Presynaptic α2-autoreceptors in brain cortex: α2D in the rat and α2A in the rabbit

Summary Presynaptic ₂-autoreceptors in rat and rabbit brain cortex were compared by means of antagonists and agonists. Brain cortex slices were preincubated with [³H]-noradrenaline and then superfused and stimulated by 3 (rat) or 4 (rabbit) pulses at a frequency of 100 Hz.The ₂-adrenoceptor agonist bromoxidine (UK 14 304) reduced the electrically evoked overflow of tritium with EC₅₀ values of 4.5 nmol/l in the rat and 0.7 nmol/l in the rabbit. The antagonists phentolamine, 2-[2H-(1-methyl-1,3-dihydroisoindole)methyl]-4,5-dihydroimidazole (BRL 44408), rauwolscine, 1,2-dimethyl-2,3,9,13b-tetrahydro-1H-dibenzo(c,f)imidazo(1,5-a)azepine (BRL 41992), 2-(2,6-dimethoxyphenoxyethyl)aminomethyl-1,4-benzodioxane (WB 4101), 6-chloro-9-[(3-methyl-2-butenyl)oxy]-3-methyl-1H-2,3,4, 5-tetrahydro-3-benzazepine (SKF 104078), imiloxan, prazosin and corynanthine did not per se increase the evoked overflow of tritium but shifted the concentration-inhibition curve of bromoxidine to the right in a manner compatible with competitive antagonism. Up to 4 concentrations of each antagonist were used to determine its dissociation constant K_D. The K_D values correlated only weakly between the rat and the rabbit. Dissociation constants K_A of bromoxidine were calculated from equieffective concentrations in unpretreated brain slices and slices in which part of the ₂-adrenoceptors had been irreversibly blocked by phenoxybenzamine. The K_A value was 123 nmol/l in the rat and 7.2 nmol/l in the rabbit.The results confirm the species difference between rat and rabbit brain presynaptic ₂-autoreceptors. Comparison with data from the literature indicates that the rat brain autoreceptors can be equated with the _2D subtype as defined by radioligand binding, whereas the rabbit brain autoreceptors conform to the _2A subtype. For example, the antagonist affinities for the rat autoreceptors correlate with their binding affinities for the gene product of ₂-RG20, the putative rat _2D-adrenoceptor gene (r = 0.97; P<0.01), but not with their binding affinities for the gene product of ₂-C10, the putative human _2A-adrenoceptor gene. Conversely, the rabbit autoreceptors correlate with the ₂-C10 (r = 0.98; P<0.001) but not with the ₂-RG20 gene product. Since presynaptic ₂-autoreceptors are also _2D in rat submaxillary gland and perhaps vas deferens and _2A in rabbit pulmonary artery, the possibility arises that the majority of ₂-autoreceptors generally are _2D in the rat and _2A in the rabbit. Moreover, receptors of the _2A/D group generally may be the main mammalian ₂-autoreceptors.Correspondence to: N. Limberger at the above address     

Presynaptic imidazoline receptors and α2-adrenoceptors in the human heart: discrimination by clonidine and moxonidine

The involvement of presynaptic ₂-autoreceptors and imidazoline receptors in the modulation of noradrenaline release was investigated in strips from human atrial appendages preincubated with [³H]noradrenaline and superfused with medium containing desipramine and corticosterone. Electrical impulses were applied transmurally at 2 Hz. The imidazoline derivatives moxonidine and clonidine reduced the evoked tritium overflow in a concentration-dependent manner. Moxonidine was 18-fold more potent than clonidine. The concentration-response curve for moxonidine, but not for clonidine was shifted to the right by the ₂-adrenoceptor antagonist rauwolscine. The apparent pA₂ value of rauwolscine against moxonidine was 8.41. An inhibitory effect was also observed for the imidazoline derivative BDF 6143 (4-chloro-2-(2-imidazolin-2-ylamino)-isoindoline), a mixed ₂-adrenoceptor antagonist/imidazoline receptor agonist; BDF 6143 was about 2-fold more potent than clonidine. Rauwolscine (1 M) did not substantially shift the concentration-response curve of BDF 6143.It is concluded that noradrenaline release in the human atrium is inhibited not only via presynaptic ₂-autoreceptors but also via presynaptic non-I₁, non-I₂ imidazoline receptors. The failure of rauwolscine to antagonize the inhibitory effect of clonidine suggests that clonidine preferentially stimulates the presynaptic imidazoline receptors; the ₂-adrenoceptor component of its action is probably suppressed by an inhibitory interaction between the two receptors. In contrast, moxonidine acts via presynaptic ₂-autoreceptors, leaving the presynaptic imidazoline receptor unaffected.     

Release-inhibiting α2-adrenoceptors at serotonergic axons in rat and rabbit brain cortex: evidence for pharmacological identity with α2-autoreceptors

The pharmacological properties of the presynaptic ₂-adrenoceptors modulating the release of serotonin in rat and rabbit brain cortex (₂-heteroreceptors) were compared with the properties of presynaptic ₂-autoreceptors in the same brain area. Brain cortex slices were preincubated with [³H]-serotonin or [³H]-noradrenaline and then superfused and stimulated by brief high-frequency pulse trains.The ₂-adrenoceptor agonist bromoxidine reduced the electrically evoked overflow of tritium in experiments with both [³H]-noradrenaline and [³H]-serotonin and in brain slices from either species. The antagonists phentolamine, idazoxan, (+)-mianserin, rauwolscine, 5-chloro-4(1-butyl-1,2,5,6-tetrahydropyridin-3-yl)-thiazole-2-amine (ORG 20350), 2-(2,6-dimethoxyphenoxyethyl)aminomethyl-1,4-benzodioxane (WB 4101), (–)-mianserin and corynanthine caused parallel shifts of the concentration-inhibition curves of bromoxidine to the right. Negative logarithms of antagonist dissociation constants pK_d were calculated from the shifts. In the rat, the ₂-autoreceptor pK_d value of each single antagonist was similar to its ₂-heteroreceptor pK_d value, maximal difference 0.4, giving a close correlation, r = 0.97 (P<0.001). In the rabbit equally, the ₂-autoreceptor pK_d value of each single antagonist was similar to its ₂-heteroreceptor pK_d value, maximal difference 0.4, again yielding a close correlation, r = 0.96 (P < 0.001). However, antagonist pK_d values at rat ₂-autoreceptors differed from those at rabbit ₂-autoreceptors, r = 0.70 (P > 0.05), and antagonist pK_d values at rat ₂-heteroreceptors differed from those at rabbit ₂-heteroreceptors, r = 0.64 (P > 0.05). Comparison with radioligand binding experiments from the literature indicated that, in the rat, both auto- and heteroreceptors conformed best to the _2D subtype (r 0.97, P < 0.01 for pK_d correlation with binding sites in rat submaxillary gland) whereas, in the rabbit, they conformed best to the _2A subtype (r 0.93, P < 0.01 for pK_d correlation with binding sites in HT29 cells).It is concluded that, in both the rat and the rabbit, the ₂-adrenoceptors modulating the release of serotonin are pharmacologically identical with the presynaptic ₂-autoreceptors. However, rat ₂-autoreceptors and -heteroreceptors differ pharmacologically from rabbit ₂-autoreceptors and -heteroreceptors. Presynaptic ₂-auto-as well as -heteroreceptors are _2D in the rat and _2A in the rabbit. Correspondence to: N. Limberger at the above address     

Subclassification of presynaptic α2-adrenoceptors: α2A-autoreceptors in rabbit atria and kidney

The study was devised to classify, by means of antagonist affinities, the presynaptic ₂-autoreceptors of rabbit atria and kidney in terms of _2A, _2B, _2C and _2D-A set of antagonists was chosen that was able to discriminate between the four subtypes. Small pieces of the left atrium and slices of the kidney cortex were preincubated with ³H-Noadrenaline and then superfused and stimulated electrically.In one series of experiments, tissue pieces were stimulated by relatively long pulse trains (1 or 2 min) leading to ₂-autoinhibition. All 11 (atria) or 10 (kidney) antagonists increased the evoked overflow of tritium. pEC_30% values (concentrations causing 30% increase) were interpolated from concentration-response curves. In a second series of experiments, tissue pieces were stimulated by brief pulse trains (0.4 s) that did not lead to ₂-autoinhibition, and concentration-inhibition curves of the ₂-selective agonist 5-bromo-6-(2-imidazolin-2-ylamino)-quinoxaline (UK 14,304) were determined. Most of the 11 (atria) or 8 (kidney) antagonists shifted the concentration-inhibition curve of UK 14,304 to the right. pK_d values of the antagonists were calculated from the shifts. pEC_30% values correlated with pK_d values, both in atria (r = 0.728) and in the kidney (r = 0.930). pEC_30% values in atria correlated with pEC_30% values in the kidney (r = 0.988) and pK_d values in atria correlated with pK_d values in kidney (r = 0.923).It is concluded that the ₂-autoreceptors in atria and the kidney are the same. Comparison with antagonist affinities for prototypic native ₂ binding sites, ₂ binding sites in cells transfected with ₂ subtype genes, and previously classified presynaptic ₂-adrenoceptors — all taken from the literature — indicates that both autoreceptors are _2A. This conclusion is reached with either of the two independent estimates of autoreceptor affinity, pEC_30% and pK_d. The results are compatible with the hypothesis that at least the majority of ₂-autoreceptors belong to the _2A/D branch of the ₂-adrenoceptor tree, across mammalian or at least rodent and lagomorph species.     

Contraction-mediating α2-adrenoceptors in the mouse vas deferens

Summary The question of the existence of postjunctional, contraction-mediating ₂-adrenoceptors, in addition to the known ₁-adrenoceptors, was studied in the mouse isolated vas deferens. Both the ₁-selective agonist phenylephrine and the ₂-selective agonist 5-bromo-6-(2imidazolin-2-ylamino)-quinoxaline (UK 14,304) caused contraction of the vas deferens. In the presence of the ₁-selective antagonist prazosin (added in order to prevent an ₁ component in the effect of high concentrations of UK 14,304), the ₂-selective antagonists yohimbine and idazoxan shifted the concentration—response curve of UK 14,304 to the right in a manner compatible with competitive antagonism and with dissociation constants K_B indicating the involvement of ₂-adrenoceptors. The maximal contraction elicited by UK 14,304 (in the presence of prazosin) was much lower than the maximal contraction elicited by phenylephrine. The effect of UK 14,304 was not changed by the P₂-purinoceptor agonist ,-methylene-ATP and was reduced by neuropeptideY, but was markedly enhanced by relatively low concentrations of phenylephrine. When the sympathetic fibres of the vas deferens were stimulated by trains of ten widely spaced (0.5 Hz) electric pulses, the tissue responded with ten separate twitches in which purinergic and adrenergic components were isolated by prazosin and suramin, respectively. Prazosin reduced the first adrenergic twitch in these trains at concentrations close to its K_B value at ₁-adrenoceptors, whereas yohimbine and idazoxan reduced the first adrenergic twitch at concentrations far lower than their K_B values at ₁-adrenoceptors. The results indicate that the smooth muscle of the mouse vas deferens possesses contraction-mediating ₂-adrenoceptors. They are activated by UK 14,304 and probably also by noradrenaline of neural origin. Responses mediated by the ₂-adrenoceptors are enhanced by simultaneous ₁-receptor activation, an interaction that may increase the contribution of the ₂-adrenoceptors to the adrenergic phase of neurogenic contractions. Send offprint requests to R. Bültmann at the above address     

Pertussis toxin does not attenuate α2-adrenoceptor mediated inhibition of noradrenaline release in mouse atria

Summary 1. The ₂-adrenoceptor agonist clonidine (0.03 and 0.1 ol/l) significantly inhibited stimulation-induced overflow of radioactivity from mouse isolated atria pre-incubated with [³H]-noradrenaline. This effect of clonidine was blocked by idazoxan (0.3 gmol/l) but not prazosin (0.3 ol/l), indicating that an ₂-adrenoceptor was involved. 2. In some experiments mice were injected with pertussis toxin (1.5 g/mouse) 4 days before their atria were removed and subsequently incubated with [³H]-noradrenaline. Alternatively, isolated atria from untreated mice were suspended in Krebs-Henseleit solution, incubated for 16 h with pertussis toxin (1.0 and 4.0 g/ml) or vehicle and subsequently incubated with [³H]-noradrenaline. The effectiveness of pertussis toxin pretreatment was assessed indirectly using carbachol. Carbachol caused a dose dependent fall in both the rate and force of contraction of isolated, spontaneously beating atria from mice pretreated with vehicle in vivo or in vitro. This effect of carbachol was not seen in atria from mice pretreated with pertussis toxin in vivo or in vitro, suggesting that active toxin penetrated the myocardium. 3. Pertussis toxin pretreatment, either in vivo or in vitro did not alter the inhibitory effect of clonidine (0.03 and 0.1 gmol/l), or the facilitatory effect of the -adrenoceptor antagonist phentolamine (1.0 mol/l), on the stimulation-induced overflow of radioactivity. These results suggest that ₂-adrenoceptor modulation of noradrenaline release from sympathetic nerve terminals is not dependent on an inhibitory guanine-nucleotide-binding protein. Send offprint requests to I. Musgrave     

Subclassification of presynaptic α2-adrenoceptors: α2D-autoreceptors in guinea-pig atria and brain

The study was devised to classify, by means of antagonist and agonist affinities, the presynaptic ₂-autoreceptors in guinea-pig heart atria and brain cortex in terms of _2A, _2B, _2C and _2D. A set of antagonists and agonists was chosen that was able to discriminate between the four subtypes. Small pieces of the atria and slices of the brain cortex were preincubated with ³H-noradrenaline and then superfused and stimulated electrically.In one series of experiments (atria only), tissue pieces were stimulated by relatively long pulse trains (1 min) leading to marked ₂-autoinhibition. All 10 antagonists increased the evoked overflow of tritium. pEC_30% values (concentrations causing 30% increase) were interpolated from concentration-response curves. In a second series of experiments (atria and brain slices), tissue pieces were stimulated by brief pulse trains (0.4 s or 40 ms) that led to little (atria) or no (brain slices) ₂-autoinhibition, and antagonist effects against the ₂-selective agonist 5-bromo-6(2-imidazolin-2-ylamino)-quinoxaline UK 14,304 were examined. All 10 (atria) or 8 (brain) antagonists shifted the concentration-inhibition curve of UK 14,304 to the right. pK_d values of the antagonists were calculated from the shifts. In a third series of experiments (brain slices only), also with brief pulse trains (40 ms), pK_a values (negative logarithms of dissociation constants of agonist-₂-adrenoceptor complexes) were determined by comparison of concentration-inhibition curves of UK 14,304, guanoxabenz and oxymetazoline in normal tissue and in tissue in which a fraction of the receptors had been blocked by phenoxybenzamine. pEC_30% values in atria correlated with pK_d values (r = 0.942). pK_d values in atria correlated with pK_d values in the brain cortex (r = 0.970).It is concluded that the ₂-autoreceptors in atria and the brain cortex are the same. Comparison with antagonist affinities for prototypic native ₂ binding sites, binding sites in cells transfected with ₂ subtype genes, and previously classified presynaptic ₂-adrenoceptors — all taken from the literature - indicates that both autoreceptors are _2D. In atria, this identification is reached with either of the two independent estimates of autoreceptor affinity, pEC_30% and pK_d, and in the brain cortex it is supported by the agonist pK_a values. The results are compatible with the hypothesis that at least the majority of ₂-autoreceptors belong to the _2AD branch of the ₂-adrenoceptor tree.     

Subclassification of presynaptic α2-adrenoceptors: α2D-autoreceptors in mouse brain

The study was devised to classify, by means of antagonist affinities, the presynaptic ₂-autoreceptors in mouse cerebral cortex in terms of _2A, _2B, _2C and _2D. A set of antagonists was chosen that was able to discriminate between the four subtypes. Slices of the cortex were preincubated with ³H-noradrenaline and then superfused and stimulated electrically.The stimulation periods used (4 pulses, 100 Hz) did not lead to ₂-autoinhibition as shown by the lack of an increase by rauwolscine of the evoked overflow of tritium. The ₂-selective agonists 5-bromo-6-(2-imidazolin-2-ylamino)-quinoxaline (UK 14,304) and -methylnoradrenaline reduced the evoked overflow. All 10 antagonists shifted the concentration-inhibition curve of UK 14,304 to the right. Rauwolscine also shifted the concentration-inhibition curve of -methylnoradrenaline to the right. pK_d values of the antagonists were calculated from the shifts. The pK_d values of rauwolscine against UK 14,304 and -methylnoradrenaline were very similar (8.0 and 7.9, respectively).Comparison with antagonist affinities for prototypic native ₂ binding sites, ₂ binding sites in cells transfected with ₂ subtype genes, and previously classified presynaptic ₂-adrenoceptors — all taken from the literature — indicates that the ₂-autoreceptors in mouse brain cortex are _2D. This is the first subtype determination of ₂-autoreceptors in the mouse. It supports the hypothesis that at least the majority of ₂-autoreceptors belong to the _2A/D branch of the ₂-adrenoceptor tree.     

α2-autoreceptors and α2-heteroreceptors modulating tyrosine and tryptophan hydroxylase activity in the rat brain in vivo: an investigation into the α2-adrenoceptor subtypes

The subtype determination of auto- and hetero-₂-adrenoceptors modulating the synthesis of noradrenaline (NA) and serotonin (5-HT), respectively, was assessed using the accumulation of 3,4-dihydroxyphenylalanine (dopa) and 5-hydroxytryptophan (5-HTP) after decarboxylase inhibition as a measure of the rate of tyrosine and tryptophan hydroxylation in the rat brain in vivo.In the cerebral cortex and hippocampus, Org 3770 (non-selective a2-adrenoceptor antagonist, 0.5–10 mg/kg, i.p.) increased (43%–58%) and clonidine (non-selective ₂-adrenoceptor agonist, 1 mg/kg) decreased (37%–49%) the synthesis of dopa. Also the antagonist ARC 239 (_2B/C selective, 5–40 mg/kg) increased the synthesis of dopa in cortex (39%–46%) and hippocampus (17%–85%). In contrast, the antagonist BRL 44408 (_2D selective, 1–10 mg/kg) did not increase the synthesis of dopa in cortex, and increased it modestly in hippocampus only. The agonist guanoxabenz (_2B/C selective, 0.03–3 mg/kg) decreased the synthesis of dopa in both brain regions (20%–65%), whereas the agonist oxymetazoline (_2D selective, 0.1–3 mg/kg) failed to do so. These results indicated that the ₂-autoreceptors that modulate the synthesis of dopa/NA are probably associated with the _2B/C-subtypes.In cortex and hippocampus, clonidine decreased (35%–53%) the synthesis of 5-HTP but Org 3770 failed to induce the opposite effect (except the 2 mg/kg dose in cortex). BRL 44408 markedly increased the synthesis of 5-HTP in cortex (113%–148%) but not in hippocampus. Similarly, also ARC 239 increased the formation of 5-HTP in cortex (36%–48%) but not in hippocampus, where it was decreased (30%–55%). Oxymetazoline decreased the synthesis of 5-HTP in hippocampus (28%–30%) but failed to do so in cortex. Guanoxabenz in the low dose range (0.03–0.3 mg/kg) did not decrease the synthesis of 5-HTP in any brain region. These results indicated that the ₂-heteroreceptors that modulate the synthesis of 5-HTP/5-HT may well be different from the proposed _2B/C-autoreceptors modulating the synthesis of dopa/NA. These ₂-heteroreceptors appear to be associated with the _2D-subtype.     

Occurrence, pharmacology and function of presynaptic α2-autoreceptors in α2 A/D-adrenoceptor-deficient mice

The occurrence, pharmacological properties and function of alpha2-autoreceptors were studied in hippocampal slices, occipito-parietal cortex slices, segments of heart atria and segments of the vas deferens of wildtype (WT) mice and mice in which the alpha2 A/D-adrenoceptor gene had been disrupted (alpha2 A/D(KO)). Tissues were preincubated with [3H]-noradrenaline and then superfused and stimulated electrically. Stimulation periods for brain slices consisted either of 1 pulse or of 2-64 pulses delivered at 1-s intervals; stimulation periods for peripheral tissues consisted either of 1 POP (pseudo-one-pulse; brief burst of 20 pulses/50 Hz) or of 2-4 POPs delivered at 1-s intervals. Single pulses or POPs were used to study the effect of medetomidine and its interaction with antagonists. One or more pulses or POPs per stimulation period were used to study alpha2-autoinhibition. Medetomidine decreased the evoked overflow of tritium in WT tissues. In alpha2 A/D(KO) tissues, the inhibition was slightly (peripheral tissues) or greatly (brain slices) attenuated but not abolished. Phentolamine, rauwolscine, spiroxatrine, 2-(2,6-dimethoxyphenoxyethyl)aminomethyl-1,4-benzodioxane (WB 4101), tolazoline and prazosin antagonized the effect of medetomidine in all tissues. Their pKd values against medetomidine were compared with pKd values at prototypical alpha2 binding sites by means of a correlation analysis. For WT brain and atrial autoreceptors, the correlations indicated an alpha2D pharmacology, whereas for WT vas deferens autoreceptors they favoured an alpha2B pharmacology. In the KO tissues, any correlation with alpha2D was lost, and the non-alpha2 A/D-autoreceptors displayed alpha2B or alpha2C pharmacology. When 2 or more pulses or POPs were applied to WT tissues per stimulation period, the pulse number-overflow curve (POP number-overflow curve) was flat, indicating that overflow elicited by p pulses (POPs) was much smaller than p times the overflow elicited by a single pulse (POP); moreover, rauwolscine caused a pulse (POP) number-dependent and, at high pulse (POP) numbers, large increase in evoked tritium overflow. In alpha2 A/D(KO) tissues, the pulse (POP) number-overflow curve was much steeper, indicating that overflow elicited by p pulses (POPs) was closer to p times the overflow elicited by a single pulse (POP); moreover, rauwolscine caused no (atria) or only a small increase in overflow, and did so in brain slices only at high pulse numbers (16 and 64). In conclusion, the predominant alpha2D pharmacology of the autoreceptors in WT tissues supports the idea that the main mammalian presynaptic alpha2-autoreceptors belong to the alpha2 A/D subtype. However, alpha2 A/D-deficient animals also possess autoreceptors. As expected, these non-alpha2 A/D-autoreceptors display alpha2B or alpha2C pharmacology. In WT animals, alpha2B- or alpha2C-autoreceptors or both may coexist with alpha2 A/D-autoreceptors, at least in peripheral tissues. Little autoinhibition by released noradrenaline in trains of pulses remains when the alpha2 A/D-adrenoceptor is lacking, again in accord with a predominance of alpha2 A/D-autoreceptors.     

Opposite modulation of noradrenaline and ATP release in guinea-pig vas deferens through prejunctional β-adrenoceptors: evidence for the β2 subtype

Activation of prejunctional -adrenoceptors has been suggested to increase the release of noradrenaline but to decrease the neural release of ATP in the guinea-pig vas deferens. Experiments were carried out to determine the subtype of -adrenoceptor involved.In [³H]-noradrenaline-preincubated tissues superfused with medium containing prazosin and suramin, isoprenaline (1–100 nM), salbutamol (0.01–1 M) and terbutaline (0.1–10 M) increased the overflow of tritium but reduced the overflow of ATP elicited by electrical stimulation (210 pulses/7 Hz). The effects of isoprenaline were blocked by the ₂-selective antagonist 1-[2,3-(dihydro-7-methyl-1H-inden-4-yl)oxy]-3-[(1-methylethyl)amino]-2-butanol (ICI 118,551; 100 nM). In prazosin- and suramin-free medium, isoprenaline (100 nM) did not change the overflow of ATP elicited by exogenous noradrenaline (10 M). Isoprenaline (1–100 nM), salbutamol (0.01–1 M) and terbutaline (0.1–10 M) reduced the initial twitch contraction elicited by electrical stimulation (210 pulses/7 Hz) in prazosin-and suramin-free medium as well as the isolated purinergic neurogenic contraction obtained by exposure to prazosin. They increased or tended to increase the secondary sustained contraction elicited by electrical stimulation in prazosin- and suramin-free medium as well as the isolated adrenergic neurogenic contraction obtained in the presence of suramin. The inhibition by isoprenaline of the isolated purinergic contraction was attenuated by ICI 118,551 (100 nM) but not by the ₁-selective antagonist 1-[2-((3carbamoyl-4-hydroxy)phenoxy)ethylamino]-3-[4-(1-methyl4-trifluoromethyl-2-imidazolyl)phenoxy]-2-propanol (CGP 20712A; 100 nM).The results confirm the opposite -adrenoceptor-mediated modulation of noradrenaline and neural ATP release in the guinea-pig vas deferens. They show that the prejunctional -adrenoceptor is of the ₂ subtype.     

Presynaptic α2A-adrenoceptors inhibit the release of endogenous dopamine in rabbit caudate nucleus slices

₂-Adrenoceptors modulating the release of dopamine were identified and characterized in slices of the head of the rabbit caudate nucleus. Release of endogenous dopamine was measured by fast cyclic voltammetry as the increase in the extracellular concentration of dopamine elicited by electrical stimulation. The electrochemical signal was identified as dopamine by means of the oxidation potential, the voltammogram and the fact that the signal was not changed by desipramine, which inhibits the high affinity uptake of noradrenaline, but was greatly increased by nomifensine, which in addition inhibits the high affinity uptake of dopamine.Stimulation by 6 pulses/100 Hz increased the extracellular concentration of dopamine by about 85 nM. The selective ₂-adrenoceptor agonist 5-bromo-6-(2-imidazolin-2-ylamino)-quinoxaline (UK 14,304) reduced this release with an EC₅₀ of 173 nM and by maximally 75%. The ₂-adrenoceptor agonists clonidine and oxymetazoline only tended to cause a decrease. Six drugs, including oxymetazoline, were tested as antagonists against UK 14,304. Their order of antagonist potency (pK_D values in brackets) was rauwolscine (8.0) > oxymetazoline (7.5) > 2-(2,6-dimethoxyphenoxyethyl)aminomethyl-1,4-benzodioxane (WB 4101; 7.3) > phentolamine (7.1) > corynanthine (5.1) prazosin (< 6). Given alone, the antagonists did not change the release of dopamine elicited by 6 pulses/100 Hz, and the same was true for the dopamine receptor antagonist sulpiride. When caudate slices were stimulated by 10 pulses/1 Hz, sulpiride increased the release of dopamine. Desipramine and rauwolscine, in contrast, again caused no change.It is concluded that dopaminergic axons in the rabbit caudate nucleus possess release-inhibiting ₂-adrenoceptors. The antagonist affinities indicate that they belong to the _2A subtype. In this, they agree with all presynaptic ₂-autoreceptors studied so far in rabbits as well as with the ₂-heteroreceptors modulating the release of serotonin in rabbit brain cortex, suggesting that at least the majority of presynaptic ₂-adrenoceptors in the rabbit are _2A. The agonist sensitivity of the caudate presynaptic ₂-adrenoceptors is low in comparison with cerebrocortical presynaptic ₂-autoreceptors, possibly due to absence of a receptor reserve. Correspondence to: N. Limberger at the above address     

Estimation ofpA2 values at presynaptic α2-autoreceptors in rabbit and rat brain cortex in the absence of autoinhibition

Summary An attempt was made to determinepA₂ values of antagonists at the presynaptic, release-inhibiting ₂-autoreceptorsof rabbit and rat brain cortex under conditions when there was very little released noradrenaline in the autoreceptor biophase and, hence,pA₂ values were not distorted by endogenous autoinhibition. Cortex slices were preincubated with³H-noradrenaline and then superfused and stimulated by trains of 4 pulses delivered at 100 Hz or, in a few cases, by trains of 36 pulses at 3 Hz. The -adrenoceptor agonists clonidine, noradrenaline, and -methylnoradren-aline concentration-dependently decreased the stimulation-evoked overflow of tritium. The a-adrenoceptor antagonists yohimbine, rauwolscine and idazoxan did not increase the overflow of tritium elicited by 4 pulses/100 Hz in rabbit brain slices and increased it only slightly in rat brain slices. In contrast, the antagonists increased markedly the overflow at 36 pulses/3 Hz. All antagonists caused parallel shifts to the right of the concentration-response curves of clonidine, noradrenaline, and -methylnoradrenaline.pA₂ values were calculated either from linear regression of log [agonist concentration ratio – 1] on log [antagonist concentration] or from sigmoid curve fitting. The slopes of the linear regression lines were close to unity, and thepA₂ values calculated by the two methods agreed well. There was no consistent preferential antagonism of any antagonist to any agonist.pA₂ values determined with stimulation by 4 pulses/100 Hz were by 0.53–0.80 log units higher than those determined with stimulation by 36 pulses/3 Hz. ThepA₂ values (4 pulses/100 Hz) of yohimbine and rauwolscine in rabbit brain slices (approximately 7.9 and 8.2, respectively), were slightly higher than in rat brain slices (approximately 7.6 and 7.7, respectively), whereas thepA₂ value of idazoxan in the rabbit. (about 7.1) was lower than itspA₂ value in the rat (about 8.0). The experiments confirm thatpA₂ values determined under conditions of autoinhibition are too low. Stimulation with short (30 ms) bursts of pulses permits the estimation ofpA₂ values at presynaptic a2-autoreceptors without (rabbit) or almost without (rat) the complication of autoinhibition. The values suggest that ₂-adrenoceptors in rabbit brain cortex differ slightly from those in rat brain cortex. Send offprint requests to E. A. Singer at the above address     

Presynaptic β2-adrenoceptors on the sympathetic nerve fibres of the human saphenous vein: no evidence for involvement in adrenaline-mediated positive feedback loop regulating noradrenergic transmission

Summary Spirally cut strips of human saphenous veins preincubated with ³H-noradrenaline were superfused in the presence of corticosterone and, unless stated otherwise, of cocaine or desipramine. Tritium overflow was stimulated electrically (2 Hz). Adrenaline (in the presence of rauwolscine), isoprenaline and the preferential ₂-adrenoceptor agonist procaterol concentration-dependently increased the electrically evoked tritium overflow. Prenalterol, a -adrenoceptor agonist with moderate preference for ₁-adrenoceptors, was ineffective. The concentration-response curve of isoprenaline was shifted to the right by the nonselective -adrenoceptor antagonist propranolol and by the preferential ₂-adrenoceptor antagonist ICI 118,551, but was not affected by the ₁-selective antagonist atenolol. In experiments on strips preexposed to adrenaline 10 nmol/l (i. e. a concentration higher than that which normally occurs in vivo) for 32 min in the absence of cocaine or desipramine, the electrically evoked ³H overflow was not affected 12 and 44 min after withdrawal of adrenaline, irrespective of whether propranolol was absent or present in the superfusion fluid. — In veins incubated with ³H-adrenaline, a considerable amount of the radioactivity was accumulated. During subsequent superfusion with ³H-adrenaline-free solution, electrical stimulation induced tritium overflow in a tetrodotoxin-sensitive manner. Propranolol failed to modify the evoked tritium overflow. — It is concluded that the sympathetic nerve fibres of the human saphenous vein are endowed with facilitatory presynaptic ₂-adrenoceptors. These receptors do not seem to play a substantial role in a local adrenaline (previously taken up)-mediated positive feedback loop regulating noradrenergic transmission, at least under the present in vitro conditions.This study was supported by a grant of the Deutsche Forschungsgemeinschaft Send offprint requests to M. Göthert     

Electrophysiological evidence for an α2-adrenergic inhibitory control of transmitter release in the rabbit mesenteric artery

Excitatory junction potentials (e.j.p.s) evoked by nerve stimulation with 15 pulses at 1 Hz were recorded from muscle cells of the rabbit isolated mesenteric artery. Clonidine and B-HT 933 depressed all e.j.p.s. in the train. The percentage inhibition was inversely related to the number of pulses. Yohimbine, rauwolscine and tolazoline reduced the early e.j.p. amplitudes but enhanced the later ones. The percentage facilitation of e.j.p.s increased with the number of pulses until a maximum was reached. Prazosin and corynanthine did not influence the first few e.j.p.s but potentiated the subsequent ones; their effects were less pronounced than those of yohimbine and rauwolscine. All the drugs antagonized the inhibition by clonidine but the effects of yohimbine and rauwolscine were more marked than those of prazosin and corynanthine. Phenylephrine, St 587 and noradrenaline depressed the e.j.p.s. Yohimbine diminished the effects of these substances and was a stronger antagonist of phenylephrine than prazosin. We suggest that, in the rabbit mesenteric artery, noradrenaline and the neuroeffector transmitter (probably ATP) are co-released from the terminals of postganglionic sympathetic nerves. Noradrenaline activates presynaptic α₂-adrenoceptors and thereby depresses transmitter release. The degree of presynaptic inhibition depends on the number of pulses applied, i.e. on the biophase concentration of noradrenaline.     

Characterization of α2-adrenoceptors mediating contraction of dog saphenous vein: identity with the human α2A subtype

1. In the dog saphenous vein α₁- and α₂-adrenoceptors mediate noradrenaline-induced contractions in vitro. In order to study the α₂-adrenoceptor in isolation, α₁-adrenoceptors were inactivated by treatment of tissues with the alkylating agent phenoxybenzamine (3.0 μM for 30 min) in the presence of rauwolscine (1 μM) to protect α₂-adrenoceptors.
2. Noradrenaline-induced contractions of tissues treated with phenoxybenzamine were antagonized competitively by the selective α₂-adrenoceptor antagonist rauwolscine, pK_B=8.63±0.07 (means±s.e.mean; n=3), consistent with an interaction at α₂-adrenoceptors.
3. Noradrenaline was a full agonist at α₂-adrenoceptors in dog saphenous vein. By use of the method of partial receptor alkylation and analysis of concentration-effect curve data by direct, operational model fitting methods, the affinity (pK_A) and efficacy (τ) were 5.74±0.07 and 7.50±1.05, respectively (n=6). Nine other agonists which were examined each had affinities higher than noradrenaline, but with the exception of the imidazoline, A-54741 (5,6-dihydroxy-1,2,3,4-tetrahydro-1-naphthyl-imidazoline) had relatively lower efficacies.
4. To compare the α₂-adrenoceptor in dog saphenous vein to the human recombinant subtypes, the affinities of twenty-one compounds were estimated in functional studies in the dog saphenous vein and in radioligand binding studies for the human α_2A, α_2B and α_2C receptor subtypes expressed in Chinese hamster lung (CHL) cells.
5. Of twenty-one compounds examined in ligand binding studies, only nine had greater than ten fold selectivity for one human receptor subtype over either of the other two. These compounds were A-54741, oxymetazoline, guanfacine, guanabenz, prazosin, spiroxatrine, tolazoline, WB 4101 and idazoxan. In dog saphenous vein, their affinities (pK_A and pK_B for agonists and antagonists respectively) were: A-54741 (pK_A=8.03±0.05), oxymetazoline (pK_A=7.67±0.09), guanfacine (pK_A=6.79±0.03); guanabenz (pK_A=7.02±0.13); prazosin (pK_B=5.19±0.08), spiroxatrine (pK_B=6.59±0.04), tolazoline (pK_B=6.21±0.07), WB 4101 (pK_B=7.42±0.09) and idazoxan (pK_B=7.11±0.08).
6. Comparisons of affinity estimates for these nine compounds at the receptor in dog saphenous vein and at the human recombinant subtypes suggest that the vascular receptor is most similar to the h α_2A subtype; correlation coefficients (r) were 0.82 (h α_2A), 0.24 (h α_2B) and 0.04 (h α_2C).

     

Presynaptic α-adrenoceptors and the action of tricyclic antidepressant drugs in behavioural despair in rats

The influence of the -adrenolytics, yohimbine and phentolamine, given in low doses thought to block presynaptic -adrenoceptors, on the action of the tricyclic antidepressants imipramine, nortriptyline and amitriptyline in the behavioural despair test was investigated in Wistar rats. Antidepressant drugs given in a single dose or for 2 weeks reduced immobility in rats. Yohimbine potentiated the effect of nortriptyline or amitriptyline administered in a single dose and the effect of imipramine and amitriptyline given for 2 weeks. The potentiating effect of phentolamine was observed only in rats receiving a single dose of nortriptyline. Yohimbine given chronically for 3 weeks together with antidepressants counteracted the effect of imipramine and nortriptyline on behavioural despair. Similarly clonidine abolished the reduction of immobility induced by antidepressants given in a single dose. It is concluded that the despair test is a behavioural model which is sensitive to the noradrenergic component of the drugs and that the blockade of presynaptic -adrenoceptors facilitates the action of tricyclic antidepressants in this test.     

Receptor subtype involved in α1-adrenergic receptor-mediated Ca^2＋ signaling in cardiomyocytes

Aim： The enhancement of intracellular Ca^＋signaling in response to α1-adrenergic receptor （α1-AR） stimulation is an essential signal transduction event in the regulation of cardiac functions, such as cardiac growth, cardiac contraction, and cardiac adaptation to various situations. The present study was intended to determine the role（s） of the α1-AR subtype（s） in mediating this response. Methods： We evaluated the effects of subtype-specific agonists and antagonists of the α1- AR on the intracellular Ca^2＋ signaling of neonatal rat ventricular myocytes using a confocal microscope. Results： After being cultured for 48 h, the myocytes exhibited spontaneous local Ca^2＋ release, sparks, and global Ca^2＋ transients. The activation of the α1-AR with phenylephrine, a selective agonist of the α1-AR, dose-dependently increased the frequency of Ca^2＋ transients with an EC5o value of 2.3 larnol/L. Blocking the α1A-AR subtype with 5-methylurapidil （5-Mu） inhi- bited the stimulatory effect of phenylephrine with an IC50 value of 6.7 nmol/L. In contrast, blockade of the α1B-AR and α1D-AR subtypes with chloroethylclonidine and BMY 7378, respectively, did not affect the phenylephrine effect. Similarly, the local Ca^2＋ spark numbers were also increased by the activation of the α1-AR, and this effect could be abolished selectively by 5-Mu. More importantly, A61603, a novel selective α1A-AR agonist, mimicked the effects of phenylephrine, but with more potency （EC50 value =6.9 nmol/L） in the potentiation of Ca^2＋ transients, and blockade of the α1A-AR by 5-Mu caused abolishment of its effects. Conclusion： These results indicate that α1-adrenergic stimulation of intracellular Ca^2＋ activity is mediated selectively by the α1-AR.     

Somatostatin: a hormone for the heart?

Somatostatin (somatotropin release inhibitory factor; SRIF) peptides are widely distributed throughout the mammalian body and act through a family of genetically distinct, guanine nucleotide regulatory protein coupled (G-protein-coupled), cell surface receptors (sst(1-5)). Compelling evidence shows that SRIF and SRIF peptidyl analogs modulate vascular function, with actions upon smooth muscle and endothelium. SRIF receptors are known to exist in the carotid endothelium, a principal target for the pro-inflammatory cascade that accompanies coronary artery disease. SRIF-14 and SRIF analogs are anti-inflammatory but the molecular mechanism involved remains unclear. Since crucial steps in the endothelial inflammation response include endothelial activation by cytokines, adhesion molecule expression and cell-monocyte interactions, peptide agents that inhibit these steps might provide a novel strategy for reducing vascular inflammation. SRIF, acting through its cognate receptors, modulates a variety of intracellular effectors that are linked to inflammation including phosphotyrosine phosphatases, the extracellular regulated protein kinase 1 and 2 (ERK1/2) cascade, adenylyl cyclase and endothelial nitric oxide synthase. Directly or indirectly, SRIF also functions to inhibit endothelial cell proliferation and induce apoptosis. A detailed understanding of SRIF actions could provide a rational basis for using SRIF ligands in controlling vascular inflammation and inhibiting cytokine signaling, critical events in atherogenesis.     

Effects of the neuroleptic α-flupenthixol on latent inhibition in aversively- and appetitively-motivated paradigms: evidence for dopamine-reinforcer interactions

Three experiments examined the influence of the dopamine (DA) D₁/D₂ receptor antagonist -flupenthixol on the latent inhibition (LI) effect. LI is a phenomenon which is manifest when non-reinforced pre-exposure to a stimulus retards subsequent conditioning to that stimulus, and has been proposed as an animal model of the selective attentional processes that are disrupted in acute schizophrenia. Experiment 1 extended previous findings that neuroleptics enhance the LI effect in conditioned suppression paradigms in rats to -flupenthixol (0.23 mg/kg). Experiment 2 demonstrated that this enhancement of the LI effect was also seen in a parallel appetitively-motivated conditioning paradigm at the same dose. In both Experiment 1 and Experiment 2, the enhancement of the LI effect by -flupenthixol appeared to be accompanied by a decrease in the impact of the reinforcer (be it appetitive or aversive). Experiment 3 investigated the possible role of the reinforcer in the effect of -flupenthixol on the LI effect in the aversive, conditioned suppression paradigm by increasing the intensity of footshock in rats treated with -flupenthixol. Increasing the intensity of the footshock completely abolished the enhancement of LI found following injection of -flupenthixol, a result which could not be attributed to a floor effect. The results provide no support for interpretations of the influence of DA manipulations on the LI effect that draw parallels with deficits in selective attention observed in acute schizophrenia.