The role played by the extraneuronal system in the disposition of noradrenaline and adrenaline in vessels

1 The effect of different concentrations of phenoxybenzamine (0.1, 0.3, 1, 3, 10 and 30 nmol l') on the concentration-response curves to phenylephrine (a selective ax,-adrenoceptor agonist) and noradrenaline (a mixed a,-and M2-adrenoceptor agonist) was compared in two kinds of vascular tissue: dog saphenous vein (has both postsynaptic a,-and M2-adrenoceptors) and dog mesenteric and renal arteries -where only postsynaptic ax-adrenoceptors have been shown to exist. 2 In the saphenous vein, where both a,-and M2-adrenoceptors coexist, at only one concentration of phenoxybenzamine, 3 nmol I -', the concentration-response curve of noradrenaline was shifted to the right without a reduction of the maximum; and this shift was small (by 0.4 log units). 3 In tissues where only o,-adrenoceptors exist postsynaptically (mesenteric and renal arteries) phenoxybenzamine never caused any shift of the noradrenaline concentration-response curves to the right without depressing the maximum effect. 4 In none ofthe tissues did phenoxybenzamine at any concentration shift the concentration-response curve of phenylephrine to the right without depressing its maximum. 5 All these results indicate that in the dog saphenous vein there is a 'false' o-adrenoceptor reserve for noradrenaline, since two kinds of receptors participate in the response to this amine. 6 The calculation of the occupancy-response relationship for the renal artery showed that 24% of the maximal response occurs when only 2% ofa,-adrenoceptors are activated and 50% ofmaximum at 9% occupation. However, for 95% of the maximal response an 83% occupancy is required. Similar values were calculated for the mesenteric artery. 7 Thus, the surplus a,-adrenoceptors which is very large for a half-maximal response becomes smaller and smaller as the magnitude of the response increases and probably disappears at the 100% response level.8 If we retain the original definition of 'spare receptors' -receptors in 'excess' of those required to produce a maximal response, we conclude, that there is no receptor reserve in the dog mesenteric and renal arteries.

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“…As previously found (Guimaraes & Paiva, 1977), noradrenaline was more potent than phenylephrine (Figure 2).…”

Section: Mesenteric Arterysupporting

confidence: 87%

Postsynaptic α‐adrenoceptor reserve and the shift of the concentration‐response curves to the right, as caused by the irreversible α‐adrenoceptor antagonist phenoxybenzamine

Guimarães

Paiva

1987

British J Pharmacology

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“…The problems concerning endogenous NA content of mesenteric artery and saphenous vein strips obtained from normotensive dogs and the removal, accumulation and metabo lism of 5H-NA by these blood vessels have been presented and discussed by Garrett and Branco (1977) for the mesenteric artery strips and by Guimaràes and Paiva (1977) and Paiva and Guimaràes (1978) for the saphe nous vein strips. The present results, ob tained in these blood vessels, removed from normotensive dogs, well agree with the re sults described by those authors.…”

Section: Discussionmentioning

confidence: 99%

Uptake and Metabolism of Noradrenaline by Blood Vessels of Perinephritic Hypertensive Dogs

Garrett¹,

Castro-Tavares²,

Branco³

1981

J Vasc Res

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Tissue noradrenaline content as well as uptake and metabolism of tritiated exogenous noradrenaline were studied comparatively, in vitro in mesenteric arteries, and in saphenous veins of normotensive and perinephritic hypertensive dogs. The influence of cocaine, iproniazid and 3’-4’-dihydroxy-2-methyµ-propiophenone (U-0521) on these variables wasalso investigated. The concentration of (–)-7-³H-noradrenaline used was 1.084 µM. No changes were observed in noradrenaline content, uptake and metabolism in saphenous vein strips obtained from normotensive or hypertensive animals. However, in mesenteric artery strips obtained from hypertensive dogs, a marked reduction in endogenous noradrenaline content was observed as well as a reduction in noradrenaline accumulation (20 weeks after surgery). The deamination pattern was also modified in these strips: the formation of DOPEGwas markedly diminished and the formation of DOMA was increased. These results agree well with the degeneration of the sympathetic innervation of the mesenteric arteries of hypertensive dogs described by Azevedo et al. (1981).

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Inactivation of Catecholamines in the Blood Vessel Wall

Osswald

1986

Central and Peripheral Mechanisms of Cardiovascular Regulation

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The role played by the extraneuronal system in the disposition of noradrenaline and adrenaline in vessels

Cited by 20 publications

References 21 publications

Postsynaptic α‐adrenoceptor reserve and the shift of the concentration‐response curves to the right, as caused by the irreversible α‐adrenoceptor antagonist phenoxybenzamine

Postsynaptic α‐adrenoceptor reserve and the shift of the concentration‐response curves to the right, as caused by the irreversible α‐adrenoceptor antagonist phenoxybenzamine

Uptake and Metabolism of Noradrenaline by Blood Vessels of Perinephritic Hypertensive Dogs

Inactivation of Catecholamines in the Blood Vessel Wall

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