Functional characterization of postjunctional alpha-adrenoceptors in rat aorta

Characterization of histamine-induced contraction in rat isolated aorta

High concentrations of histamine (greater than 10 microM) contract rat aortic rings and the effect is greatly enhanced when the endothelium is removed. The present study was aimed at characterizing the histamine-induced contractions of de-endothelialized rat aortic rings. These contractions were poorly inhibited by the histamine H1-receptor antagonist, mepyramine (1 and 10 microM) and insensitive to the histamine H2-receptor antagonist, cimetidine (10 microM), and to the cyclooxygenase inhibitor, indomethacin (5 microM). In contrast, the alpha-adrenoceptor antagonists, prasozin and pentholamine, antagonized these contractions in a concentration-dependent manner (respective apparent pKB values 9.7 and 7.9) and nifedipine (3 microM) reduced them by about 75%. Pretreatment of de-endothelialized rings with 8-bromo-cyclic GMP and of intact rings with methylene blue resulted in respective inhibition and enhancement of histamine-induced contractions, quite similarly to the effects in the presence and in the absence of endothelium, respectively. Histamine elicited endothelium-dependent relaxation of aortic rings precontracted by prostaglandin F2 alpha. This relaxation was abolished in the presence of mepyramine (1 microM). However, mepyramine failed to mimic the enhancing effect of endothelium removal on histamine-induced contractions of resting aortic rings. It is concluded that, in rat aorta, (1) contractions induced by high concentrations of histamine (greater than 10 microM) are probably mediated by alpha 1-adrenoceptors; and (2) spontaneous, but not histamine-stimulated, release of endothelium-derived relaxing factor is mainly involved in the modulation of histamine-induced contractions.

Effects of isozyme-selective phosphodiesterase inhibitors on rat aorta and human platelets: smooth muscle tone, platelet aggregation and cAMP levels

The inhibitors of the cGMP-inhibited, low-Km cAMP phosphodiesterase--milrinone and OPC 3911--and an inhibitor of a non-cGMP-inhibited low-Km cAMP phosphodiesterase--rolipram--were used to evaluate the functional importance of the two cAMP phosphodiesterase activities in vascular smooth muscle and in platelets. Vinpocetine, an inhibitor of a calcium-calmodulin-dependent phosphodiesterase was also studied. OPC 3911 and milrinone relaxed the contracted rat aorta, inhibited ADP-induced platelet aggregation and also enhanced isoprenaline-induced relaxation as well as the antiaggregatory effects of adenosine. In platelets, OPC 3911 and milrinone increased cAMP levels, but in the rat aorta the increase was significant only for milrinone (OPC 3911 P = 0.062). In both tissues OPC 3911 and milrinone enhanced the increase in cAMP caused by activators of adenylate cyclase (isoprenaline/adenosine). Rolipram had no effects on aggregation or cAMP levels in platelets and no overadditive effects in combination with adenosine. Rolipram had little effect on relaxation and cAMP levels, did not alter isoprenaline-induced relaxation of guanfacin-contracted rat aorta, but showed synergistic effects with isoprenaline in raising cAMP levels. In PGF2 alpha-contracted aorta rolipram enhanced relaxation caused by isoprenaline. Vinpocetine had a relaxant effect without affecting cAMP levels, but had no effect on platelets. These results support the concept that the cGMP-inhibited phosphodiesterase is an important modulator of vascular smooth muscle tone and platelet function. The role of the non-cGMP-inhibited phosphodiesterase in these tissues is less obvious.

Different effects of R 56865 and calcium entry blockers on K+- and noradrenaline-induced contractions and 45Ca uptake in rat aorta

The effects of R 56865, nifedipine, verapamil, diltiazem and flunarizine on K+- and NA-induced contractions and K+-induced 45Ca uptake were compared in the isolated rat aorta. The calcium entry blockers concentration dependently inhibited the K+-induced contraction and 45Ca uptake over the same dose-range. R 56865 inhibited the K+-induced 45Ca uptake, but only partly inhibited the K+-induced contraction. The calcium entry blockers caused a slight rightward shift and a depression of the maximum of the concentration-response curve for the NA-induced contraction. In contrast, R 56865 caused a strong, dose-dependent rightward shift and a depression of the maximum, 10(-6) and 10(-5) M being equieffective. The effects of R 56865 and nifedipine were independent of each other. Nevertheless, the NA-induced increase in 45 Ca uptake, a putative model for Ca influx, was attenuated by R 56865. In conclusion, R 56865 is a weak inhibitor of the K+-induced Ca influx but is without effect on the NA-induced Ca influx. The discrepancy between its effects on K+-induced contractions and 45Ca uptake may be explained by an inhibition of the uptake of 45Ca from the cytosol into the 45Ca pool. The interaction between R 56865 and the alpha 1-adrenoceptor-mediated contractions may be explained by an action at a site that is distinct from the NA-binding-site on the alpha 1-adrenoceptor.

The modulatory role of vascular endothelium in the interaction of agonists and antagonists with alpha-adrenoceptors in the rat aorta

1. We have examined the effect of endothelium on the antagonistic action of prazosin, doxazosin, yohimbine and phentolamine against phenylephrine, clonidine and noradrenaline. 2. The action of prazosin against phenylephrine was similar to that earlier reported against noradrenaline, acting as a non-competitive antagonist in the presence of endothelium and as a competitive antagonist in the absence of endothelium. Prazosin also acted as a non-competitive antagonist against clonidine in the absence of endothelium. 3. Doxazosin behaved in a similar way to prazosin against noradrenaline, phenylephrine and clonidine acting as a non-competitive antagonist in the presence of endothelium and as competitive antagonist after removal of endothelium. In contrast, yohimbine and phentolamine acted as competitive antagonists both in the presence and in the absence of endothelium. 4. Analysis of the concentration-response curves for noradrenaline, phenylephrine and clonidine in the presence and in the absence of endothelium showed that the affinity for all three agonists was the same but not the efficacy and the receptor reserve, both of which were lower in the presence than in the absence of endothelium. 5. The rank order of agonist potency in the absence of endothelium was noradrenaline greater than phenylephrine greater than clonidine. The rank order of antagonist potency was prazosin greater than or equal to doxazosin greater than phentolamine greater than yohimbine. 6. The results show that vascular endothelium modulates the contractile response to alpha-adrenoceptor agonists and also modifies the action of the antagonists prazosin and doxazosin but not that of yohimbine and phentolamine. This effect of endothelium was related to a change in agonist efficacy and receptor reserve. These results also suggest that the alpha-adrenoceptors of the isolated aorta of the rat are predominantly, if not exclusively of the alpha 1-subtype.

Activities of octopamine and synephrine stereoisomers on alpha-adrenoceptors

1. The activities of the (-)- and (+)-forms of m- and p-octopamine and m- and p-synephrine on alpha 1-adrenoceptors from rat aorta and anococcygeus and alpha 2-adrenoceptors from rabbit saphenous vein were compared with those of noradrenaline (NA). 2. The rank order of potency of the (-)-forms on alpha 1-adrenoceptors from rat aorta and alpha 2-adrenoceptors was NA greater than m-octopamine = m-synephrine greater than p-octopamine = p-synephrine. The two m-compounds were 6 fold less active than NA on alpha 1-adrenoceptors from rat aorta and 150 fold less active on alpha 2-adrenoceptors. The two p- compounds were 1,000 fold less active than NA on both alpha 1-adrenoceptors from rat aorta and alpha 2-adrenoceptors. The rank order of potency of the (-)- forms on alpha 1-adrenoceptors from rat anococcygeus was NA = m-synephrine greater than m-octopamine greater than p-octopamine = p-synephrine. m-Octopamine was 4 fold less active than NA and (-)-m-synephrine. The two p- compounds were 30 fold less active than NA. 3. The rank order of potency of the (+)- forms was NA greater than m-octopamine greater than m-synephrine greater than p-octopamine greater than p-synephrine on both alpha 1- and alpha 2-adrenoceptors. The potency of each (+)- form was 1-2 orders of magnitude less than that of the (-) counterpart, the differences being greater for the stereoisomers of synephrine than for those of octopamine on both alpha 1- and alpha 2-adrenoceptors. 4. The yohimbine diastereoisomer antagonists, rauwolscine and corynanthine, were tested against (-)-NA and (-)-m-octopamine-induced contractions in both preparations. Based upon the known selectivities of these isomers for alpha-adrenoceptor subtypes, it is concluded that the rat aorta contains only alpha 1-adrenoceptors while the rabbit saphenous vein possesses predominantly alpha 2-adrenoceptors. 5. Ligand binding data for the octopamine and synephrine stereoisomers at alpha 1- and alpha 2-binding sites from rat cerebral cortex was also obtained. (-)-Forms were more active than (+)-forms. The rank order of affinity of the (-)-forms for both alpha 1- and alpha 2-binding sites was NA greater than m-octopamine = m-synephrine greater than p-synephrine greater than p-octopamine. The relative affinities of the members of the series against alpha 1-binding sites were very similar to their relative functional activities on rat aorta. However, the affinities of both m- and p-compounds relative to that of ( -)-NA were much greater at the x2-binding sites than were the relative activities in rabbit saphenous vein, possibly suggesting low intrinsic efficacy. Functional antagonist responses to NA by the (-)-octopamine and synephrines could not, however, be demonstrated on rat aorta or rabbit saphenous vein. 6. The activities of m-octopamine and m-synephrine were not significantly different from each other on either a,-adrenoceptors from rat aorta or x2-adrenoceptors; however, m-synephrine is more active than m-octopamine on a,-adrenoceptors from rat anococcygeus. Both m-octopamine and msynephrine can be considered to be naturally occurring x,-selective amines. However, if m- and poctopamine are co-released with NA in amounts proportional to their concentration, it is concluded that their activities on m,- and x2-adrenoceptors are too low to be physiologically significant.

Possible prostacyclin involvement on disparate tonic responses to "in vitro" norepinephrine in circular and in longitudinal preparations from rat thoracic aorta

In view of existing reports documenting that "in vitro" norepinephrine (NE) contracts ring-shaped rat aortic preparations, whereas it relaxes arterial strips mounted in longitudinal fashion within an organ bath: it was decided to explore possible reasons which may account for such disparate actions of the same agonist on the same tissue. Isolated rings (circular preparations) obtained from rat thoracic aortae responded to increasing concentrations of NE with dose-dependent tonic enhancement, not significantly affected by the presence of indomethacin (10(-6)M); whereas, preincubation with phentolamine (10(-6)M), yohimbine (10(-7)M) or prazosin (10(-8)M), shifted significantly to the right points of the positive inotropic dose-response curve for NE. On the contrary longitudinally mounted preparations of rat aortic stips, reacted to increasing concentrations of NE with dose-dependent relaxation, an effect not modified by the presence of a beta-adrenoreceptor blocker, namely propranolol (10(-6)M). However, in presence of alpha-adrenoreceptor blockers, such as phentolamine (10(-6)M), yohimbine (10(-7)M) or prazosin (10(-8)M), the negative inotropic dose-response curve for NE was shifted to the right whereas in the presence of indomethacin (10(-6)M) or of tranylcypromine (2.5 x 10(-4)M), the NE-induced relaxation was either abolished or significantly displaced to the right, respectively. In another series of experiments the generation of labelled 6-keto-prostaglandin F1 alpha (the most important non-enzymatic metabolite of prostacyclin) by chopped rat aortae incubated for one hour with (1-14C)-arachidonic acid, was explored and found to be significantly enhanced by the delivery of NE (3 x 10(-6)M). The present evidence suggests that NE acting on alpha-adrenoreceptors, induces in longitudinal and in chopped arterial preparations, but not in aortic rings, an inhibitory relaxing factor, presumably produced by the endothelium. This factor is probably prostacyclin for the relaxing effects of the agonist were negatively influenced by indomethacin and by tranylcypromine, two known antagonists of PGI2 formation. In vascular rings (circular arterial preparations) the tonic stimulatory action of NE (not affected by preincubation with indomethacin) was the only evident inotropic effect of the agonist presumably because the extensive handling of the tissue as well as the anchoring procedure followed to mount arterial preparations within the bath for contractile recordings, may produce de-endothelization.(ABSTRACT TRUNCATED AT 400 WORDS)

Age-related alterations in alpha 1- and beta-adrenoceptors mediated responsiveness of rat aorta

We have examined the responsiveness of alpha- and beta-adrenoceptors in aortae from 1.5, 3, 6 and 24 month old rats. The isometric contraction to phenylephrine was antagonised competitively by prazosin with a pA2 value of 9.45, suggesting that the receptor is an alpha 1-adrenoceptor. The potency of phenylephrine was significantly reduced in 24 months old as compared with all younger rats combined. The maximum contraction to phenylephrine was unaltered in 24 month old rats. The maximum contraction to potassium chloride was significantly less than that to phenylephrine only in 1.5 months old rats. In tissues contracted by potassium chloride, isoprenaline produced a marked relaxation in 1.5 months old animals, but there was a progressive loss with increasing age of the beta-adrenoceptor-mediated relaxation which was markedly reduced by 6 months and abolished in 24 months old. It is concluded that, in the rat aorta, there is a decrease in alpha 1-adrenoceptor responsiveness in senescence, and a loss of beta-adrenoceptor-mediated responses in maturation.

Changes in postjunctional alpha-adrenoceptors during postnatal growth in rabbit arteries

The pharmacological characteristics of the postjunctional alpha-adrenoceptors of vascular smooth muscle were studied in ring segments of thoracic aorta, superior mesenteric, and central ear arteries of 4- and 8-week-old, and young adult (12- to 16-week-old) rabbits. Norepinephrine (alpha 1, alpha 2-agonist), phenylephrine (alpha 1-agonist), and UK 14,304-18 (alpha 1-agonist) caused a concentration-dependent contraction of all three arterial segments from 4- and 8-week-old animals. Norepinephrine and phenylephrine but not UK 14,304-18 contracted the young adult thoracic aorta and superior mesenteric artery, whereas all the agonists contracted the central ear artery. The effects of the alpha 1-adrenoceptor antagonists, prazosin and thymoxamine, and the alpha 2-adrenoceptor antagonists, rauwolscine and yohimbine, on these responses were studied. In the 4-week-old rabbits, responses to norepinephrine, phenylephrine, and UK 14,304-18 were reduced by all four antagonists with nominal pA2 values in the range of 7-8.5. The action of the antagonists was competitive. Between 4 and 8 weeks, there was a significant decrease in the pA2 values of rauwolscine against norepinephrine and UK 14,304-18 in the aorta and between rauwolscine and UK 14,304-18 on the superior mesenteric artery. The pA2 values of rauwolscine and yohimbine, but not prazosin and thymoxamine, were lower in the young adult compared with values from the 8-week-old rabbit. In the interpretation of these results, there are two possibilities.(ABSTRACT TRUNCATED AT 250 WORDS)

Evidence for and against heterogeneity of alpha 1-adrenoceptors

Recent experimental evidence has suggested that the alpha 1 adrenoceptor may need to be further subdivided. It can no longer be stated categorically that alpha 1-adrenoceptors are present only at postjunctional sites, in view of several reports of alpha 1-mediated modulation of adrenergic and cholinergic neurotransmission. Furthermore, comparison of the pharmacologic characteristics of the alpha 1-adrenoceptor in different species and/or tissues can show clear differences in sensitivity to selective agonists and antagonists, and differences in the degree of dependence on extracellular calcium. However, in other cases, alpha 1-adrenoceptors at diverse sites have been found to have identical characteristics. Furthermore, the subcategories identified by the various selective agents do not fall into the same discrete groups, in contrast to division of alpha-adrenoceptors into alpha 1 and alpha 2-adrenoceptors. Therefore, at this time it seems premature to subdivide the alpha 1-adrenoceptor further.

Role of efficacy in the assessment of the actions of alpha-adrenoceptor agonists in rat aorta with endothelium

Concentration-effect curves to phenylephrine are shifted to the right in the presence of endothelium in rat aorta while responses to clonidine are practically abolished. Analysis of the concentration-effect curves showed that the effect of endothelium could possibly be explained by a reduction in relative intrinsic efficacy of the two agonists by between 3.5- and 6-fold. Published observations on the modulatory effects of agonist-induced contractions by endothelium in the rat aorta tend to support this explanation. It is further concluded that this reduction in efficacy could be related to the basal release of an endothelium-derived substance and that changes in tissue contractility in the presence of endothelium cannot necessarily be taken as evidence for a stimulated liberation of endothelium-derived products by agonists.

Enhancement of central and peripheral alpha 1-adrenoceptor sensitivity and reduction of alpha 2-adrenoceptor sensitivity following chronic imipramine treatment in rats

After chronic imipramine treatment (20 mg/kg i.p., once daily for 14 days) the dose-response curve of the isolated rat anococcygeal muscle to phenylephrine shifted to the left, and furthermore, the -log KA value (affinity) for phenylephrine was significantly increased without affecting the affinity for guanfacine. On the other hand, such treatment caused a shift to the right of the dose-response curve to guanfacine on aortic strips and the affinity of the alpha-adrenoceptor for guanfacine was lowered without any accompanying changes in the affinity value for phenylephrine. However the relative efficacies of phenylephrine or guanfacine were not influenced by imipramine in either preparation. The ability of phenylephrine to displace [3H]prazosin from its specific binding sites was significantly enhanced after chronic imipramine treatment. These results may indicate that following chronic imipramine treatment the alpha 1-adrenoceptors of both central and peripheral tissues responded with supersensitivity to an alpha 1-preferential agonist, and the alpha 2-adrenoceptors with reduced sensitivity to an alpha 2-preferential agonist.

Adrenergic modulation of vascular prostacyclin (PGI2) secretion

An in vitro model for the study of adrenoreceptor-prostacyclin (PGI2) relationships in the rat aorta is described. PGI2 synthesis was stimulated by adrenergic agonists (rank order of potency: epinephrine greater than norepinephrine greater than phenylephrine greater than methoxamine). Isoproterenol, UK 14304, clonidine and salbutamol were without effect. Epinephrine (3 X 10(-7) M)-stimulated PGI2 synthesis was inhibited by adrenoreceptor antagonists (rank order of potency: yohimbine greater than prazosin greater than phentolamine greater than corynanthine much greater than propranolol). The absence of calcium in incubation media abolished epinephrine-stimulated PGI2 synthesis as did the calcium channel blocker, verapamil, in a dose-dependent manner. Calcium ionophore A23187 (10(-5) M)-stimulated PGI2 synthesis was inhibited by verapamil (in a dose-dependent manner), but not by prazosin, phentolamine or yohimbine. It is concluded that epinephrine-mediated rat aortic PGI2 synthesis is alpha-adrenoceptor- and not beta-adrenoceptor-mediated, calcium-dependent, and that the alpha-adrenoceptor antagonists evaluated do not have verapamil-like calcium channel blocking activities. These findings may be relevant to contraction-relaxation cycles of vascular tissue.

Characterization of two distinct alpha-adrenoceptor binding sites in smooth muscle cell membranes from rat and bovine aorta

In order to characterize postjunctional alpha adrenoceptor binding sites of aortic smooth muscle, the specific binding of (3H)prazosin and (3H)yohimbine to membranes prepared from the medial layers of rat and bovine thoracic aorta was investigated. Binding of (125I)-BE 2254 (2-[B-(4-hydroxyphenyl)-ethylaminomethyl] tetralone) and (3H)RX 781094 (idazoxan) was also examined in bovine membranes. Each of the ligands displayed saturable, specific binding to a single population of sites; the KD values of the respective ligands were similar in the two animal species. The number of (3H)prazosin and (125I)BE 2254 binding sites (160-190 fmol X mg protein-1 in the two species) was higher than the number of (3H)yohimbine and (3H)RX 781094 binding sites (110-120 fmol X mg protein-1 in the bovine and 50 fmol X mg protein-1 in the rat). Alpha-adrenoceptor ligands inhibited binding of the ligands with the following orders of potency:prazosin greater than BE 2254 greater than yohimbine greater than RX 781094 greater than clonidine in the case of (3H)-prazosin, and yohimbine greater than RX 781094 greater than clonidine greater than prazosin in the case of (3H)yohimbine. Methoxamine, in concentrations up to 10 microM, was without effect on the binding of either ligand. The absence or presence of Na+, K+ or Ca2+ added at physiological concentrations did not change the order of potency of displacing ligands whereas Ca2+ reduced by 50% the numbers of (3H)prazosin and (3H)-yohimbine sites and Na+ increased by 3-fold the affinity of (3H)yohimbine.(ABSTRACT TRUNCATED AT 250 WORDS)

The contractions induced in rat and guinea-pig aortic strips by the alpha 2-adrenoceptor selective agonists B-HT 920 and UK 14,304 are mediated by alpha 1-adrenoceptors

The alpha-adrenergic action of the selective alpha 2-adrenoceptor agonists B-HT 920 and UK 14,304 was investigated on helically cut preparations of rat and guinea-pig isolated aorta. The alpha 1-adrenoceptor selective stimulant (-)-phenylephrine was included for comparison. All agonists induced concentration-dependent contractions in both preparations. Calcium entry blockade by D 600 almost abolished the contractions evoked by B-HT 920 and UK 14,304 in rat aorta while those evoked in guinea-pig aorta were less strongly affected. Contractions elicited by (-)-phenylephrine were moderately impaired by D 600 in rat aorta whereas there was only a limited effect in guinea-pig aorta. Analysis of the prazosin and yohimbine antagonism of B-HT 920- and UK 14,304-evoked contractions showed the involvement of alpha 1-like adrenoceptors in rat and guinea-pig aorta, prazosin being approximately 1000 times more potent that yohimbine. The results show that B-HT 920 and UK 14,304 contract rat and guinea-pig aorta via alpha 1-like adrenoceptors which are not identical. It is submitted that rat and guinea-pig alpha 1-adrenoceptors activate different contractile processes.

Calcium-dependence and antagonism of responses to alpha 1- and alpha 2-adrenoceptor agonists in vascular tissues from hypertensive and normotensive rats

Inhibition by D600 (methoxyverapamil) of responses to an alpha 2-adrenoceptor selective agonist, B-HT 920, (6-allyl-2-amino-5, 6, 7, 8-tetrahydro-4H-thiazolo [4, 5-d] azepin dihydrochloride), an alpha 1-adrenoceptor selective agonist, phenylephrine (PE), and a nonselective agonist, noradrenaline (NA), was studied in isolated preparations of the aortae and carotid arteries obtained from young (5-7 weeks) and old (15-17 weeks) hypertensive (SHR) and normotensive (WKY) rats. Maximum responses of WKY tissues to B-HT 920 were the most sensitive, PE-induced responses the least sensitive and maximum responses to NA were intermediate in their sensitivity to inhibition by D600. Sub-maximal responses to NA and PE were not different in their sensitivity to inhibition by D600, but were less sensitive than the responses to B-HT 20. Sub-maximal responses to PE were significantly more sensitive to D600 inhibition than were the maximal responses to this agonist. NA-induced responses of tissues from older SHR were less sensitive to inhibition by D600 when compared to responses in WKY rats. Responses to B-HT 920, in tissues suspended in calcium-free solutions, showed the largest decline compared to NA- and PE-induced responses. We conclude that responses to B-HT 920 largely utilize extracellular calcium. PE- and NA- induced responses mobilize extracellular calcium to varying degrees depending upon the concentration of the agonist employed to elicit the response.

Postjunctional alpha-adrenoceptors. Alpha 1 and alpha 2 subtypes in rat vasculature in vitro and in vivo

The postsynaptic alpha-adrenoceptors in rat aorta and in pithed rat were investigated according to their sensitivity to nine alpha-adrenergic agonists and to the selective antagonists yohimbine (alpha 2) and prazosin (alpha 1) and the nonselective one, phentolamine. In addition, in radioligand binding studies, the affinity and selectivity of the drugs were determined on rat cerebral cortex using [3H] yohimbine and [3H] prazosin. On rat aorta, prazosin is 1,000 times more potent than yohimbine against each alpha-adrenoceptor agonist, whether alpha 1- or alpha 2-selective. Rat aorta probably contains only alpha 1-adrenoceptors. Pressor effects in pithed rats are mediated by post-junctional alpha 1- and alpha 2-adrenoceptors. The dose-response curve for alpha-methylnorepinephrine in the presence of prazosin, using Hofstee's plots, revealed alpha 1- and alpha 2-adrenoceptors, respective proportions being 80.5 and 19.5%.

Assessment of alpha-adrenergic receptor subtypes in isolated rat aortic segments

The postsynaptic alpha-adrenoceptors in the isolated rat aorta have been characterized according to the sensitivity of the tissue to selective alpha 1- and alpha 2-adrenoceptor agonists and antagonists. The potency (-log EC50) order of the non-selective alpha-agonist norepinephrine and relatively selective agonists was as follows: norepinephrine (alpha 1 = alpha 2; 7.30); clonidine (alpha 2 greater than alpha 1; 7.01); phenylephrine (alpha 1 greater than alpha 2; 6.99), SK & F 89748--A (alpha 1 greater than alpha 2; 6.65); BHT-920 (alpha 2 much greater than alpha 1; 5.56) and M-7 (alpha 2 greater than alpha 1; 4.66). The isolated rat aorta was 12-200-fold more sensitive to the alpha 1-adrenoceptor agonists phenylephrine and SK & F 89748-A, than to the alpha 2-agonists, BHT-920 and M-7. Prazosin is 245-1259-fold more potent than rauwolscine as an antagonist of contractions induced by various alpha 1- and alpha 2-agonists in the rat aorta. These data indicate that constriction of the smooth muscle of the rat aorta to alpha-adrenergic agonists is mediated through alpha 1- but not alpha 2-adrenoceptors.

Cerebrovascular smooth muscle culture. II. Characterization of adrenergic receptors linked to adenylate cyclase

Cultured and propagated smooth muscle cells contain adenylate cyclase (AC) responsive to catecholamines and their analogues. Isoproterenol and zinterol were the most effective stimulants of AC activity with EC50 = 8.5 X 10(-8)M. They were followed by epinephrine, phenylephrine and norepinephrine (EC50 = 7.5 X 10(-7)M, 6.5 X 10(-6)M and 4 X 10(-6)M, respectively). When the selective antagonists for beta 1 and beta 2 receptors (beta 1-type practolol and atenolol, beta 1/beta 2-type propranolol and beta 2-type butoxamine) were tested against isoproterenol, epinephrine and norepinephrine stimulation of AC activity, the beta 1 in contrast to beta 2 antagonists were found ineffective. The alpha-blockers (phentolamine alpha 1/alpha 2-type antagonists) and yohimbine (alpha 2-type antagonist) alone or in the presence of propranolol did not significantly inhibit the catecholamine-induced enhancement of cAMP formation. On the other hand, prazosine (alpha 1-type antagonist) blocked the stimulatory effect of epinephrine and norepinephrine on AC system. Similarly, the alpha 2-agonist, clonidine, did not affect the catecholamines' stimulated AC activity while alpha 1 agonist, phenylephrine, induced an additive enhancement of norepinephrine production of cAMP. The findings of beta-2- and alpha-1-type adrenergic receptors in the cultured cerebrovascular smooth muscle provide additional support for the implicated involvement of adrenergic innervation in the regulation of cerebral blood flow and/or systemic blood pressure.

Effects of yohimbine stereoisomers on contractions of rat aortic strips produced by agonists with different selectivity for alpha 1- and alpha 2-adrenoceptors

Three stereoisomers of yohimbine (corynanthine, rauwolscine and yohimbine) have been used to characterize alpha-adrenoceptors in rat aortic strips. pA2 values for each antagonist were calculated using 3 different agonists ((-)-noradrenaline, (-)-phenylephrine and guanfacine) which possess varying affinities for alpha 1 and alpha 2 receptors. Mean pA2 values were not significantly different irrespective of the agonist used and the order of the potency was corynanthine greater than yohimbine greater than rauwolscine. The results are consistent with the presence of alpha 1-adrenoceptors in rat aorta.

Pharmacological characterization of alpha-adrenoreceptor subtypes in rat isolated thoracic aorta

The subtype of alpha-adrenoreceptor mediating contraction in rat isolated thoracic aorta was classified pharmacologically using preferential agonists and antagonists, and by utilizing mixed agonist and antagonist interactions. Noradrenaline was 8 to 10-times more potent at contracting the aorta than phenylephrine and both agonists were about 1000 and 10,000-fold respectively more potent than azepexole (a preferential alpha 2-agonist). Prazosin (a preferential alpha 1-antagonist) inhibited the dose-response curves to noradrenaline and phenylephrine 100 and 1000-times respectively more effectively than either phentolamine or rauwolscine (a preferential alpha 2-antagonist). Furthermore, prazosin (5 x 10(-9) M) completely abolished contractions elicited by a single concentration of azepexole (3 x 10(-4) M). In mixed antagonist studies, rauwolscine (5 x 10(-7) M) failed to shift the dose-response curves to noradrenaline and phenylephrine obtained in the presence of prazosin (5 x 10(-9) M). In mixed agonist experiments, azepexole (3 x 10(-4) M) acted as a partial antagonist toward phenylephrine-induced contractions. The results suggest that the alpha-adrenoreceptor of the rat thoracic aorta is predominantly, if not exclusively, of the alpha 1-subtype.

Postjunctional alpha-adrenoceptors in the isolated saphenous vein of the rabbit. Characterization and influence of angiotensin

Experiments on the isolated saphenous vein of the rabbit have been performed in order to determine whether a coexistence of postjunctional alpha 1- and alpha 2-adrenoceptor subtypes can be demonstrated also under in vitro conditions. Prazosin, selective for alpha 1-receptors, and rauwolscine, selective for alpha 2-receptors, were used to antagonize the contractile response of the agonists phenylephrine (alpha 1), B-HT 920 (alpha 2) and noradrenaline (alpha 1/alpha 2). Each of the antagonists was equipotent against all three agonists; the effect of neither antagonist fulfilled the criteria for a competitive antagonism. The preferential alpha 1-receptor antagonist phenoxybenzamine, applied for irreversible blockade of alpha-receptors, reduced the effect of phenylephrine and B-HT 920 to the same degree. Thus, the results obtained with alpha-receptor antagonists cannot be reconciled with the coexistence of alpha 1- and alpha 2-receptors or the existence of only one of them. Contractile responses induced by alpha 1- and alpha 2-receptor agonists, respectively, could be differentiated by the calcium entry blocker nitrendipine. The effect of B-HT 920 was decreased whereas that of phenylephrine was hardly affected. Furthermore, we investigated the influence of angiotensin II on the effects of the alpha-adrenoceptor agonists as well as the antagonists. We observed firstly, that angiotensin, acting postsynaptically, potentiates the contractile response of certain alpha 2-receptor agonists and secondly, that in the presence of angiotensin the characteristics of the receptors as revealed by B-HT 920 are converted to typical alpha 2-adrenoceptors. It is concluded that the postjunctional alpha 2-receptors of the saphenous vein require the blood borne substance angiotensin for their expression.

Receptor interactions of imidazolines: alpha-adrenoceptors of rat and rabbit aortae differentiated by relative potencies, affinities and efficacies of imidazoline agonists

1 Noradrenaline and a series of imidazolines were used to characterized and differentiate the postsynaptic alpha-adrenoceptors of rat and rabbit aortae. 2 Dose-response curves in each tissue revealed marked differences in the profile of agonist activity among the compounds. Based on the ED50 values for each compound, a rank order of potency of oxymetazoline greater than noradrenaline greater than tramazoline greater than tetrahydrozoline greater than clonidine was obtained in rabbit aorta and an order of noradrenaline greater than clonidine greater than tramazoline greater than oxymetazoline was obtained in rat aorta. Tetrahydrozoline had no agonist activity in rat aorta. 3 Dissociation constants were determined for each agonist in rat and rabbit aortae. Again, differences between the tissues were observed to the extent that the rank order of affinities for the imidazolines were exactly opposite for the two tissues. In rabbit aorta the order was, oxymetazoline greater than tramazoline greater than tetrahydrozoline greater than clonidine, whereas in rat aorta it was, clonidine greater than tetrahydrozoline greater then tramazoline greater than oxymetazoline. The extremes in tissue selectivity were observed with clonidine, which had approximately 125 fold higher affinity in rat aorta, and oxymetazoline, which had approximately 4 times higher affinity in rabbit aorta. 4 The absolute values of relative efficacies of the imidazolines studied, and their rank order, also differed between the two tissues. The relative efficacies of oxymetazoline and tramazoline were more than 15 fold greater in rabbit aorta than in rat aorta. Furthermore, tetrahydrozoline had a greater relative efficacy than clonidine in rabbit aorta while the converse was true in rat aorta. 5 Differences in the rank order of potency, affinity and relative efficacy of noradrenaline and a series of imidazolines in rat and rabbit aortae indicate that the postsynaptic alpha-adrenoceptors in these tissues are different. While the postsynaptic alpha-adrenoceptor of rabbit aorta is clearly of the alpha 1-subtype, the exact nature of the postsynaptic alpha-receptor of rat aorta is not clear. The unique alpha-receptor of rat aorta has properties of both alpha 1- and alpha 2-adrenoceptors.