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

Antagonism of Nav channels and α1-adrenergic receptors contributes to vascular smooth muscle effects of ranolazine

Ranolazine is a recently developed drug used for the treatment of patients with chronic stable angina. It is a selective inhibitor of the persistent cardiac Na⁺ current (I_Na), and is known to reduce the Na⁺-dependent Ca²⁺ overload that occurs in cardiomyocytes during ischemia. Vascular effects of ranolazine, such as vasorelaxation,have been reported and may involve multiple pathways. As voltage-gated Na⁺ channels (Na_v) present in arteries play a role in contraction, we hypothesized that ranolazine could target these channels. We studied the effects of ranolazine in vitro on cultured aortic smooth muscle cells (SMC) and ex vivo on rat aortas in conditions known to specifically activate or promote I_Na. We observed that in the presence of the Na_v channel agonist veratridine, ranolazine inhibited I_Na and intracellular Ca²⁺ calcium increase in SMC, and arterial vasoconstriction. In arterial SMC, ranolazine inhibited the activity of tetrodotoxin-sensitive voltage-gated Na_v channels and thus antagonized contraction promoted by low KCl depolarization. Furthermore, the vasorelaxant effects of ranolazine, also observed in human arteries and independent of the endothelium, involved antagonization of the α₁-adrenergic receptor. Combined α₁-adrenergic antagonization and inhibition of SMCs Na_v channels could be involved in the vascular effects of ranolazine.

Functional evaluation of the receptors mediating vasoconstriction of rat aorta by trace amines and amphetamines

Trace amines including β-phenylethylamine (β-PEA) and amphetamines classically exert pharmacological actions via indirect sympathomimetic mechanisms. However, there is evidence for other mechanisms and this study explores the receptors mediating vasoconstriction in rat aorta. β-PEA, d-amphetamine, MDMA, cathinone and methylphenidate caused concentration-dependent contractions of rat isolated aortic rings which were unaffected by prazosin (1 μM), ICI-118,551 (1 μM), cocaine (10 μM) and pargyline (10 μM), to inhibit α1- and β2-adrenoceptors, neuronal transport and monoamine oxidase (MAO), respectively. Octopamine concentration-response curves, however, were shifted to the right. In the presence of the inhibitors, the rate of onset of octopamine contractions was slowed. Lineweaver-Burk analysis of the kinetics of the response generated different KM values for octopamine in the absence (2.35 × 10(-6)M) and presence (6.09 × 10(-5)M) of inhibitors, indicating mediation by different receptors. Tryptamine-induced vasoconstriction also resisted blockade by adrenergic inhibitors and the 5-HT1A, 1B, 1D and 5-HT2A receptor antagonists, methiothepin (50 nM) and ketanserin (30 nM), respectively. Trace amines and amphetamines therefore exert vasoconstriction independently of adrenoceptors, neuronal transport and 5-HT receptor activation. There was no evidence of tachyphylaxis or cross-tachyphylaxis of the vasoconstriction to these amines. Tyramine was a partial agonist and in its presence, β-PEA, d-amphetamine and octopamine were antagonised indicating that they all act through a common receptor for which tyramine serves as an antagonist. We conclude that the vasoconstriction is via TAAR-1, because of structural similarities between amines, ability to stimulate recombinant trace amine-associated receptor 1 (TAAR-1) and the presence of TAAR-1 in rat aorta.

The Inhibitory Effect of Dopamine on Cat Gastric Smooth Muscle

The inhibitory effect of dopamine has been studied in longitudinal and circular muscle strips of the cat gastric fundus. When tone was raised by transmural electrical stimulation and by administration of methacholine, dopamine concentration-dependently relaxed the strips but the inhibitory effect of dopamine was clearly more pronounced on electrically-induced tone. The effect of dopamine was not influenced by the presence of cocaine or hydrocortisone. The relaxant effect of dopamine, when tone was raised by methacholine, was not influenced by α- and dopamine receptor antagonists but it was significantly reduced by propranolol and ICI 118551 (erythro-dl-1-(7-methylindan-4-yloxy)-3-isopropylaminobutan-2-ol). The inhibitory effect of dopamine on the electrically-induced tone was significantly reduced by phentolamine; domperidone tended to reduce the effect of the lower concentrations of dopamine. In the presence of propranolol, phentolamine and rauwolscine concentration-dependently antagonized the inhibitory effect of dopamine on electrically-induced tone, while prazosin was without influence. These results indicate that the inhibitory effect of dopamine in the cat gastric fundus is mainly due to interaction with postjunctional β-adrenoceptors on the smooth muscle cells and with prejunctional α-adrenoceptors on the intramural cholinergic neurons

New insights in the contribution of voltage-gated Na(v) channels to rat aorta contraction

Background

Despite increasing evidence for the presence of voltage-gated Na⁺ channels (Na_v) isoforms and measurements of Na_v channel currents with the patch-clamp technique in arterial myocytes, no information is available to date as to whether or not Na_v channels play a functional role in arteries. The aim of the present work was to look for a physiological role of Na_v channels in the control of rat aortic contraction.

Methodology/Principal Findings

Na_v channels were detected in the aortic media by Western blot analysis and double immunofluorescence labeling for Na_v channels and smooth muscle α-actin using specific antibodies. In parallel, using real time RT-PCR, we identified three Na_v transcripts: Na_v1.2, Na_v1.3, and Na_v1.5. Only the Na_v1.2 isoform was found in the intact media and in freshly isolated myocytes excluding contamination by other cell types. Using the specific Na_v channel agonist veratridine and antagonist tetrodotoxin (TTX), we unmasked a contribution of these channels in the response to the depolarizing agent KCl on rat aortic isometric tension recorded from endothelium-denuded aortic rings. Experimental conditions excluded a contribution of Na_v channels from the perivascular sympathetic nerve terminals. Addition of low concentrations of KCl (2–10 mM), which induced moderate membrane depolarization (e.g., from −55.9±1.4 mV to −45.9±1.2 mV at 10 mmol/L as measured with microelectrodes), triggered a contraction potentiated by veratridine (100 µM) and blocked by TTX (1 µM). KB-R7943, an inhibitor of the reverse mode of the Na⁺/Ca²⁺ exchanger, mimicked the effect of TTX and had no additive effect in presence of TTX.

Conclusions/Significance

These results define a new role for Na_v channels in arterial physiology, and suggest that the TTX-sensitive Na_v1.2 isoform, together with the Na⁺/Ca²⁺ exchanger, contributes to the contractile response of aortic myocytes at physiological range of membrane depolarization.

Acute dilation to alpha(2)-adrenoceptor antagonists uncovers dual constriction and dilation mediated by arterial alpha(2)-adrenoceptors

BACKGROUND AND PURPOSE

In mouse tail arteries, selective alpha(2)-adrenoceptor antagonism with rauwolscine caused powerful dilation during constriction to the alpha(1)-adrenoceptor agonist phenylephrine. This study therefore assessed phenylephrine's selectivity at vascular alpha-adrenoceptors and the mechanism(s) underlying dilation to rauwolscine.

EXPERIMENTAL APPROACH

Mouse isolated tail arteries were assessed using a pressure myograph.

KEY RESULTS

The alpha(2)-adrenoceptor agonist UK14,304 caused low-maximum constriction that was inhibited by rauwolscine (3 x 10(-8) M) but not by the selective alpha(1)-adrenoceptor antagonist prazosin (10(-7) M). Concentration-effect curves to phenylephrine, cirazoline or noradrenaline were unaffected by rauwolscine but were inhibited by prazosin, which was more effective at high compared with low levels of constriction. In the presence of prazosin, rauwolscine inhibited the curves and was more effective at low compared with high levels of constriction. Although rauwolscine alone did not affect concentration-effect curves to phenylephrine, noradrenaline or cirazoline, it caused marked transient dilation when administered during constriction to these agonists. Dilation was mimicked by another alpha(2)-adrenoceptor antagonist (RX821002, 3 x 10(-8) M), was dependent on agonist selectivity, and did not occur during adrenoceptor-independent constriction (U46619). During constriction to UK14,304 plus U46619, rauwolscine or rapid removal of UK14,304 caused transient dilation that virtually abolished the combined constriction. Endothelial denudation reduced these dilator responses.

CONCLUSIONS AND IMPLICATIONS

Inhibition of alpha(2)-adrenoceptors caused transient dilation that was substantially greater than the contribution of alpha(2)-adrenoceptors to the constriction. This reflects a slowly reversing alpha(2)-adrenoceptor-mediated endothelium-dependent dilation and provides a rapid, sensitive test of alpha(2)-adrenoceptor activity. This approach also clearly emphasizes the poor selectivity of phenylephrine at vascular alpha-adrenoceptors.

Effects of endothelial cell removal on alpha-adrenoceptor-mediated responses of aortae of pregnant rats

1. The possibility that changes in sensitivity of the aorta occurring during pregnancy in the rat are due to changes in uptake mechanisms, alpha- and/or beta-adrenoceptor-mediated responses was investigated. 2. Thoracic aortic rings from 20 day pregnant rats showed increased sensitivity to the constrictor effects of phenylephrine, with increased maximum responses when compared with those from non-pregnant animals. Removal of endothelium caused leftward shifts of the log concentration-response curves with further increases in maxima to the same extent in rings of both non-pregnant and 20 day pregnant rats. 3. Propranolol, beta-oestradiol, and nisoxetine did not significantly alter the CR-curves to phenylephrine of endothelium-intact or denuded thoracic aortic rings obtained from either non-pregnant or 20 day pregnant rats. 4. BHT-920 failed to cause marked constriction of endothelium-intact rings. After removal of endothelium, significant constrictor responses to BHT-920 occurred which were of similar magnitude for rings from both non-pregnant and 20 day pregnant rats. 5. Relaxant responses to BHT-920 of endothelium-intact rings preconstricted with phenylephrine were not significantly different between those from non-pregnant and 20 day pregnant rats. Removal of endothelium resulted in rightward shifts of the curves together with decreased maximum responses. 6. These results support earlier suggestions that the endothelium plays a role in controlling vascular reactivity to phenylephrine. The increased maximum response of thoracic aortic rings to phenylephrine seen during pregnancy does not appear to be due to marked changes in amine uptake mechanisms or beta- or alpha 2-adrenoceptor-mediated responses.

Alpha-1 and alpha-2 adrenoceptor agonists induce vasoconstriction of the normotensive rat caudal artery in vitro by stimulation of a heterogeneous population of alpha-1 adrenoceptors

Although alpha-2 adrenoceptor agonists rapidly induce arterial vasoconstriction in vivo, such responses have proven difficult to obtain in vitro. We have investigated the vasoconstrictor effects of various alpha-1 and alpha-2 adrenoceptor agonists in the perfused superfused caudal artery of the normotensive rat. Intrinsic activities were; methoxamine; 1, phenylephrine; 0.94, noradrenaline; 0.93, guanfacine; 0.88, clonidine; 0.47, UK 14,304 [5-bromo-6-(2-imidazoline-2-ylamino)-quinoxaline tartrate]: 0.10, azepexole; 0. Antagonism by the selective alpha-1 agent, prazosin of the vasoconstrictor responses provoked by methoxamine, guanfacine or clonidine, showed a high affinity with--log KB values in the range of 8.5 to 9.4. There were no significant differences between the KB values obtained with the three agonists. Antagonism by the selective alpha-2 antagonist, yohimbine showed a low affinity with KB values between 6.7 to 7.6 for the three agonists. The calcium entry blocker, nicardipine, antagonized responses to clonidine at nanomolar concentrations and those to phenylephrine at micromolar concentrations. We conclude that vasoconstrictor responses in this isolated tail artery preparation are primarily mediated via an alpha adrenoceptor which can be classified, on the basis of the results with specific antagonists, as being of the alpha-1 type. The results obtained with nicardipine suggest that the population of alpha adrenoceptors is not, however, homogeneous.

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.

Noradrenaline inhibits vasoconstriction induced by electrical stimulation

Exposure of the isolated rat tail artery to exogenous noradrenaline inhibited vasoconstriction induced by electrical field stimulation. Phenylephrine produced brief inhibition; guanfacine potentiated electrical stimulation. Sympathetic neurotransmission may be blunted by brief increases in circulating noradrenaline levels.

Pharmacological characterization of the postsynaptic alpha-adrenoceptors in isolated canine mesenteric arteries and veins

This investigation was undertaken to characterize the postsynaptic alpha-adrenoceptors in isolated canine mesenteric arterial and venous preparations. Contractile responses to cumulative additions of phenylephrine (selective alpha 1-adrenoceptor agonist), UK-14,304 (selective alpha 2-adrenoceptor agonist), noradrenaline (non-selective alpha-adrenoceptor agonist), and dopamine (non-selective alpha-adrenoceptor agonist) were measured in the presence and absence of rauwolscine, a selective alpha 2-antagonist, and terazosin, a selective alpha 1-antagonist. Phenylephrine was a more potent agonist in the mesenteric artery than in the mesenteric vein; UK-14,304 exhibited the opposite profile of activity. Terazosin was a more potent antagonist than rauwolscine against each of the agonists, except dopamine, in the mesenteric artery but rauwolscine was more potent than terazosin in the vein. Terazosin and rauwolscine were equipotent in inhibiting the contractile responses to dopamine in the artery while rauwolscine was more potent than terazosin in the vein. The pA2 values measured in both vessels failed, however, to demonstrate a high selectivity for either alpha-adrenoceptor antagonist. These results suggest that the alpha-adrenoceptors in the canine mesenteric artery and vein exhibit pharmacological characteristic typical of both alpha 1- and alpha 2-adrenoceptor subtypes.

Interactions of MEN 935 (adimolol), a long acting beta- and alpha-adrenolytic antihypertensive agent, with postsynaptic alpha-adrenoceptors in different isolated blood vessels--influence of angiotensin II

MEN 935 [1-(3-[3-(1-naphthoxy)-2-hydroxypropyl) amino)-3,3-dimethylpropyl)-2-benzimidazolinone-hydrochloride monohydrate, adimolol] is a long acting antihypertensive agent with beta- and alpha-adrenolytic properties. Preliminary experiments in pithed rats had led to the suggestion that the alpha-adrenolytic activity was of the alpha 2-subtype. The alpha-adrenolytic properties of MEN 935 were now tested in isolated vascular preparations of rat aorta, rabbit vena ischiadica and rabbit vena cava inferior against the selective alpha 1-adrenergic agonist phenylephrine (PE) and the selective alpha 2-adrenergic agonist B-HT 920 [2-amino-6-allyl-5,6,7,8-tetrahydro-4H-thiazolo-(4,5-d)azepine]. The experiments were performed in absence and in presence of 5 X 10(-9) mol/l angiotensin II (A II). MEN 935 antagonized contractions to phenylephrine as well as those to B-HT 920 in each vessel. A twofold shift to the right of the concentration-response curves to both agonists was obtained with concentrations between 1.9 X 10(-8) and 1.4 X 10(-5) mol/l, depending on the vessel under investigation. A II modulated the adrenolytic properties of MEN 935 in each vessel. However, irrespective of the presence or absence of A II, no pharmacologically relevant difference between antagonism against PE or B-HT 920 could be seen. In isolated vessels, MEN 935 exerts a nonselective alpha-adrenergic antagonism. In receptor binding studies in rat cerebellar cortex, MEN 935 showed a Ki of 5.2 X 10(-7) mol/l at alpha 1-adrenoceptors and a Ki of 1.3 X 10(-5) mol/l at alpha 2-adrenoceptors.(ABSTRACT TRUNCATED AT 250 WORDS)

The effects of KF-4317, a novel combined alpha- and beta 1-adrenoreceptor antagonist, on the rat isolated right ventricle and aorta

The effects of KF-4317 on the accumulation of radioactivity from [3H]-noradrenaline, and on the subsequent spontaneous and noradrenergic nerve-evoked outflow of radioactivity have been investigated in the rat isolated right ventricle. In addition the effects of KF-4317 on the contractions of the electrically-driven directly muscle stimulated rat right ventricle to isoprenaline and of the rat isolated aorta to phenylephrine and 5-hydroxytryptamine are reported. KF-4317 at 1 microM had no effect on the ability of the rat right ventricle to accumulate radioactivity from [3H]-noradrenaline. The spontaneous outflow of radioactivity, following loading of the ventricle with [3H]-noradrenaline, was increased by KF-4317 at 1 microM by a cocaine-insensitive mechanism. KF-4317 at 1 microM had no effect on the noradrenergic nerve-evoked outflow or radioactivity, and therefore is not an alpha 2-adrenoreceptor antagonist, but reduced the associated contractile response probably mainly by acting as an antagonist at postjunctional beta 1-adrenoreceptors. KF-4317 caused a parallel rightward shift of the concentration-response curve of the electrically-driven directly muscle stimulated rat right ventricle to isoprenaline. However the inhibitory effect, X9.0 and X237.2 in the presence of 0.1 and 1 microM KF-4317, was not closely concentration-related. At 1 microM, KF-4317 also depressed the maximum responses to isoprenaline. This suggests that in addition to beta 1-adrenoreceptor antagonism, KF-4317 probably exerts membrane stabilizing activity. The responses of the rat isolated aorta to phenylephrine were inhibited in a non-concentration related manner by KF-4317.(ABSTRACT TRUNCATED AT 250 WORDS)

The effects of amosulalol, a novel combined alpha- and beta-adrenoreceptor antagonist, on the rat isolated right ventricle and aorta

The effect of amosulalol on the accumulation of radioactivity from [3H]-noradrenaline and on the subsequent spontaneous and nerve stimulation-evoked outflow of radioactivity have been investigated in the rat isolated right ventricle. In addition the effect of amosulalol on the contractions of the electrically-driven directly muscle stimulated rat right ventricle to isoprenaline and of the rat isolated aorta to phenylephrine and 5-hydroxytryptamine are reported. Amosulalol at 10(-6)M did not prevent the accumulation of radioactivity from a solution containing [3H]-noradrenaline. The spontaneous outflow of radioactivity, following loading of the ventricle with [3H]-noradrenaline, was increased by amosulalol at 10(-6)M by a cocaine- and idazoxan- insensitive mechanism. The nerve stimulation-evoked outflow of radioactivity was increased by amosulalol (10(-6)M), cocaine (10(-5)M) and idazoxan (10(-7)M). The ability of amosulalol to increase nerve-evoked outflow was maintained in the presence of cocaine but prevented by pretreatment with idazoxan. This suggests that amusulalol is an alpha 2-adrenoreceptor antagonist. The contractile response of the electrically-driven directly muscle stimulated right ventricle to isoprenaline were inhibited by amosulalol at 10(-7) and 10(-6)M with apparent pA2 values of 7.5 and 8.1, respectively. It is suggested that amosulalol at 10(-6)M may have an action additional to beta 1-adrenoreceptor antagonism on the right ventricle. The contractile responses of the rat aorta to phenylephrine were inhibited by amosulalol at 10(-7) and 10(-6)M with a pA2 of 8.6 which was independent of concentration. Amosulalol also reduced the magnitude of the maximal responses of the aorta to 5-hydroxytryptamine.

Effect of removing the endothelial cells on the reactivity of rat aortic segments to different alpha-adrenoceptor agonists

The influence of removing the endothelial cells on the alpha-receptor-mediated contractile response in segments of rat aorta was investigated using agonists with a range of affinity for alpha 1- and alpha 2-receptors. The preferential alpha 1-agonists were methoxamine, cirazoline, ST 587, and Sgd 101/75 and the preferential alpha 2-agonists were B-HT 920, clonidine, and guanfacine. When the endothelium was intact, the intrinsic activity (compared to noradrenaline) varied widely (0.0-0.7) for both groups of agonists. After removal of the endothelium the intrinsic activity was increased in each case to that of noradrenaline, or close to it. Furthermore, an increase in potency was obtained for each agonist, although to different degrees. No correlation, however, was found between the selectivity of the agonists and the degree of enhancement caused by the removal of the endothelium, in terms of either the intrinsic activity or the potency. Moreover, the use of the selective alpha 2-receptor antagonist rauwolscine on intact tissues did not mimic the effect of removing the endothelium. Therefore, the alpha-receptors of the endothelium could not be classified as either of the alpha 1- or alpha 2-subtype.