-626 alone, when added before, prevented platelet aggregation induced by ADP, as did PGI₂, papaverine and dipyridamole. Spontaneous disaggregation was also accelerated when EG-626 was added after the maximal aggregation induced by ADP. EG-626 alone also inhibited platelet aggregation induced by collagen and arachidonic acid. ID₅₀s of these agents in ADP-induced aggregation were 7–9 nM for PGI₂, 223 μM for EG-626, 266 μM for papaverine and 957 μM for dipyridamole. When EG-626 was used in combination with PGI₂, a threshold dose (50 μM) of EG-626 potentiated the anti-aggregating effect of subthreshold dose (3 nM) of PGI₂ upto 100% inhibition in collagen-induced platelet aggregation. The marked potentiating effect of EG-626 was accompanied by an accumulation of cyclic AMP in the platelets. These effects might be due to inhibition of phosphodiesterase. Papaverine and dipyridamole, other phosphodiesterase inhibitors, also potentiated the anti-aggregating activity of PGI₂. The activity of papaverine, however, was one eighth of EG-626 and that of dipyridamole was much less. The most effective combination of PGI₂ and EG-626 to induce 50% inhibition was obtained with 20% of ID₅₀ of each agent, whereas that of PGI₂ and papaverine or dipyridamole was 39 or 41%, respectively.     

Prostacyclin-stimulating drugs: New prospects

SKF 525-A (proadifen), a well-known inhibitor of drug metabolism and cytochrome P-450 activity, stimulated the release of prostacyclin (PGI₂) from the rabbit aorta in vitro. The PGI₂-stimulating activity of SKF 525-A was characterized by specific structural requirements : activity was abolished by the deletion of the terminal propyl chain and increased by its elongation into an isobutyl chain; chlorination of the phenyl rings increased the potency. SKF 525-A increased the production of PGI₂ by cultured endothelial cells from bovine aorta and human umbilical vein, but had no effect on cultured smoooth muscle from the bovine aortic media. In human platelets, SKF 525-A inhibited prostaglandin and thromboxane production induced by A23187, thrombin and ADP. Simultaneous stimulation of endothelial PGI₂ and inhibition of platelet TxA₂ represents an original pharmacological profile : SKF 525-A might thus constitute the prototype of a new class of antiplatelet drugs.     

Human platelet rich plasma and human serum protects from inactivation the antiaggregatory capacity of prostacyclin-like material (PGI2) produced by the rat stomach fundus

Prostacyclin (PGI₂) synthetizing capacity of rat stomach fundus in Krebs-Ringer-Bicarbonate (KRB); human platelet rich plasma (PRP) or human serum (HS), was explored. The basal production of PGI₂-like material was similar in the three media, suggesting the absence of any special substance in plasma or serum able to modify prostacyclin synthesis from tissue substrate. On the other hand it was also documented that in PRP and in HS the antiaggregatory activity of the PGI₂-like material declined in its capacity less than 50% following 60 minutes of incubation at 37 °C, whereas it almost dissapeared when incubated in KRB. Possible explanations underlying such finding are discussed.     

Release of prostaglandin I2-like activity from the rat aorta: Effect of captopril,furosemide, and sodium

The effect of captopril, furosemide, indomethacine and intake of sodium on the production of PGI₂-like material was studied in the rat aorta. Release of PGI₂-like material from these vessels was estimated by its ability to inhibit ADP-induced vessels was estimated by its ability to inhibit ADP-induced platelet aggregation. Pretreatment with indomethacin (15 mg/kg/day) reduced the capacity of the aorta to release PGI₂-like material. Pretreatment with captopril (10 mg/kg/day) had no effect. Intravenous furosemide (60 μg/ml plasma volume) increased the capacity of the aorta to inhibit by 28% (p<.025). The inhibitory capacity of aorta removed from rats on a low sodium diet did not differ from those on a high sodium diet. We conclude that the action of furosemide in reducing vascular tone may be related to stimulation of PGI₂ synthesis in blood vessels whereas the effect of captopril and sodiumin in reducing vascular tone may involve a mechanism unrelated to PGI₂ synthesis or may involve the synthesis of a prostaglandin other than PGI₂.     

Prostaglandin synthesis by fetal rat bone in vitro: Evidence for a role of prostacyclin

Prostaglandin synthesis by fetal rat bones was examined by thin-layer chromatography of culture media after preincubation with labeled arachidonic acid. Cultures in rabbit complement (non-heat inactivated serum) were compared with cultures in heat-inactivated serum or cultures treated with indomethacin. The major complement-dependent products were PGE₂, PGF_2α and 6-keto-PGF_1α, the metabolite of prostacyclin (PGI₂). Since PGI₂ had not been previously identified in bone its ability to stimulate bone resorption was tested. Repeated addition of PGI₂ stimulated release of previously incorporated ⁴⁵Ca from fetal rat long bones in both short-term and long-term cultures at concentrations of 10⁻⁵ to 10⁻⁹M. Because of the short half life of PGI₂ in solution at neutral pH, we tested a sulfur analog, thiaprostacyclin (S-PGI₂) which was found to be a stimulator of bone resorption at concentrations of 10⁻⁵ to 10⁻⁶M. These studies suggest that endogenous PGI₂ production may play a role in bone metabolism. Since vessels produce PGI₂ it is possible that PGI₂ release may be responsible for the frequent association between vascular invasion and resorption of bone or calcified cartilage in physiologic remodeling and pathologic osteolysis.     

Evidence for 6-keto-PGF1α in adrenal cortex of the rat and effects of 6-keto-PGF1α and PGI2 on adrenal cAMP levels and steroidogenesis

Both intact cortical tissue and isolated cortical cells from the adrenal gland of the rat were analyzed for 6-keto-PGF_1α, the hydrolysis metabolite of PGI₂, using high-performance liquid chromatography and gas chromatography-mass spectrometry. 6-Keto-PGF_1α was present in both incubations of intact tissue and isolated cells of the adrenal cortex, at higher concentrations than either PGF_2α or PGE₂. Thus, the cortex does not depend upon vascular components for the synthesis of the PGI₂ metabolite. Studies $\text{in vitro}$, using isolated cortical cells exposed to 6-keto-PGF_1α (10^?6-10^?4M), show that this PG does not alter cAMP levels or steroidogenesis. Cells exposed to PGI₂ (10^?6-10^?4M), however, show a concentration-dependent increase of up to 4-fold in the levels of cAMP without altering corticosterone production. ACTH (5–200 μU/ml) increased cAMP levels up to 14-fold, and corticosterone levels up to 6-fold, in isolated cells. ACTH plus PGI₂ produced an additive increase in levels of cAMP, however, the steroidogenic response was equal to that elicited by ACTH alone. Adrenal glands of the rat perfused $\text{in situ}$ with PGI₂ showed a small decrease in corticosterone production, whereas ACTH greatly stimulated steroid release. Thus, while 6-keto-PGF_1α is present in the rat adrenal cortex, its precursor, PGI₂, is not a steroidogenic agent in this tissue although it does stimulate the accumulation of cAMP.     

Regulation of prostaglandin production by osteoblast-rich calvarial cells

The effect of various factors upon prostaglandin (PG) production by the osteoblast was examined using osteoblast-rich populations of cells prepared from newborn rat calvaria. Bradykinin and serum, and to a lesser extent, thrombin, were also shown to stimulate PGE₂ and 6-keto-PGF_1α (the hydration product of PGI₂) secretion by the osteoblastic cells. Several inhibitors of prostanoid synthesis, dexamethasone, indomethacin, dazoxiben and nafazatrom, were tested for their effects on the calvarial cells. All inhibited PGE₂ and PGI₂ (the major arachidonic acid metabolites of these cells) production with half-maximal inhibition by all four substances occuring at approximately 10⁻⁷ M. For dazoxiben and nafazatrom, this was in contrast to published results from experiments which have indicated that the compounds stimulated PGI₂ production. Finally, since the osteoblasts is responsive to bone-resorbing hormones, these were tested. Only epidermal growth factor (EGF) was shown to modify PG production. At early time EGF stimulated PGE₂ release, however, the predominant effect of the growth factor was an inhibition of both PGE₂ and PGI₂ production by the osteoblastic cells. The present results suggest that the bone-resorbing hormones do not act to cause an increase in PG by the esteoblast and that any increase in PG production by these cells may be in response to vascular agents     

The effects of platelet-activating factor on flow rate and eicosanoid release in the isolated perfused rat gastric vascular bed

In the isolated rat stomach perfused via the vasculature in situ under constant pressure bolus injections of platelet-activating factor (PAF, 3, 16, or 50 ng) induced dose-dependent, long-lasting reductions of flow rates and simultaneously significant increases in the release of cysteinyl-leukotrienes (cys-LT), thromboxane (TX) B₂ and 6-keto-prostaglandin (PG) F_1α. Reversed phase high pressure liquid chromatography demonstrated the release of a mixture of comparable amounts of LTC₄, LTD₄ and LTE₄ by PAF. Inhibition of cys-LT sythesis by the lipoxygenase inhibitors nordihydroguaiaretic acid (NDGA) and L-651, 896 did not significantly affect PAF-induced flow reduction indicating that endogenous cys-LT are of minor importance for the PAF effect on gastric vascular flow. This conclusion is supported by the fact that the cys-LT receptor antagonist FPL 55712 in a concentration (1 × 10⁻⁶ M) that completely antagonized gastric flow reduction by exogenous LTC₄ (1 × 10⁻⁷ M) had no effect on the PAF-induced reduction of flow. The cyclooxygenase inhibitor indomethacin aggravated the PAF-induced flow reduction suggesting that the endogenous vasodilator PGI₂ might act as a functional PAF antagonist in the rat gastric vascular bed. In contrast to FPL 55712 the PAF antagonist BN 52021 significantly and concentration-dependently antagonized the PAF effect on gastric vascular flow. The results demonstrate that PAF and LTC₄ induce flow reductions in the rat gastric vascular bed by activating different receptors and that endogenous eicosanoids released by PAF do not contribute significantly to the PAF effect on gastric vascular flow.     

A comparison of the effects of prostacyclin and 6-keto-prostaglandin E1 on renin release in the isolated rat and rabbit kidney

A direct comparison of the relative potencies of the prostaglandins PGI₂ and 6-kto-PGE₁ to induce renin release was made in the isolated rat kidney, which was perfused with a synthetic medium at constant perfusion pressure.Both prostaglandins stimulated renin release in a dose-dependent manner (0.01 to 1 μM) and with equal potency.Also in the isolated rabbit kidney, PGI₂ and 6-keto-PGE₁ had the same potency to induce renin release at 1 μM final concentration.Following infusion of 6-keto-PGE₁ a small increase of vascular resistance in the rat kidney was observed, whereas in the rabbit kidney no constrictor effect was seen.When perfusate of PGI₂ or 6-keto-PGE₁-infused rat kidneys were tested for antiaggregatory activity in the ADP induced aggregation of human platelets and compared with authentic standards, the results showed 6-keto-PGE₁ passes the kidney essentially unchanged, whereas only 25–40% of the infused PGI₂ appear in the venous perfusates, as judged from the recovery of antiaggregatory activity.Analysis of venous perfusates from ³H-PGI₂ infused kidneys by high performance liquid chromatography indicates that about 25% of the infused PGI₂ remains intact, a major portion of the perfused radioactivity was identified as 6-keto-PGF_1α by combined gaschromatography-mass-spectrometry (19).We conclude that the renin-stimulating effect of PGI₂ is not secondary to its metabolism to 6-keto-PGE₁, as has been suggested in the literature (8).     

Increased production of prostacyclin (PGI2) by vascular intimal smooth muscle cells from atherosclerotic rabbit aorta

PGI₂ synthesis by aortic strips obtained from thoracic aorta of rabbits fed a high cholesterol diet was examined and compared with that of control rabbits fed a normal diet. In this report, the amounts of PGI₂ produced were shown as 6-keto-PGF_1α per μg of aortic tissue DNA instead of per mg wet weight. We also investigated PGI₂ synthesis by cultured smooth muscle cells (SMC) obtained from atherosclerotic intima.Basal PGI₂ production by aortic strips from atherosclerotic rabbit aorta was significantly augmented compared with that of controls. Arachidonic acid (AA)-induced PGI₂ production by atherosclerotic aorta was also significantly higher than that of controls. PGI₂ producing capacities of intimal and medial layers, separated from atherosclerotic aorta, were examined and the intimal layer was found to elicit a significantly greater PGI₂ production than the medial layer.Furthermore, cultured intimal SMC obtained from atherosclerotic rabbit aorta produced a greater amount of PGI₂ than medial SMC from normal rabbit aorta at various cultured conditions. These results suggest that the possibility of enhanced PGI₂ production by atherosclerotic aorta may well be considered as a defence mechanism of the vessel wall against damaging stimuli.     

Anti-platelet aggregating and disaggregating activities of 6,9-methano PGI2

Anti-platelet aggregating and disaggregating activities of the chemically stable 6,9-methano prostaglandin I₂ (6,9-methano PGI₂) were investigated. 6,9-Methano PGI₂ inhibited ADP-induced platelet aggregation in PRP from humans, rabbits and rats. 6,9-Methano PGI₂ also inhibited rabbit platelet aggregation induced by ADP, collagen, thrombin, arachidonic acid and 11,9-epoxy-methano PGH₂. Antiaggregating activities of 6,9-methano PGI₂ were 0.3 to 2.0 times greater than those of PGE₁. 6,9-Methano PGI₂ facilitated platelet disaggregation in a dose related manner. Antiaggregating and disaggregating activities of 6,9-methano PGI₂ were markedly enhanced by incubation with the phosphodiesterase inhibitor, theophylline.     

Platelet activating factor (PAF) stimulates release of PGI2 from inflamed rabbit gallbladder cell cultures

This study examines the hypothesis that PAF stimulates release of PGI₂ from inflamed rabbit gallbladder explant cell cultures. New Zealand white rabbits underwent bile duct ligation for 72 h (72 h BDL), or sham operation, Sham and 72 h BDL gallbladder explants were placed in culture, and the cells grown to 75% confluence. The cells were exposed to increasing concentrations of PAF for 60 min. The media analyzed for eicosanoid release by EIA and the cells analyzed for cyclooxygenase and prostacyclin synthase content by immunoblot analysis. PAF increased release of 6-keto-PGF_1α from the 72 h BDL gallbladder cell cultures in a dose-related manner which was inhibited by indomethacin preincubation by 90%. The increased 72 h BDL cell release of 6-keto-PGF_1α was not associated with changes in the content of cyclooxygenase or prostacyclin synthase. PAF did not alter eicosanoid release from sham control cell cultures. These data suggest that PAF can only up-regulate endogenous 6-keto-PGF_1α release from the 72 h BDL cells that had been previously stimulated by inflammation. PAF may thus contribute to gallbladder distention and injury by chronic stimulation of inflamed gallbladder PGI₂ release.     

Effect of taurine on arterial, uterine and cardiac PGI2 and TXA2 synthesis in the rat

The influence of taurine (in drinking water for 6 weeks) on PGI₂ and TXA₂ synthesis by some female rat organs was investigated using radioimmunoassay and platelet antiaggregatory bioassay. Taurine 100 and 200 mg/kg/day increased aortic PGI₂ release from 0.59 ± 0.04 (control) to 0.85 ± 0.05 and 1.01 ± 0.06 ng/mg, respectively and that by the myometrium from 0.24 ± 0.02 (control) to 0.38 ± 0.01 and 0.50 ± 0.04 ng/mg wet tissue, respectively (P < 0.05, n = 6). It did not affect PGI₂ and TXA₂ production in the heart or TXA₂ in the aorta. Taurine 200 mg/kg depressed uterine TXA₂ synthesis from 148.6 ± 9.8 (control) to 85.4 ± 6.8 pg/mg (P < 0.05, n = 6). Furthermore taurine 0.4 and 0.8 mM in vitro stimulated PGI₂ released by the myometrial and aortic tissues from pregnant rats. The stimulant effect of taurine on PGI₂ may be related to its antioxidant effect whereas its inhibitory effect on uterine TXA₂ may result from direction of synthesis towards PGI₂. It is concluded that endogenous taurine may participate in regulation of PGs synthesis and that prostanoids may contribute to its known actions. On broad basis, taurine-induced release of PGI₂ may prove of potential value in those ailments characterised by deficiency in PGI₂ release.     

Microsomal preparations of normal bovine iris-ciliary body generate prostacyclin-like but not thromboxane-A2-like activity

Indomethacin-treated bovine iris-ciliary body microsomes (IBIM) have been studied for their ability to convert PG endoperoxides into either thromboxance-A₂ (TxA₂)-like or prostacyclin (PGI₂)-like activity. The biological activity of the ocular tissue microsomes were compared with either indomethacin-treated human platelet microsomes (for TxA₂-like activity) or rabbit aorta microsomes (for PGI₂-like activity) under appropriate incubation conditions. No evidence could be found for the formation of TxA₂-like activity from PG endoperoxides by the IBIM. In contrasts, when the IBIM were incubated with PGH₂ for 1 min at 22°C without cofactors, PGI₂-like activity was produced, causing profound relaxation of the isolated dog coronary artery preparation without contracting the rabbit aorta and inhibiting arachidonic acid-induced platelet aggregation. Equivalent quantities of boiled IBIM failed to aleter the biological activity of PGH₂ under identical conditions. Tranylcypromine (500 μg/ml) completely abolished the appearance of PGI₂-like activity. Furthermore, the PGI₂-like activity found was stable for 10 min at 22°C at pH 8.5 but completely lost under similar conditions at pH 5.5. It is concluded than microsomal preparations of normal bovine iris-ciliary body can synthesize PGI₂-like activity in substantial amounts but not TxA₂-like activity.