Coronary Vasoconstrictor and Vasodilator Actions of Arachidonic Acid in the Isolated Perfused Heart of the Rat

Belo, Susan; Talesnik, J

doi:10.1111/j.1476-5381.1982.tb08783.x

Cited by 22 publications

(9 citation statements)

References 78 publications

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“…Both effects appeared to be indirect, mediated at least in part by production of products of cyclo-oxygenase, since they were reduced after administration of indomethacin. It has been found, that arachidonic acid has both indirectly mediated vasoconstrictor and vasodilator properties in the coronary arteries of the rat (Belo & Talesnik, 1982) and also the dog (Sterin-Borda et al, 1981). During diabetes, apparent conversion of arachidonic acid to depressor metabolites in the whole animal continued to predominate but the contribution made by the constrictor metabolite or metabolites appeared to increase.…”

Section: Discussionmentioning

confidence: 99%

Changes in cardiovascular sensitivity of alloxan‐treated diabetic rats to arachidonic acid

Boura

Hodgson

King

1986

British J Pharmacology

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1 Arachidonic acid (AA, 0.125-2.0mgkg-') administered intravenously to male Wistar rats produced a dose-dependent fall in diastolic blood pressure. However AA (0.125 -1.0 mg kg-') injected into the autoperfused hindquarters via the aorta produced a dose-dependent increase in perfusion pressure. Both these responses to AA were inhibited by indomethacin (5 mg kg-'). 2 The thromboxane A2 receptor antagonist AH23848 (5 mg kg-', i.v.) inhibited pressor responses to AA in the autoperfused hindquarters, but potentiated depressor responses to AA (0.125-0.5 mg kg ') in the whole animal. 3 Alloxan-treated diabetic rats (14 days after a single s.c. injection of alloxan, 175mg kg-')displayed reduced sensitivity to the depressor effects of AA (1-2mgkg-1) in the whole animal, increased sensitivity to the pressor effects of AA (0.5-1.0 mg kg-1) in the perfused hindquarters, and reduced sensitivity to the pressor effects of the thromboxane A2 mimetic U46619 (0.5-8.0 fig kg-', i.a.) in the perfused hindquarters. 4 These results suggest that AA can be predominantly converted to either pressor or depressor metabolites depending on the vasculature. In the diabetic state the ratio of the metabolites formed appears to change favouring a major pressor metabolite, which is probably thromboxane A2.

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Section: Discussionmentioning

confidence: 99%

Changes in cardiovascular sensitivity of alloxan‐treated diabetic rats to arachidonic acid

Boura

Hodgson

King

1986

British J Pharmacology

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“…A meta-analysis suggested that linoleic acid (LA) content was inversely related to CHD risk [ 51 ], and a clinical study concluded that high circulating LA levels were inversely associated with total and CHD mortality in older adults [ 52 ]. In contrast, it has been reported that AA and its metabolites possess proinflammatory and proaggregatory properties [ 53 , 54 , 55 ]. Others argue that omega-6 and omega-3 PUFA are metabolized by the same desaturation/elongation pathway and could thus influence long-chain PUFA content, which could reduce the beneficial effect of omega-3 PUFA.…”

Section: Role Of Omega-6 Pufamentioning

confidence: 99%

Cardioprotective Effects of Omega-3 Polyunsaturated Fatty Acids: Dichotomy between Experimental and Clinical Studies

2018

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The high-fat diet of North Americans has a major impact on cardiovascular disease occurrence. Notably, fatty acids have been identified as important factors that could modulate such diseases, especially myocardial infarction (MI). Experimentally, omega-3 polyunsaturated fatty acids (PUFA) have demonstrated positive effects on cardiovascular disorders and have also shown cardioprotection by decreasing MI size. Although many animal experiments have clearly established the benefits of omega-3 PUFA, clinical studies have not reached similar conclusions. In fact, the findings of recent clinical investigations indicate that omega-3 PUFA play only a minor role in cardiovascular health. This dichotomy between experimental and clinical studies may be due to different parameters that are not taken into account in animal experiments. We have recently observed that the high consumption of omega-6 PUFA results in significant attenuation of the beneficial effect of omega-3 PUFA on MI. We believe that part of the dichotomy between experimental and clinical research may be related to the quantity of omega-6 PUFA ingested. This review of the data indicates the importance of considering omega-6 PUFA consumption in omega-3 PUFA studies.

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“…These observations suggest a vasodilator action on the microvasculature of the guinea-pig perfused heart. It is well established that PGI2 decreases coronary flow in isolated hearts from rabbits, rats and guineapigs and that PGI2 generation is increased by a range of stimuli including exogenous arachidonic acid (Schror et al, 1978;Belo & Talesnik, 1982), hypoxia (Wennmalm, 1979), Paf (Piper & Stewart, 1986) and ATP (Fleetwood & Gordon, 1987). Since the ability of both bradykinin and the ionophore, A23187, to stimulate PGI2 generation from cultured endothelial cells (McIntyre et al, 1985;Gryglewski et al, 1986;Gerritsen, 1987) and isolated perfused lungs (Bakhle et al, 1985) is well recognized, it was important to determine whether these stimuli had a similar effect in the perfused heart and also to identify a possible contribution to the observed vasodilator responses.…”

Section: Discussionmentioning

confidence: 99%

Vasodilator actions of acetylcholine, A23187 and bradykinin in the guinea‐pig isolated perfused heart are independent of prostacyclin

Stewart

Piper

1988

British J Pharmacology

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1 The involvement of prostacyclin (PGI2) in the vasodilator responses to acetylcholine (ACh), A23187 and bradykinin (Bk) has been investigated in guinea-pig, isolated, Krebs-perfused hearts. 2 ACh (0.01-lOnmol), A23187 (0.1-1.Onmol) and Bk (0.3-lOpmol) each elicited dose-related and shortlasting (-2 min) reductions in perfusion pressure. Larger maximal responses were obtained in preparations with coronary vascular tone elevated by platelet-activating factor (100 pmol) than in preparations at basal perfusion pressure. 3 Bk and A23187 elicited dose-related increases in the generation of PGI2 as measured by its chemically-stable breakdown product, 6-oxo-PGFg. Indomethacin (2.8 uM) prevented both basal and the stimulated generation of 6-oxo-PGF,., whereas the magnitudes of the vasodilator responses were unaffected. 4 Attempts to identify the release of vasodilator materials by on-line superfusion bioassay of cardiac effluent were unsuccessful, indicating a possible role for a labile vasodilator such as endothelium-dependent relaxing factor (EDRF). In addition, the inhibitors of EDRF action/ production, mepacrine (3yM) or diethylcarbamazine (300pM), attenuated vasodilator responses to ACh without altering those to the endothelium-independent vasodilator, verapamil (1 nmol). 5 Haemoglobin (10pM) reduced vasodilator responses to ACh, Bk and verapamil and abolished those induced by A23187. Inhibition of the endothelium-independent vasodilator, verapamil, was significantly less than that for the other compounds. 6 The present data indicate the existence of an indomethacin-resistant vasodilator mechanism in the coronary microcirculation in response to ACh, A23187 and Bk. EDRF is a candidate for mediating these responses; however, a direct vasodilator action of these substances cannot be excluded.

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Coronary Vasoconstrictor and Vasodilator Actions of Arachidonic Acid in the Isolated Perfused Heart of the Rat

Cited by 22 publications

References 78 publications

Changes in cardiovascular sensitivity of alloxan‐treated diabetic rats to arachidonic acid

Changes in cardiovascular sensitivity of alloxan‐treated diabetic rats to arachidonic acid

Cardioprotective Effects of Omega-3 Polyunsaturated Fatty Acids: Dichotomy between Experimental and Clinical Studies

Vasodilator actions of acetylcholine, A23187 and bradykinin in the guinea‐pig isolated perfused heart are independent of prostacyclin

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