Multifaceted effects of arachidonic acid and interaction with cyclic nucleotides in human platelets
Valentina Shpakova
Thrombosis Research, 2018
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Investigation of cyclooxygenase and signaling pathways involved in human platelet aggregation mediated by synergistic interaction of various agonists
Bassem S H A B A N Sadek
Drug Design, Development and Therapy, 2015
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Measurement of arachidonic acid liberation in thrombin-stimulated human platelets. Use of agents that inhibit both the cyclooxygenase and lipoxygenase enzymes
Gerard Mauco
Biochimica et biophysica acta, 1985
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Inhibition by sulfhydryl agents of arachidonic acid-induced platelet aggregation and release of potential inflammatory substances
Bernardo Vargaftig
Prostaglandins, 1974
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Effect of eicosatetraenyl (3-aminopropyl) phosphonate (URI-73A) on platelet aggregation and arachidonic acid metabolism
Raffaele Landolfi
Prostaglandins, …, 1983
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Effects of a trans isomer of arachidonic acid on rat platelet aggregation and eicosanoid production
jean-louis sebedio
The Journal of Lipid Research
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Involvement of Nitric Oxide on Calcium Mobilization and Arachidonic Acid Pathway Activation during Platelet Aggregation with different aggregating agonists
Sahana Mazumder
International journal of biomedical science : IJBS, 2016
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Arachidonic acid stimulates the formation of 1,2-diacylglycerol and phosphatidic acid in human platelets. Degree of phospholipase C activation correlates with protein phosphorylation, platelet shape change, serotonin release, and aggregation
W. Siess
The Journal of biological chemistry, 1983
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Serine esterase inhibitors block stimulus-induced mobilization of arachidonic acid and phosphatidylinositide-specific phospholipase C activity in platelets
Jack Vanderhoek
Journal of Biological Chemistry, 1980
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Rapid inactivation of cyclooxygenase activity after stimulation of intact platelets
Eduardo Lapetina
Proceedings of the National Academy of Sciences, 1979
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Arachidonic Acid Metabolism in Endothelial Cells and Platelets
Nazmul Islam
Annals of The New York Academy of Sciences, 1982
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Triggering by Paf-acether and adrenaline of cyclo-oxygenase-independent platelet aggregation
Bernardo Vargaftig
British Journal of Pharmacology, 1984
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Effects of adenosine 3′:5′-monophosphate and platelet aggregation on thromboxane biosynthesis in human platelets
Hans-erik Claesson
FEBS Letters, 1979
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Requirement of ADP for arachidonic acid-induced platelet aggregation: studies with selective thromboxane-synthase inhibitors
Chiara cerletti
Biochemical Pharmacology, 1986
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Influence of calcium-channel blockers on platelet function and arachidonic acid metabolism
JAY MEHTA
American Journal of Cardiology, 1985
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Why do some β adrenergic agonists inhibit generation of thromboxane A2 in incubates of platelets with arachidonic acid?
Bernardo Vargaftig
Biochemical Pharmacology, 1978
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Activation of phospholipase C is dissociated from arachidonate metabolism during platelet shape change induced by thrombin or platelet-activating factor. Epinephrine does not induce phospholipase C activation or platelet shape change
W. Siess
The Journal of biological chemistry, 1984
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Pharmacologic inhibition of thromboxane synthetase and platelet aggregation: modulatory role of cyclooxygenase products
Anna Falanga
Blood, 1984
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Covalent binding of arachidonic acid metabolites to human platelet proteins. Identification of prostaglandin H synthase as one of the modified substrates
Marc Lecomte
Journal of Biological Chemistry, 1990
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Inhibition of release of arachidonic acid by monodansylcadaverine during activation of human platelets by collagen
Hwa-Jin Park
Agricultural and Biological Chemistry, 1986
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Modulation of platelet function by reactive oxygen metabolites
Giuseppe Ambrosio
1994
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Synergism interaction between arachidonic acid by 5-hydroxytryptamine in human platelet aggregation is mediated through multiple signalling pathways
Huma Rasheed
Acta pharmacologica Sinica, 2003
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Arachidonic acid metabolism in platelets and endothelial cells
Babette Weksler
Progress in Lipid Research, 1981
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The role of inhibition of nitric oxide synthesis in the aggregation of platelets due to the stimulated production of thromboxane A2
Sahana Mazumder
Blood Coagulation & Fibrinolysis, 2014
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Synergistic effect of PGE1 and the calcium antagonist verapamil in disaggregation of aggregated platelets and inhibition of platelet aggregation induced by PAF-acether or arachidonic acid
Yaw Oppong
Progress in Lipid Research, 1986
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The key contribution of platelet and vascular arachidonic acid metabolism to the pathophysiology of atherothrombosis
Bianca Rocca
Cardiovascular Research, 2021
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Inhibitory effect of stearidonic acid (18∶4 n−3) on platelet aggregation and arachidonate oxygenation
Michel Lagarde
Lipids, 1989
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The Effects of Vanilloid-Like Agents on Platelet Aggregation
Murray Adams, Kiran Ahuja
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Oxidative pathways of arachidonic acid as targets for regulation of platelet activation
Andrés Trostchansky
Prostaglandins & Other Lipid Mediators, 2019
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Phorbol esters sensitize platelets to activation by physiological agonists
W. Siess
Blood, 1987
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Ionophore A-23187- and thrombin-induced platelet aggregation: independence from cycloxygenase products
Eduardo Lapetina
Proceedings of the National Academy of Sciences, 1978
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Low concentrations of reactive γ-ketoaldehydes prime thromboxane-dependent human platelet aggregation via p38-MAPK activation
Jennifer Lefils, Michel Guichardant, Michel Lagarde
Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biology of Lipids, 2009
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