Prostaglandin endoperoxides modulate the response to thromboxane synthase inhibition during coronary thrombosis.

Fitzgerald, Desmond J.; J, Fragetta; FitzGerald, Garret A.

doi:10.1172/jci113784

Cited by 92 publications

(32 citation statements)

References 38 publications

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“…This effect was most marked at the time ofreperfusion and during rethrombosis, when platelet activation is markedly increased. Similar findings have recently been reported by Fitzgerald et al in a chronic model of coronary thrombosis (32). Another finding supporting this hypothesis has been reported in a recent study from our laboratory, in which combined TxA2 synthase inhibition and receptor blockade (by R 68070) was more effective in preventing epinephrine-induced cyclic flow variations than blockade of TxA2/PGH2 receptors alone (33).…”

Section: Discussionsupporting

confidence: 88%

Endogenous prostaglandin endoperoxides and prostacyclin modulate the thrombolytic activity of tissue plasminogen activator. Effects of simultaneous inhibition of thromboxane A2 synthase and blockade of thromboxane A2/prostaglandin H2 receptors in a canine model of coronary thrombosis.

Golino¹,

Rosolowsky²,

Yao³

et al. 1990

J. Clin. Invest.

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We tested the hypothesis that simultaneous inhibition of TxA2 synthase and blockade of TxA2/PHG2 receptors is more effective in enhancing thrombolysis and preventing reocclusion after discontinuation of tissue plasminogen activator (t-PA) than either intervention alone. Coronary thrombosis was induced in 35 dogs by placing a copper coil into the left anterior descending coronary artery. Coronary flow was measured with a Doppler flow probe. 30 min after thrombus formation, the animals received saline (controls, n = 10); SQ 29548 (0.4 mg/kg bolus + 0.4 mg/kg per h infusion), a TxA2/PGH2 receptor antagonist (n = 8); dazoxiben (5 mg/kg bolus + 5 mg/kg per h infusion), a TxA2 synthase inhibitor (n = 9); or R 68070 (5 mg/kg bolus + 5 mg/kg per h infusion), a drug that blocks TxA2/PGH2 receptors and inhibits TxA2 synthase (n = 8). Then, all dogs received heparin (200 U/kg) and a bolus of t-PA (80 ;&g/kg) followed by a continuous infusion (8 ag/kg per min) for up to 90 min or until reperfusion was achieved. The time to thrombolysis did not change significantly in SQ 29548-treated dogs as compared with controls (42 ± 5 vs. 56 ± 7 min, respectively, P = NS), but it was significantly shortened by R 68070 and dazoxiben (11 ± 2 and 25 ± 6 min, respectively, P < 0.001 vs. controls and SQ 29548-treated dogs). R 68070 administration resulted in a lysis time significantly shorter than that observed in the dazoxiben-treated group (P < 0.01). Reocclusion was observed in eight of eight control dogs, five of seven SQ 29548-treated dogs, seven of nine dazoxiben-treated dogs, and zero of eight R 68070-treated animals (P < 0.001). TxB2 and 6-keto-PGFia, measured in blood samples obtained from the coronary artery distal to the thrombus, were significantly increased at reperfusion and at reocclusion in control animals and in dogs receiving SQ 29548.

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Section: Discussionsupporting

confidence: 88%

Endogenous prostaglandin endoperoxides and prostacyclin modulate the thrombolytic activity of tissue plasminogen activator. Effects of simultaneous inhibition of thromboxane A2 synthase and blockade of thromboxane A2/prostaglandin H2 receptors in a canine model of coronary thrombosis.

Golino¹,

Rosolowsky²,

Yao³

et al. 1990

J. Clin. Invest.

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“…For example, in human platelet-rich plasma in vitro, the TP-receptor blocking drug, BM 13.177, markedly potentiates the anti-aggregatory activity of dazoxiben (Bertele & De Gaetano, 1982). Similarly, in an in vivo canine model of coronary thrombosis, the combination of a TP-receptor blocking drug with a thromboxane synthase inhibitor produced a substantially greater inhibition than that achieved with either compound alone, consistent with a proaggregatory effect of PGH2 limiting the effectiveness of thromboxane synthase inhibitors in vivo (Fitzgerald et al, 1988). This latter effect has also been observed clinically, where the combined oral administration of BM 13.177 and dazoxiben to human volunteers produced inhibition of ex vivo collagenand arachidonic acid-induced platelet aggregation and a prolongation of the bleeding time which were significantly greater than achieved following either treatment alone (Gresele et 1987).…”

Section: Introductionmentioning

confidence: 81%

Thromboxane (Tx) A₂ receptor blockade and TxA₂ synthase inhibition alone and in combination: comparison of anti‐aggregatory efficacy in human platelets

Watts¹,

Wharton²,

White³

et al. 1991

British J Pharmacology

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The present study has compared the relative anti‐aggregatory effect of various compounds which interfere with thromboxane (Tx) A2‐dependent aggregation of human platelets in whole blood in vitro. These included the cyclo‐oxygenase inhibitor aspirin, the TxA2 synthase inhibitor dazoxiben, the TxA2 (TP‐) receptor blocking drug GR32191 and two compounds, R.68070 ((E)‐5‐[[[(3‐pyridinyl) [3‐(trifluoromethyl)phenyl]‐methylen] amino]oxy] pentanoic acid) and CV‐4151 ((E)‐7‐phenyl‐7‐(3‐pyridyl)‐6‐heptenoic acid), which possess both TP‐receptor blocking and TxA2 synthase inhibitory activities in the same molecule. GR32191, R.68070 and CV‐4151 all antagonized aggregation to the TxA2 mimetic U‐46619, with pA2 values of approximately 8.2, 5.4 and 4.8 respectively. This effect was specific, platelet aggregation induced by adenosine 5′‐diphosphate (ADP) being unaffected by concentrations up to 10, 1000 and 300 μm respectively. In contrast, neither aspirin nor dazoxiben exhibited any measurable TP‐receptor blocking activity. The rank order of potency (pIC50)for inhibition of TxA2 formation in serum was R.68070 (7.4) > CV‐4151 (6.9) > dazoxiben (5.7) > aspirin (5.3). In addition, all four drugs abolished collagen‐induced platelet TxA2 formation. In contrast, GR32191 produced no consistent inhibition of TxA2 formation in either system up to concentrations of 10–30 μm. The specificity of R.68070, CV‐4151 and dazoxiben for TxA2 synthase was indicated by their ability to increase serum levels of prostaglandin E2 (PGE2) and PGD2 in parallel with decreases in TxA2 formation. This profile was not observed with aspirin or GR32191. However, high concentrations of R.68070 (100 μm) and CV‐4151 (1000 μm) necessary for maximum TP‐receptor blocking activity, produced substantially smaller increases in PGE2 and PGD2, consistent with an aspirin‐like effect of these compounds upon cyclo‐oxygenase. With dazoxiben (1000 μm), PGE2 and PGD2 levels remained elevated. Aspirin inhibited collagen‐induced platelet aggregation, the effect correlating with inhibition of TxA2 formation. Dazoxiben, whilst also achieving maximal inhibition of TxA2 formation, produced significantly less inhibition of aggregation than aspirin. In contrast, GR32191 (0.1–10 μm), at concentrations specific for TP‐receptor blockade, produced a significantly greater antagonism of collagen‐induced platelet aggregation than aspirin. This additional effect of GR32191 was absent in platelets pretreated with aspirin, indicating the probable involvement of an endogenous anti‐aggregatory cyclo‐oxygenase product in response to collagen stimulation. R.68070 and CV‐4151 also inhibited collagen‐induced aggregation, with very high concentrations of R.68070 (100 μm) producing an effect equivalent to that of GR32191. In contrast, the combination of GR32191 with either dazoxiben, R.68070 or CV‐4151, at concentrations specific for TxA2 synthase, produced a synergistic inhibitory effect upon collagen‐induced platelet aggregation which was greater than that achieved with either aspirin or any of the ...

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“…TX synthase inhibitors have been shown to have synergistic effects with antagonists of the shared PG endoperoxide/TXA2 receptor both in the prevention of electrically induced coronary artery thrombosis (31) and in the abolition of platelet-dependent cyclical flow phenomena in an experimental model of partial coronary occlusion (32). In both instances synergy was abolished by pretreatment with a cyclooxygenase inhibitor, suggesting its dependence on the generation of platelet-inhibitory eicosanoids, such as PGI2 and PGD2-Study of the formation of eicosanoids in bleeding time blood also provides insight into their potential role at sites of vascular injury under physiological conditions, the temporal increase of TXB2 in bleeding time blood coincides with the phase of platelet-platelet interaction after vascular injury in the rat mesentery (33).…”

Section: Discussionmentioning

confidence: 99%

Redirection of prostaglandin endoperoxide metabolism at the platelet-vascular interface in man.

Nowak

FitzGerald²

1989

J. Clin. Invest.

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Prostacyclin (PGI2) is an inhibitor of platelet function in vitro. We tested the hypothesis that PG12 is formed in biologically active concentrations at the platelet-vascular interface in man and can be pharmacologically modulated to enhance its inhibitory properties. This became feasible when we developed a microquantitative technique that permits the measurement of eicosanoids in successive 40-,ul aliquots of whole blood emerging from a bleeding time wound.In 13 healthy volunteers the rate of production of thromboxane B2 (TXB2)

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Prostaglandin endoperoxides modulate the response to thromboxane synthase inhibition during coronary thrombosis.

Cited by 92 publications

References 38 publications

Endogenous prostaglandin endoperoxides and prostacyclin modulate the thrombolytic activity of tissue plasminogen activator. Effects of simultaneous inhibition of thromboxane A2 synthase and blockade of thromboxane A2/prostaglandin H2 receptors in a canine model of coronary thrombosis.

Endogenous prostaglandin endoperoxides and prostacyclin modulate the thrombolytic activity of tissue plasminogen activator. Effects of simultaneous inhibition of thromboxane A2 synthase and blockade of thromboxane A2/prostaglandin H2 receptors in a canine model of coronary thrombosis.

Thromboxane (Tx) A₂ receptor blockade and TxA₂ synthase inhibition alone and in combination: comparison of anti‐aggregatory efficacy in human platelets

Redirection of prostaglandin endoperoxide metabolism at the platelet-vascular interface in man.

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Prostaglandin endoperoxides modulate the response to thromboxane synthase inhibition during coronary thrombosis.

Cited by 92 publications

References 38 publications

Endogenous prostaglandin endoperoxides and prostacyclin modulate the thrombolytic activity of tissue plasminogen activator. Effects of simultaneous inhibition of thromboxane A2 synthase and blockade of thromboxane A2/prostaglandin H2 receptors in a canine model of coronary thrombosis.

Endogenous prostaglandin endoperoxides and prostacyclin modulate the thrombolytic activity of tissue plasminogen activator. Effects of simultaneous inhibition of thromboxane A2 synthase and blockade of thromboxane A2/prostaglandin H2 receptors in a canine model of coronary thrombosis.

Thromboxane (Tx) A2 receptor blockade and TxA2 synthase inhibition alone and in combination: comparison of anti‐aggregatory efficacy in human platelets

Redirection of prostaglandin endoperoxide metabolism at the platelet-vascular interface in man.

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Thromboxane (Tx) A₂ receptor blockade and TxA₂ synthase inhibition alone and in combination: comparison of anti‐aggregatory efficacy in human platelets