Role of endoperoxides in arachidonic acid-induced vasoconstriction in the isolated perfused kidney of the rat

1. Administration of arachidonic acid caused dose-dependent vasoconstriction in the isolated rat kidney perfused in situ with Krebs-Henseleit solution. 2. Inhibition of cyclo-oxygenase with indomethacin or meclofenamate reduced the renal vasoconstrictor effect of arachidonic acid. 3. The renal vasoconstrictor effect of arachidonic acid was unaffected by CGS-13080 at concentrations that effectively reduced thromboxane A2 (TxA2) synthesis by platelets and the kidney. 4. The endoperoxide/TxA2 receptor antagonist, SQ 29,548, abolished the renal vasoconstrictor effect of arachidonic acid and of U46619, an endoperoxide analogue. In contrast, SQ 29,548 did not affect the renal vasoconstrictor response to angiotensin II, prostaglandin E2 or F2 alpha. 5. These data suggest that the vasoconstrictor effect of arachidonic acid in the isolated kidney of the rat is mediated by its metabolites, including the prostaglandin endoperoxides.     

Effect of a new thromboxane A2 antagonist, S-145, on platelet aggregation

The newly synthesized compound S-145, (+/-)-5(Z)-7-(3-endo-phenylsulfonylamino [2.2.1] bicyclohept-2-exo-yl)heptenoic acid, inhibited arachidonic acid (AA)-, 9,11-methanoepoxy-PGH2 (U46619)-, collagen- and ADP-induced human platelet aggregation in vitro with IC50 values of 0.25, 0.34, 0.22, and 0.08 microM, respectively. The inhibiting potency of this compound to AA- or U46619-induced platelet aggregation was about twice that of ONO-3708 and 1/7-1/14 that of SQ29,548 in human platelets, about 7 times that of ONO-3708 and 1/3-1/7 that of SQ29,548 in guinea pig platelets, and 250-800 times that of ONO-3708 and 1-7 times that of SQ29,548 in rabbit platelets. When S-145 was administered orally to guinea pigs at the dose of 0.1 mg/kg, AA-induced platelet aggregation was completely inhibited at 30 and 60 min after the administration, but not at 3 and 6 hr. The minimum effective doses of S-145 (p.o.) to AA- and collagen-induced platelet aggregation at 60 min after the administration were 0.01 mg/kg and 0.03 mg/kg, respectively. The potency of S-145 (p.o.) to inhibit AA- and collagen-induced guinea pig platelet aggregation was 30-300 times that of ONO-3708 or SQ29,548 and 300-1000 times that of aspirin. These results suggest that S-145 is a thromboxane A2 antagonist showing a potent inhibiting effect on platelet aggregation by oral administration.     

Antagonistic actions of S-145 on vascular and platelet thromboxane A2 receptors

We studied the actions of a potent thromboxane A2/prostaglandin in H2 (TP) receptor antagonist, (+/-)-(5Z)-7-[3-endo-[(phenylsulfonyl)amino]bicyclo [2.2.1]hept-2-exo-yl]heptenoic acid (S-145) on vascular and platelet receptors in the pig. S-145 showed almost the same affinity for both receptors in ligand binding studies with [3H]U46619 or [3H]SQ29, 548. The binding affinity of S-145 was 5-8 times higher than that of SQ29,548, a well-characterized TP receptor antagonist. However, S-145 inhibited U46619-induced contractions of pig coronary arteries with an IC50 value 52.5 times lower than that of SQ29,548, and was approximately equipotent with SQ29,548 in inhibiting U46619-induced secondary aggregation of pig platelets. Detailed kinetic studies on [3H]S-145 binding revealed that the apparent discrepancy between the pharmacological potency of S-145 in platelet and vascular systems was not due to tissue selectivity, but its small association constants for both receptors.     

Effects of KW-3635, a novel dibenzoxepin derivative of a selective thromboxane A2 antagonist, on human, guinea pig and rat platelets.

We examined the binding of [3H]U-46619, a thromboxane A2 agonist, to human and guinea pig platelets and the binding of [3H]SQ 29,548, a thromboxane A2 antagonist, to human, rat and guinea pig platelets. KW-3635 (sodium (E)-11-[2-(5,6-dimethyl-1- benzimidazolyl)ethylidene]-6,11-dihydrodibenz[b,e]oxepin-2-c arboxylate monohydrate) concentration-dependently inhibited the [3H]U-46619 binding to human and guinea pig platelets with inhibition constants of 1.2 nM and 2.7 nM, respectively. KW-3635 also potently inhibited the [3H]SQ 29,548 binding to human and guinea pig platelets with inhibition constants of 1.9 nM and 3.2 nM, respectively. In contrast, KW-3635 was less active against thromboxane A2/prostaglandin H2 receptors in rat platelets with an inhibition constant of 97 nM. KW-3635 at 10(-5) M did not antagonize various receptors including prostaglandin E2, prostaglandin I2 and neurotransmitters. In addition, 10(-5) M KW-3635 did not alter the prostaglandin D2-induced cAMP accumulation in EBTr cells. KW-3635 was inactive towards thromboxane synthase, cyclooxygenase and prostaglandin I2 synthase up to 10(-5) M. KW-3635 slightly inhibited 5-lipoxygenase with an IC50 value of 71 microM. These data indicate that KW-3635 is a potent and selective non-prostanoic thromboxane A2 antagonist, and it can recognize the species differences in thromboxane A2/prostaglandin H2 receptors.     

Distinct effects of z-335, a new thromboxane A2 receptor antagonist, on rabbit platelets and aortic smooth muscle

The effect of a novel thromboxane A2 receptor (TP) antagonist, (+/-)-sodium[2-(4-chlorophenylsulfonylaminomethyl)- indan-5-yl]acetate monohydrate (Z-335), on the U46619-induced responses was compared between rabbit platelets and aorta. Z-335 inhibited platelet shape change induced by U46619 with higher efficacy than SQ29548, a common TP antagonist. The U46619-induced platelet aggregation was inhibited by Z-335 in a noncompetitive manner, while it was competitively inhibited by SQ29548. Z-335 inhibited U46619-induced vasoconstriction of rabbit aorta with higher efficacy than SQ29548. The pA2 value of Z-335 in aortic vasoconstriction was significantly higher than in platelet shape change. The competitive binding study showed the higher pKi value of Z-335 against [3H]-SQ29548 binding in rabbit aortic smooth muscle cells than in platelets. These data suggest that Z-335 has useful characteristics of TP antagonism.     

Influence of SQ 29,548 on vasoconstrictor responses in the mesenteric vascular bed of the cat

The effects of SQ 29,548 on vasoconstrictor responses were investigated in the feline mesenteric vascular bed. Injections of the thromboxane (TX) A2 mimics, U46619 and U44069, caused dose-related increases in mesenteric arterial perfusion pressure. After administration of SQ 29,548, 0.5 mg/kg i.v, vasoconstrictor responses to U46619 and U44069 were reduced markedly whereas responses to prostaglandin (PG) F2 alpha, angiotensin II, vasopressin and BAY K 8644, an agent which enhances calcium entry, were not altered. The duration of the TXA2 receptor blockade was greater than 2 h and SQ 29,548 had no significant effect on mesenteric vasodilator responses to PGE2, isoproterenol, nitroglycerin, acetylcholine or bradykinin. SQ 29,548, at a dose of 0.5 mg/kg i.v., significantly reduced the response to TXB2, which had modest vasoconstrictor activity in the mesenteric vascular bed. However, when the dose of SQ 29,548 was reduced to 0.05 mg/kg i.v., responses to TXB2 were not altered, whereas responses to U46619 were significantly decreased. SQ 29,548 had no significant effect on vasoconstrictor responses to norepinephrine or to sympathetic nerve stimulation. The TXA2 receptor antagonist blocked the vasoconstrictor component of the biphasic response to the PG precursor, arachidonic acid, and the endoperoxide, PGH2. The results of these studies suggest that SQ 29,548 is a specific TX receptor antagonist in the mesenteric vascular bed, that the vasoconstrictor component of the biphasic response to arachidonic acid and PGH2 is due to formation of TXA2, and that endogenously formed TXA2 does not modulate adrenergic responses in the mesenteric circulation of the cat.     

Purification of the human blood platelet thromboxane A2/prostaglandin H2 receptor protein.

The human platelet thromboxane A2/prostaglandin H2 receptor has been purified 6100-fold to apparent homogeneity by a three-step chromatographic procedure with an overall yield of 6%. A 6-fold purification of the receptor was first achieved by chromatography of 3-[(3-cholamidopropyl)dimethyl-ammonio]-1-propanesulfonate (CHAPS)-solubilized membrane proteins from human platelets on a diethylaminoethyl (DEAE)-Sepharose column. The DEAE eluate fractions containing receptor activity were then applied to a newly developed affinity column using the cyclohexyl derivative of SQ30,741 (SQ31,491) as the immobilized ligand. Elution of the receptor from the affinity column with BM13.177 yielded a further purification of 1700-fold. An additional 4-fold receptor purification from the affinity column eluate was achieved by HPLC using GPC 500 and GPC 100 columns connected in tandem. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining of the HPLC eluate containing purified receptor revealed a single, distinct band with a molecular weight of 55,000. The receptor binding activity was detected with [3H]SQ29,548 using a newly developed binding assay which involved immobilization of the receptor on polyethyleneimine-treated glass fiber filters. The binding of [3H]SQ29,548 to the purified receptor was time dependent, saturable, reversible and highly specific. Unlabeled SQ29,548, BM13.505, and U46619 (but not thromboxane B2 or 6-keto prostaglandin F1 alpha) competed for [3H]SQ29,548 binding to the purified receptor in a concentration-dependent manner. Scatchard analysis of [3H]SQ29,548 binding to the purified receptor revealed the presence of a single class of high-affinity binding sites, with a Kd of 4 nM and a Bmax of 17 nmol/mg protein.     

Effect of the thromboxane A2-receptor antagonists, SQ 29,548 and SQ 28,668, on the pulmonary hypertensive response to endotoxemia in swine

The effects of two selective thromboxane (Tx) A2 antagonists (SQ 29,548 and SQ 28,668) on endotoxin-induced pulmonary hypertension were determined in anesthetized pigs. SQ 29,548 (10 micrograms/kg/min, i.v., n = 6) or vehicle (n = 7) was infused from 15 min before until 60 min after an intravenous infusion of Salmonella enteritidis endotoxin (1.0 microgram/kg). Within 20 min, vehicle-treated animals developed an acute 350 +/- 25% increase in pulmonary vascular resistance (PVR) with a 43% survival rate. In the presence of SQ 29,548 this initial pulmonary vasoconstriction was absent and all animals survived. However, a delayed increase in PVR of 58 +/- 20% was detected. The primary manifestation of the increase in PVR was an increase in pulmonary arterial pressure. In a similar preparation, septicemia was produced by Escherichia coli endotoxin (0.5 microgram/kg, i.v.) and SQ 28,668 (3, 10, 30 or 100 micrograms/kg/min, i.v., n = 5-6 per dose level) and vehicle (n = 6) treatments were compared. SQ 28,668 doses of 30 and 100 micrograms/kg/min mitigated the early, but not late, increases in PVR. These data demonstrate that endotoxemia in pigs produces an initial TxA2-receptor-dependent vasoconstriction and also a more slowly developing pulmonary hypertension which is probably due to other mediators.     

Vasoconstriction and bronchoconstriction induced by 2,5-di-(tert-butyl)1,4-benzohydroquinone, an endoplasmic reticular Ca2+-ATPase inhibitor, in isolated and perfused rat lung.

The microsomal Ca(2+)-ATPase inhibitor 2,5-di-(tert-butyl)-1,4-benzohydroquinone (tBuBHQ) induced bronchoconstriction and vasoconstriction in the isolated perfused and ventilated rat lung. These effects were accompanied by increased levels of thromboxane and prostacyclin in the effluent perfusate. The effect of tBuBHQ was inhibited by L-655,240, a thromboxane receptor antagonist, indicating thromboxane-A2-mediated bronchoconstriction and vasoconstriction. Accordingly, the cyclooxygenase inhibitor indomethacin largely blocked the effects of tBuBHQ. The involvement of a phospholipase in the generation of thromboxane A2(TXA2) was supported by dibucaine protection on tBuBHQ effects. The results from this study indicate that tBuBHQ, probably by inhibiting the microsomal Ca(2+)-ATPase, can trigger the arachidonic acid cascade leading to the formation of TXA2, which in turn causes bronchoconstriction and vasoconstriction in rat lung.     

Biochemical characterization and comparison of rat thromboxane A2/prostaglandin H2 receptors in platelets and cultured aortic smooth muscle cells

Comparison of thromboxane A2/prostaglandin H2 (TXA2/PGH2) receptors in rat cultured vascular smooth muscle cells (VSMC) with those in rat gel-filtered platelets (GFP) was carried out using a receptor-ligand binding assay. The binding of each of three radiolabeled TXA2/PGH2 receptor antagonists [( 3H]S-145,[3H]SQ29,548, and [3H]ONO3708) displayed high affinity and specificity as well as saturable and displaceable binding to a single class of recognition sites with the same maximum number in both VSMC and GFP. The Kd values for [3H]S-145 were almost identical for both VSMC and GFP, whereas the values for [3H]SQ29,548 and [3H]ONO3708 for VSMC were approximately two and six times larger than that for GFP. Kinetic analysis of the binding of each receptor antagonist revealed a smaller K1 value (the association rate constant) for [3H]SQ29,548 and a larger K-1 value (the dissociation rate constant) for [3H]ONO3708 for VSMC compared to GFP, in contrast with almost the same kinetic constants for the [3H]S-145 binding for both cells. Comparison of the inhibitory potencies (Ki values) for [3H]S-145 binding for both VSMC and GFP proved that S-145 had the same affinity for both cells; ONO11120 and BM13177, as well as SQ29,548 and ONO3708, possessed lower affinity for VSMC; and U46619 exhibited higher affinity for VSMC. The rank orders of potency were identical in both cells (S-145 greater than SQ29,548 greater than ONO3708 greater than ONO11120 greater than BM13177), which correlated well with their pharmacological activities. These results suggest a similarity in ligand binding specificity with some differences in the accessibility of the antagonists in the TXA2/PGH2 receptors between platelets and vascular smooth muscles.     

Effect of the thromboxane receptor antagonist SQ 29,548 on myocardial infarct size in dogs

The effect of thromboxane A2/prostaglandin endoperoxide receptor blockade on infarct size following myocardial ischemia plus reperfusion was determined in dogs. In anesthetized dogs SQ 29,548 (0.2 mg/kg/h) caused a 1,000-fold shift in the dose flow-response curve of renal and mesenteric beds to U-46619, indicating potent receptor blockade. The vasoconstrictor response of the left circumflex coronary artery (LCX) to U-46619 was completely inhibited by SQ 29,548. Three additional groups of anesthetized dogs were subjected to LCX occlusion and 10 min later were given (a) SQ 29,548 (0.2 mg/kg loading dose + 0.2 mg/kg/h infusion intravenously, i.v., n = 7), a thromboxane A2/prostaglandin endoperoxide receptor antagonist; (b) vehicle (n = 7); and (c) SQ 28,585 (0.2 mg/kg loading dose + 0.2 mg/kg/h infusion i.v., n = 3), an inactive compound structurally related to SQ 29,548. After 90 min of occlusion, the LCX was reperfused for 5 h. The area at risk and infarct size were then determined. The cardiac area at risk was similar in size for all groups. Infarct size as a percentage of the total area at risk was large, 79 +/- 2% in vehicle controls, but this was markedly reduced to 45 +/- 8% with SQ 29,548 treatment. SQ 28,585 did not alter infarct size as compared with vehicle controls. Area at risk and infarct size were highly correlated (r = 0.95) in vehicle-treated animals. None of the drug treatments resulted in a significantly altered hemodynamic status. Thus, blockade of thromboxane A2/prostaglandin endoperoxide receptors during ischemia plus reperfusion resulted in a significant salvage of myocardial tissue and suggests a deleterious role for thromboxane A2 in ischemia.     

Picotamide inhibition of excess in vitro thromboxane B2 release by colorectal mucosa in inflammatory bowel disease.

BACKGROUND: Inflammatory bowel disease is associated with increased mucosal release of eicosanoids. Among these, thromboxane A2 has been proposed as a possible inflammatory mediator; its suppression may be a useful therapeutic option. METHODS: Using a tissue incubation technique, we compared release of immunoreactive thromboxane B2 by colonic biopsies from patients with ulcerative colitis, Crohn's disease and controls, and assessed the inhibitory effect of picotamide, a thromboxane synthesis inhibitor-receptor antagonist, which has been widely used in Italy for management of ischaemic heart and cerebrovascular disease. RESULTS: Increased amounts of thromboxane B2 were released from biopsies from patients with active ulcerative colitis (median 238 pg/20 min/mg wet weight (interquartile range 147- 325), n = 12) and active Crohn's disease (252 (174-450), 6) compared with those from patients with quiescent ulcerative colitis (95 (61- 140), 12) or Crohn's disease (105 (57-201), 13), or controls (136 (64- 206), 8). Incubation with picotamide at concentrations between 100 microM and 1 mM reduced thromboxane B2 release (IC50 890 microM). CONCLUSION: Since increased thromboxane A2 production may have pathogenetic importance, thromboxane synthesis inhibitor-receptor antagonists such as picotamide merit therapeutic trial in the management of inflammatory bowel disease.     

“In vitro” and “ex vivo” effects of picotamide,a combined thromboxane A2-synthase inhibitor and -receptor antagonist,on human platelets

Summary Picotamide (G 137), a new non prostanoid inhibitor of in vitro arachidonic acid induced platelet aggregation, has been further characterized in in vitro and ex vivo studies.When whole blood was activated with collagen in the presence of picotamide 5×10^–4 M, thromboxane B₂ production was decreased, and 6-keto-PGF₁ generation was significantly increased, suggesting a reorientation of platelet endoperoxide metabolism following blockade of thromboxane synthetase. Picotamide also inhibited platelet aggregation and clot retraction induced by the endoperoxide analogue U46619 in human platelets, indicating thromboxane A₂-receptor antagonism, possibly of competitive nature.A single oral dose of picotamide 1 g in 24 healthy volunteers produced a significant inhibition of collagen, arachidonic acid and U46619-induced platelet aggregation. Serum levels of thromboxane B₂ were also reduced.Chronic administration of picotamide 1.2 g/d to patients with vascular disease resulted in a prompt and persistent fall in their increased plasma levels of -thromboglobulin.The results indicate that picotamide is a combined thromboxane B₂-synthetase inhibitor and thromboxane A₂-receptor antagonist in human platelets, and that it may prove useful as an antithrombotic agent.     

Modulation of prostacyclin/thromboxane formation by molsidomine during platelet-endothelial cell interactions

Platelet and endothelial cell metabolism of both exogenous and endogenous arachidonic acid, via the cyclooxygenase pathway, was evaluated according to thromboxane and prostacyclin formations. This was investigated in platelets, endothelial cells alone or during their interactions, in the presence or absence of SIN-1, the active anti-anginal metabolite of molsidomine. This revealed that, in contrast to the generation of thromboxane, which was decreased in the presence of endothelial cells, especially from endogenous arachidonate, that of prostacyclin increased under basal conditions as well as from endogenous arachidonate, that of prostacyclin increased under basal conditions as well as from endogenous arachidonate to a lesser extent. SIN-1 reduced thromboxane formation solely from endogenous arachidonate, and this was more pronounced when both cell populations interacted. In contrast, SIN-1 failed to decrease prostacyclin formation, which would emphasize its anti-aggregating potential. We conclude that the liberation of arachidonic acid leading to prostanoid synthesis may be differently regulated in platelets and endothelial cells, and that molsidomine might be a potential anti-aggregating drug in altering specifically thromboxane formation.     

Inhibition by picotamide of thromboxane production in vitro and ex vivo

Summary The effect of picotamide on platelet function has been studied in vitro and ex vivo.Picotamide at micromolar concentrations inhibited platelet aggregation induced by ADP, arachidonic acid and collagen, and it also inhibited the production of thromboxane A₂ (TxA₂). Unlike aspirin, picotamide did not affect the synthesis of prostacyclin by blood vessels.In eight healthy subjects who took picotamide 1200 mg/d platelet aggregation and TxA₂ production were inhibited.Picotamide appears to be an antiplatelet drug that reduces TxA₂ synthesis without affecting cyclooxygenase activity.     

Pharmacological characterization of cinnamophilin, a novel dual inhibitor of thromboxane synthase and thromboxane A2 receptor.

1. The pharmacological effects of cinnamophilin, a new lignan, isolated from Cinnamomum philippinense, was determined in vitro in human platelet, rat isolated aorta and guinea-pig isolated trachea and in vivo in mice and guinea-pigs. 2. Cinnamophilin inhibited dose-dependently human platelet-rich plasma (PRP) aggregation induced by arachidonic acid (AA), collagen and U-46619 with IC50 of 5.0 +/- 0.4, 5.6 +/- 0.6 and 3.0 +/- 0.4 microM, respectively. The second wave of ADP- or adrenaline-induced platelet aggregation was inhibited by cinnamophilin, while the first wave was only slightly inhibited by cinnamophilin above 30 microM. 3. Cinnamophilin was found to be a thromboxane A2 (TXA2) receptor blocking agent in human platelet, rat aorta and guinea-pig trachea as revealed by its competitive antagonism of U-46619-induced aggregation of human-PRP, contraction of rat aortic rings and guinea-pig tracheal rings with pA2 values of 7.3 +/- 0.2, 6.3 +/- 0.1 and 5.2 +/- 0.2, respectively. 4. [3H]-inositol monophosphate formation and the rise of intracellular Ca2+ caused by U-46619 in human platelet was suppressed by cinnamophilin (10 microM). 5. Cinnamophilin induced a dose-dependent inhibition of thromboxane B2 (TXB2) formation, while the prostaglandin E2 (PGE2) formation was increased. Cinnamophilin did not affect unstimulated platelet adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels. When the platelets were challenged with AA, a dose-dependent rise in cyclic AMP was observed. Dazoxiben (a pure TX synthase inhibitor) and SQ 29548 (a pure TXA2 receptor antagonist) did not affect cyclic AMP levels in AA-treated platelets.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of platelet thromboxane A2/prostaglandin H2 receptor by a novel thromboxane receptor antagonist, [3H]S-145

The specific binding sites for S-145, a novel thromboxane A2/prostaglandin H2 (TXA2/PGH2) receptor antagonist with weak partial agonistic activity, were studied in human platelet membranes. [3H]S-145 displayed high affinity and specificity, as well as saturable and displaceable binding, to a single class of recognition sites with the same maximum number of sites (2100 fmol/mg protein) as the other two TXA2/PGH2 receptor antagonists, [3H]SQ29,548 and [3H]ONO3708. Binding of S-145 to the platelet membranes was enhanced by divalent cations (Mg2+ and Ca2+), and the binding affinity in the presence of 20 mM MgCl2 was 0.75 nM, a value which was smaller than those of SQ29,548 (8.7 nM) and ONO3708 (3.7 nM). The rank order of potency (Ki) for a series of TXA2/PGH2 receptor antagonists to displace [3H]S-145 binding to the membranes was correlated with those determined from [3H]SQ29,548 or [3H]ONO3708 binding to the same preparations. Kinetic analysis for the binding of the above radiolabeled antagonist to the crude platelet membranes revealed that the dissociation rate constant (K-1) for S-145 was much smaller than that for other ligands in human, rat and rabbit platelets. The extremely slow dissociation of S-145 from the receptors may explain the long-lasting characteristic of this compound in vivo as well as the abolishment of partial agonistic activity.     

Inhibition of thromboxane A2 biosynthesis in human platelets by burimamide

1 Burimamide selectively inhibited the formation of thromboxane A2 from prostaglandin endoperoxides by human platelet microsomes in a dose-dependent manner (IC50 = 2.5 x 10(-5) M). Burimamide was found to be equipotent to imidazole as a thromboxane synthetase inhibitor. 2 Metiamide, cimetidine and a series of compounds either bearing a structural or pharmacological relationship to histamine caused little or no inhibition of thromboxane A2 biosynthesis by human platelet microsomes. 3 Burimamide (5 x 10(-4) to 2.3 x 10(-3) M) did not inhibit either the cyclo-oxygenase or the prostacyclin synthetase of sheep seminal vesicles or the prostacyclin synthetase of dog aortic microsomes. 4 Burimamide (2.5 x 10(-5) to 1.2 x 10(-4) M) inhibited sodium arachidonate-induced human platelet aggregation; the degree of inhibition was dependent upon the concentration of arachidonic acid used to aggregate the platelets.     

Endothelium-derived prostaglandin H2 evokes the stretch-induced contraction of rabbit pulmonary artery

Stretch-induced contraction of rabbit pulmonary artery depends on endothelium-derived vasoactive prostanoids. We investigated which prostanoid(s) was responsible for the stretch-induced contraction of the artery, and whether integrin was involved in this mechanotransduction process. Stretch increased productions of untransformed prostaglandin H(2), prostaglandin E(2), prostaglandin F(2alpha), and thromboxane A(2) in the pulmonary artery with intact endothelium. A blocking peptide for integrins (RGD peptide) significantly inhibited productions of thromboxane A(2) and prostaglandin F(2alpha), but the peptide did not affect productions of untransformed prostaglandin H(2) and prostaglandin E(2), as well as contraction in response to stretch. SQ29,548, a prostaglandin H(2)/thromboxane A(2) receptor antagonist, inhibited the contractile response to not only stretch but also exogenous prostaglandin H(2). Acetylcholine (up to 30 microM) also contracted the artery in an endothelium-dependent manner. Ozagrel (10 nM-1 microM), an inhibitor of thromboxane synthase, abolished the production of thromboxane A(2), in response to both stretch and acetylcholine, whereas the inhibitor mostly inhibited acetylcholine-induced contraction, but it did not suppress stretch-induced contraction. The results suggested that prostaglandin H(2) and thromboxane A(2), either released from endothelium by mechanical stretch or by acetylcholine, produced contraction of rabbit pulmonary artery in a RGD-independent manner.     

Redirection of arachidonic acid metabolism by ICI D1542: effects on thrombus formation in the coronary artery of the anaesthetized dog.

1. The effects of simultaneous redirection of arachidonic acid metabolism, by inhibition of thromboxane A2 (TXA2) synthase and blockade of the platelet thromboxane A2 receptor (TP-receptor), was examined on the rate of thrombus formation in a stenosed coronary artery with damaged endothelium in an anaesthetized dog. 2. Redirection of arachidonic acid metabolism was achieved by intravenous doses of ICI D1542, a selective and potent inhibitor of TXA2 synthase and the TP-receptor. 3. Redirection of arachidonic acid metabolism was demonstrated in whole blood, stimulated ex vivo by collagen. The ED50 for inhibition of TXB2 production was 7.1 micrograms kg-1, i.v.; there were corresponding increases in the production of the eicosanoids prostaglandin D2 (PGD2), PGE2 and PGF2 alpha. 4. Thrombus formation was inhibited by D1542 (ED50 0.55 micrograms kg-1, i.v.), but could be restarted by an intravenous infusion of adrenaline (0.2-38 micrograms kg-1 min-1, i.v.). In the presence of the maximum effective dose of D1542 (1 mg kg-1, i.v.) a 190 fold increase in the infusion rate of adrenaline was required to restore thrombus formation. 5. In the presence of D1542, removal of endoperoxide metabolites by inhibition of cyclo-oxygenase with aspirin (5 mg kg-1, i.v.) caused thrombus formation to restart, indicating the ability of the endoperoxide metabolites to inhibit thrombus formation in vivo. 6. These results indicate that, in the stenosed and damaged coronary artery of the dog, redirection of arachidonic acid metabolism by D1542 is more effective at preventing thrombus formation than inhibition of cyclo-oxygenase by aspirin.