The preferential inhibition of α1- over β-adrenoceptor-mediated positive inotropic effect by organic calcium antagonists in the rabbit papillary muscle

Summary Experiments were carried out to elucidate the mechanism that the positive inotropic effect mediated by ₁-adrenoceptors is more susceptible to organic calcium antagonists than the -adrenoceptor-mediated effect. Verapamil and diltiazem displaced the specific binding of [³H]prazosin to the membrane fraction derived from the rabbit ventricular myocardium, verapamil being about 70 times more potent than diltiazem. Nifedipine did not displace the binding. While these compounds suppressed the positive inotropic effect mediated via _l-adrenoceptors in ₁- concentration-dependent manner, there was no correlation between the potency of the compounds to displace the [³H]prazosin binding and to inhibit the -mediated positive inotropic effect. The relative potency of three calcium antagonists to decrease the basal force of contraction and the al-mediated effect (of the same extent as compared to basal force of contraction) was consistent to each other. The positive inotropic effect mediated by -adrenoceptors was inhibited much less, and was enhanced by low concentrations of organic calcium antagonists. The differential action of calcium antagonists on the - and -mediated positive inotropic effect was mimicked by lowering the extracellular calcium concentration to 1/2, 1/4 and 1/8 of that in normal Krebs-Henseleit solution (2.5 mmol/l). These results indicate that the ₁-adrenoceptor blocking activity does not play an essential role for the preferential inhibition of -mediated positive inotropic effect by organic calcium antagonists. Difference in the subcellular mechanism involved in mobilization of intracellular Ca²⁺ subsequent to ₁-and -adrenoceptor activation may be responsible for the differential inhibitory action of calcium antagonists in the rabbit heart. Send offprint requests to M. Endoh at the above address     

Interactions of the enantiomers of 3-O-methyldobutamine with α- and β-adrenoceptors in vitro

Summary The enantiomers of 3-O-methyldobutamine, a metabolite of dobutamine, were evaluated for their - and -adrenoceptor mediated effects in vitro in a variety of isolated organs and in radioligand binding studies. Neither enantiomer of 3-O-methyldobutamine possessed ₁-adrenoceptor agonist activity in isolated guinea pig aorta. However, both enantiomers of 3-O-methyldobutamine were competitive ₁-adrenoceptor antagonists, with the (+)-enantiomer being approximately 10-fold more potent than the (-)-enantiomer as assessed either in guinea pig aorta or by displacement of ³H-prazosin binding from ₁-adrenoceptors in rat cerebral cortex. The ₁-adrenoceptor blocking activity of (+)-3-O-methyldobutamine was relatively potent and corresponded to a pA₂ of 7.33 in guinea pig aorta and a-log K _i of 7.72 in radioligand binding studies. Neither enantiomer of 3-O-methyldobutamine possessed ₂-adrenoceptor agonist activity in field-stimulated guinea pig ileum. Although (+)-3-O-methyldobutamine weakly inhibited the twitch response in field-stimulated guinea pig ileum, the response was not blocked by the selective ₂-adrenoceptor antagonist, yohimbine, and was found to result from weak anticholinergic activity (pA₂=5.06). Neither enantiomer of 3-O-methyldobutamine possessed ₁-adrenoceptor agonist activity in guinea pig atria, however the (+)-enantiomer was a weak noncompetitive antagonist at ₁-adrenoceptors. In contrast, both enantiomers of 3-O-methyldobutamine were weak ₂-adrenoceptor agonists in rat uterus, however these weak effects were not highly stereoselective, which was also confirmed in radioligand binding studies. The results of the present study indicate that 3-O-methyldobutamine is a potent and highly selective ₁-adrenoceptor antagonist, with minimal activity at ₂-, ₁- and ₂-adrenoceptors. It is hypothesized that the potent ₁-adrenoceptor antagonist activity of 3-O-methyldobutamine, which resides predominantly in the (+)-enantiomer, may play a role in the hemodynamic effects of dobutamine, by contributing, in part, to the decrease in total peripheral vascular resistance observed following administration of dobutamine.     

Effect of K+ channel blockers on the α2-adrenoceptor-coupled regulation of electrically evoked noradrenaline release in hippocampus

Summary The question whether presynaptic ₂-adrenoceptors regulating noradrenaline release in hippocampus directly couple to tetraethylammonium chloride (TEA) or -dendrotoxin (-DTX)-sensitive K⁺ channels was investigated. Hippocampal slices, prelabelled with [³H] noradrenaline, were superfused in the presence of (+)-oxaprotiline and electrically stimulated with 4 pulses delivered at 100 Hz, in order to avoid autoinhibition due to released noradrenaline.TEA enhanced the evoked [³H]noradrenaline release in rabbit hippocampus in a concentration-dependent manner, yielding an approximately 4-fold increase at 30 mmol/l, whereas the spontaneous outflow of tritium was only slightly affected at this concentration. The ₂-adrenoceptor agonist clonidine, at 10–100 nmol/l inhibited the evoked [³H]noradrenaline release between 77% and 96%. The inhibitory effect of the ₂-agonist was distinctly diminished in the presence of 30 mmol/l TEA but was restored in low Ca²⁺/high Mg²⁺ buffer. Therefore, the diminution of the ₂-agonist effect by TEA observed in experiments with normal Ca²⁺ can be explained by an increase of the Ca²⁺ availability for the release process due to the prolongation of action potentials. In rabbit hippocampus -DTX (10–200 nmol/l) did neither affect the evoked release of [³H]noradrenaline nor its ₂-agonist-induced modulation. However, in rat hippocampus -DTX significantly increased the evoked transmitter release and diminished the effect of clonidine.Taken together, the present data for the rabbit hippocampus exclude the possibility that activation of presynaptic ₂-adrenoceptors inhibits depolarization-evoked [³H]noradrenaline release by inducing an outward K⁺ current through TEA- or -DTX-sensitive K⁺ channels. However, there are species differences between the rabbit and the rat so that in the rat the ₂-adrenoceptors could actually be coupled to K⁺ channels — provided that the release-enhancing properties of -DTX do not account for the ₂-antagonism observed.Correspondence to C. Allgaier at the above address     

Effects of metal cations on [3H]α,β-methylene ATP binding in rat vas deferens

In this study we have examined the effect of metal cations (as their chloride salts) on the binding of [³H],-methylene ATP ([³H]meATP) to rat vas deferens membranes using a vacuum filtration receptor binding assay. Whereas NaCl and KCl (0.01 and 30 mM) did not affect total binding of 1 nM [³H]meATP, several divalent and trivalent cation salts markedly increased binding. The trivalent cation salts, FeCl₃ and AlCl₃ (0.1 to 100 M), produced the greatest increases in total binding of [³H]meATP, however, their effects were most probably due to precipitation of the radioligand. In contrast, several divalent cations, at concentrations between 1 M and 1–10 mM, increased total binding of [³H]meATP to rat vas deferens by between 87% and 215% while having no effect on either filter binding or non specific binding. The following pEC₅₀ values for potentiating binding of the radioligand were obtained: ZnCl₂ (5.44), MnCl₂ (4.52), CaCl₂ (4.17), CoCl₂ (4.06), MgCl₂ (3.67) and BaCl₂ (3.10). Both EDTA and EGTA (0.01–1 mM) inhibited the binding of the radioligand.The effects of ZnCl₂, CaCl₂ and MgCl₂ were examined in saturation studies. In the absence of added divalent cations, [³H]meATP labelled both high (pK_d = 9.15) and low (pK_d = 7.06) affinity binding sites. The affinity of the radioligand for its high affinity sites was increased by 3 mM CaCl₂ (pK_d = 9.56) and by 30 M ZnCl₂ (pK_d = 9.46) but not by 3 mM MgCl₂. The B_max of the low affinity site for [³H]meATP was increased (approximately 4 fold) by both 3 mM MgCl₂ and 30 M ZnCl₂ but not by 3 mM CaCl₂. The selective effect of CaCl₂ on the high affinity binding sites enabled these sites to be labelled in the presence of 3 mM CaCl₂ using a low concentration of [³H]meATP (1 nM); the sites exhibited the binding characteristics expected of the P_2x purinoceptor. The selective effect of MgCl₂ on the low affinity binding sites enabled these sites to be labelled in the presence of 3 mM MgCl₂ and using a high concentration of [³H]meATP (100 nM). A comparison of the binding characteristics of the high and low affinity sites for [³H]meATP revealed several other differences, in addition to their cation selectivity. First, the adenine analogues ADP, meATP and adenosine tetraphosphate possessed between 13 and 62 fold higher affinity for the high affinity [³H]meATP binding sites than for the low affinity binding sites. Secondly, GTP--S and pyrophosphate were selective ligands for the low affinity [³H]meATP binding sites possessing approximately 43 and 1995 fold, respectively, higher pIC₅₀ values at the low affinity sites than at the high affinity sites. Finally, treatment of the membranes with 0.01–1 mM N-ethyl maleimide increased low affinity binding of the radioligand while not affecting binding to the high affinity sites. The binding characteristics of the low affinity sites suggest that they do not equate with functional P_2x purinoceptors; their identity remains to be determined. There was evidence for heterogeneity of both the high and low affinity sites for [³H]meATP since competition curves to several nucleotide and polyphosphate compounds displayed Hill slopes less than unity.In conclusion the present study has demonstrated that cations have a marked effect on the binding of [³H]meATP in rat vas deferens. Of particular interest was the ability of CaCl₂ to increase the affinity of the radioligand for its high affinity sites enabling these sites to be selectively labelled, while the ability of MgCl₂ to increase the B_max of the low affinity binding sites enabled these sites to be selectively labelled. Correspondence to: A. D. Michel at the above address     

α-Adrenoceptor activity of arylalkylimidazoles is improved byα-methylation and impaired byα-hydroxylation

Summary To investigate the effects of hydroxyl and methyl substitution of the alkyl bridge bond on the-adrenoceptor activity of arylalkylimidazole derivatives, the cardiovascular effects of the molecules were studied in anaesthetized and pithed rats. The compounds studied were 4(5)-substituted imidazole derivatives with a methano, ethano or etheno bridge between the imidazole and the 2-, 2,3- or 2,6-methyl substituted phenyl rings. The hypotensive and bradycardic activities of the molecules in the anaesthetized rat were always reduced by-hydroxylation and usually augmented by-methylation of the bridge between the imidazole and phenyl rings. Hydroxylation was associated with a consistent, marked decrease in vasopressor and sympatho-inhibitory activity in the cardiovascular system of the pithed rat, but a methyl moiety as a bulky substituent in the-position of the alkyl bridge did not decrease but even caused an increase in-adrenoceptor activity in this test system. The detrimental effect of-hydroxylation of the compounds at ₁- and ₂-adrenoceptors supports the notion that the interaction of the imidazoles at-adrenoceptor is different from that of the classical, noradrenaline-like phenethylamines. The results also suggest that the alkyl bridge between the phenyl and imidazole rings of the imidazoles may contribute directly to the binding process.     

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     

Modulation of brain α2-adrenoceptor and μ-opioid receptor densities during morphine dependence and spontaneous withdrawal in rats

Summary The densities of brain ₂-adrenoceptors and -opioid receptors, quantitated by means of the binding of the agonists [³H]clonidine and [³H]dihydromorphine, respectively, were studied during the development of morphine dependence and spontaneous withdrawal in the rat. The oral administration of morphine (12–130 mg/kg for 3–21 days) led to inconsistent changes in ₂-adrenoceptor density while the density of -opioid receptors was down-regulated. In contrast, spontaneous opiate withdrawal (3–72 h) significantly increased the density of ₂-adrenoceptors while the density of -opioid receptors was rapidly up-regulated to control values. In the hypothalamus, but not in other brain regions, the increase in ₂-adrenoceptor density after withdrawal followed a time course (3–72 h) related to the severity of the abstinence syndrome. Thus, there was a positive and significant correlation between the severity of withdrawal and the density of ₂-adrenoceptors in the hypothalamus. Short-term treatment with clonidine (2 × 0.5 mg/kg, i. p.) prevented the morphine withdrawal-induced increases in ₂-adrenoceptor density in various brain regions, but not in the hypothalamus. The main results suggest that modulation of hypothalamic ₂-adrenoceptor density during morphine withdrawal is a relevant physiological mechanism by which the opiate abstinence syndrome is counteracted. Send offprint requests to J. A. García-Sevilla     

Evidence in favour of a selective α1-adrenoceptor blocking action of WB 4101 in vivo

Summary The -adrenoceptor blocking potency of WB 4101 at ₁- and ₂-adrenoceptors has been investigated in pithed rats.WB 4101 was approximately 97 times more potent at antagonizing the vasopressor responses produced by the selective ₁-adrenoceptor agonist phenylephrine, than those produced by the selective ₂-adrenoceptor agonist M-7.A dose of WB 4101 (3 mg/kg) that caused extensive blockade of vascular ₁-adrenoceptors, but little or no blockade of vascular ₂-adrenoceptors, exerted no significant blockade of the presynaptic ₂-adrenoceptors in the rat heart.The results support the view that WB 4101 is a highly selective antagonist at ₁-adrenoceptors in vivo.     

Inhibition by α2-adrenoceptor agonists of the secretion of catecholamines from isolated adrenal medullary cells

Summary In adrenal medullary cells, carbachol evokes the secretion of catecholamines with simultaneous uptake of⁴⁵Ca. Highly selective agonists for ₂-adrenoceptors, clonidine, naphazoline, guanfacine, tramazoline and oxymetazoline inhibited carbachol evoked secretion of catecholamines in a dose-dependent manner. These ₂-agonists also inhibited the uptake of⁴⁵Ca evoked by carbachol with similar dose-response curve to inhibition of catecholamine secretion. On the contrary, highly selective agonists for ₁-adrenoceptors, phenylephrine and norfenefrine did not inhibit the secretion of catecholamines and cellular uptake of⁴⁵Ca. The inhibition by ₂-agonists was not restored either by the increase in carbachol, or Ca concentrations, suggesting that the mode of inhibition was distinct from competition at cholinergic receptors or Ca-channels. It is likely that ₂-agonists inhibited the secretion of catecholamines via the inhibition of Ca uptake which was probably caused through the activation of ₂-adrenoceptors.     

Interaction of enantiomers of hydroxy tolazoline with adrenoceptors

Summary Adrenoceptor-mediated effects of the enantiomers of hydroxytolazoline and tolazoline (i. e., desoxy derivative) have been investigated in vitro. The enantiomers and tolazoline were partial agonists of postjunctional ₁-adrenoceptors in rat aorta. The rank order of potencies of the compounds in this system was as follows: tolazoline > R(–)-hydroxytolazoline > S(+)-hydroxytolazoline. The efficacy of R(–)-hydroxytolazoline was higher than that of tolazoline, though its affinity for the receptor was less. The K _B values for prazosin against these agonists were nearly equal, which indicated that these imidazolines activate the same type of receptor in rat aorta. The S(+)-isomer, however, produced both a prazosin sensitive and resistant component of the response. The interactions of the derivatives with presynaptic ₂-adrenoceptors were studied in field-stimulated myenteric plexus-longitudinal muscle of guinea-pig ileum. These substances were blockers at presynaptic ₂-adrenoceptors. Based on K _B values, the order of affinity in this system was as follows: tolazoline > S(+)isomer R(–)-isomer. -Adrenoceptor mediated activity was quantitated in guinea-pig and rat atria. R(–)-hydroxytolazoline lacked chronotropic effects either in guinea pig or rat atria. At 3 × 10^–4 M the isomer did not antagonize the effect of isoproterenol in the atria. On the other hand, S(+)-hydroxytolazoline produced a variable chronotropic effect in guinea-pig atria, but failled to show any significant activity in rat atria. Thus, the -adrenoceptor mediated action appears to be insignificant. Steric aspects of -adrenoceptor mediated events are discussed.This investigation was, in part, supported by a grant from the United States Public Service, National Institutes of Health, GM 29358 Send offprint requests to P. N. Patil at the above address     

Pharmacological profiles of a novel α1-adrenoceptor agonist,PNO-49 B,at α1-adrenoceptor subtypes

The effects of a newly synthesized compound, PNO-49B, (R)-(-)-3-(2-amino-l-hydroxyethyl)-4-fluo-romethanesulfonanilide hydrochloride, on ₁-adrenocepfor subtypes were examined in various tissues in which the following distribution of ₁-adrenoceptor subtypes has been suggested: dog carotid artery (_1B), dog mesenteric artery (_1N), rabbit thoracic aorta (_1B + _1L), rat liver (₁B), rat vas deferens (_1A + _1L), rat cerebral cortex (_1A + _1B) and rat thoracic aorta (controversial subtype).PNO-49 B (0.1–100 M) produced concentration-dependent contractions in dog mesenteric artery, rabbit thoracic aorta, rat thoracic aorta and rat vas deferens; and the maximal amplitudes of contraction were almost the same as or slighly less than those of noradrenaline. By contrast, the maximal response to PNO-49 B in dog carotid artery was markedly smaller than the response to noradrenaline. In rabbit thoracic aorta, the contractile response to PNO-49 B was not affected by inactivation of the _1B subtype with chloroethylclonidine (CEC), although the response to noradrenaline was attenuated by that treatment. The dissociation constants (K_A) of PNO-49 B were not different among the rat thoracic aorta, dog carotid and mesenteric arteries and rabbit thoracic aorta (CEC-pretreated). The contractile responses to PNO-49 B were inhibited competitively by prazosin, HV723 (-ethyl-3,4,5-trimethoxy--(3-((2-(2-methoxy-phenoxy)-ethyl)))-amino(propyl)benzeneacetonitrile fumarate) and by WB4101 (2-(2,6-dimethoxyphenoxyethyl)aminomethyl-1,4-benzodioxane). The estimated pA₂ values were high for prazosin and WB4101 in rat thoracic aorta and for HV 723 in dog mesenteric artery, whereas the pA₂ values for these three antagonists in rabbit thoracic aorta were low and were not altered by pretreatment with CEC. The binding of [³H]-prazosin to membranes prepared from rat vas deferens and liver was inhibited by PNO-49 B in a concentration-dependent manner. The resulting pK₁ value for the liver was approximately 1.5 log units lower (one thirtieth in affinity) than the values for the epididymal and prostatic portions of the vas deferens. PNO-49B also inhibited biphasically [³H]prazosin binding to prazosin-high affinity sites of rat cerebral cortex membranes, and the low but high affinity sites for PNO-49B was abolished by CEC-pretreatment. PNO-49B had no effect on the prejunctional ₂-adrenoceptors in rat vas deferens (prostatic portion) nor on the -adrenoceptors in rat atria. The contractile response to PNO-49 B in rat thoracic aorta was not inhibited by cimetidine, pyrilamine or ketanserin.These results indicate that PNO-49B is an ₁-adrenoceptor agonist with a lower affinity and/or efficacy at the _1B subtype as compared with other ₁-subtypes.     

Biliary Excretion of 17β-Estradiol 17β-d-Glucuronide Is Predominantly Mediated by cMOAT/MRP2

Purpose. The mechanism for the biliary excretion of 17-estradiol170-d-glucuronide (E₂17G), a cholestatic metabolite of estradiol, isstill controversial. The purpose of the present study is to examine thetransport of E₂17G across the bile canalicular membrane. Methods. We examined the uptake of [³H]E₂17G by isolatedcanalicular membrane vesicles (CMVs) prepared from Sprague-Dawley (SD)rats and Eisai Hyperbilirubinemic rats (EHBR) whose canalicularmultispecific organic anion transporter/multidrug resistance associatedprotein 2 (cMOAT/MRP2) function is hereditarily defective. Also,in vivo biliary excretion of intravenously administered [³H]E₂17Gwas examined. Results. In CMVs prepared from SD rats, but not from EHBR, amarked ATP-dependent uptake of [³H]E₂17G was observed.Moreover, E₂17G competitively inhibited the ATP-dependent uptake of[³H]2,4-dinitrophenyl-S-glutathione (DNP-SG). In addition, nosignificant inhibitory effect of verapamil (100 M) and PSC-833 (5 M) onthe uptake of [³H]E₂17G was observed. In vivo, the biliary excretionof intravenously administered [³H]E₂17G was severely impaired inEHBR while the biliary excretion of [³H]E₂17G in SD rats wasreduced by administering a cholestatic dose (10 mol/kg) unlabeledE₂17G, but not by PSC-833 (3 mg/kg). Conclusions. The transport of E₂17G across the bile canalicularmembrane is predominantly mediated by cMOAT/MRP2.     

Postjunctional α-adrenoceptors

Summary The postsynaptic -adrenoceptors in rat aorta and in pithed rat were investigated according to their sensitivity to nine -adrenergic agonists and to the selective antagonists yohimbine (₂) and prazosin (₁) and the non-selective 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 -adrenoceptor agonist, whether ₁- or ₂-selective. Rat aorta probably contains only ₁-adrenoceptors.Pressor effects in pithed rats are mediated by post-junctional ₁- and ₂-adrenoceptors. The dose-response curve for -methylnorepinephrine in the presence of prazosin, using Hofstee's plots, revealed ₁- and ₂-adrenoceptors, respective proportions being 80.5 and 19.5%     

α1A and α1B-adrenoceptors enhance inositol phosphate generation in rat renal cortex

Summary We have studied the role of _1A and _1B-adrenoceptors in noradrenaline- and methoxamine-stimulated inositol phosphate accumulation in rat renal cortical slices. [³H]Prazosin binding studies with and without inactivation of _1B-adrenoceptors by chloroethylclonidine treatment suggested that noradrenaline lacks relevant selectivity for ₁-adrenoceptor subtypes. Both agonists stimulated [³H]inositol phosphate accumulation with similar maximal effects. The _1A-selective antagonists 5-methyl-urapidil and (+)-niguldipine inhibited inositol phosphate formation by both agonists with shallow biphasic curves but the high affinity component was only 15%–31% and 38%–41%, respectively. The irreversible _1B-selective antagonist chloroethylclonidine inhibited inositol phosphate generation by both agonists by 54%–57%. In contrast to our previous data in rat cerebral cortical slices; we conclude that in rat renal cortex both _1A- and _1B-adrenoceptors are involved in noradrenaline-and methoxamine-stimulated inositol phosphate generation.     

Modulation of N-methyl-d-aspartate (NMDA)-stimulated noradrenaline release in rat brain cortex by presynaptic α2-adrenoceptors

Summary Rat brain cortex slices and synaptosomes preincubated with [³H]noradrenaline were used to investigate whether the NMDA-evoked noradrenaline release is modulated by agonists or antagonists at presynaptic ₂-adrenoceptors.In experiments on slices, noradrenaline and the preferential ₂-adrenoceptor agonists talipexole (former B-HT 920) and clonidine inhibited the NMDA evoked tritium overflow whereas the selective ₁-adrenoceptor agonists cirazoline and methoxamine were ineffective. The ₂-adrenoceptor antagonists rauwolscine and idazoxan facilitated the NMDA-evoked tritium overflow whereas the preferential ₁-adrenoceptor antagonist prazosin was ineffective. The concentration-response curve of talipexole for its inhibitory effect on NMDA-evoked overflow was shifted to the right by idazoxan (apparent pA₂ = 7.5). The EC₅₀ of NMDA (97 mol/l) for its stimulating effect on tritium overflow was not substantially changed by blockade of ₂-autoreceptors with 1 mol/l rauwolscine (EC₅₀ of NMDA in the presence of the ₂-adrenoceptor antagonist, 155 mol/l), but the maximal overflow of tritium was increased 2.5 fold by this rauwolscine concentration. In experiments on synaptosomes, talipexole and noradrenaline inhibited the NMDA-evoked tritium overflow. The inhibitory effect of talipexole was abolished by idazoxan which, given alone, was ineffective, as was prazosin. Talipexole did also not produce an inhibition when tritium overflow was evoked by NMDA in the presence of -conotoxin GVIA 0.1 mol/l; the latter, by itself, decreased the response to NMDA by about 55%. It is concluded that the NMDA-evoked noradrenaline release in the cerebral cortex is modulated via presynaptic ₂-adrenoceptors on the noradrenergic neurones. Stimulation of these autoreceptors in slices by endogenous noradrenaline does not result in a decreased potency of NMDA, but in a decreased maximum effect, in stimulating noradrenaline release. The inhibitory effect of ₂-adrenoceptor agonists on the NMDA-evoked release is at least partially due to a functional interaction between the NMDA receptors and ₂-autoreceptors at the level of the same varicosities. The results obtained with -conotoxin GVIA suggest that Ca²⁺ influx via the N-type voltage-sensitive calcium channel (VSCC) occurs in response to NMDA receptor stimulation and contributes substantially to the induction of NMDA-evoked noradrenaline release. The inhibitory effect of ₂-adrenoceptor stimulation on this release appears to be ultimately due to an inhibition of the influx of Ca²⁺ via the N-type VSCC. Correspondence to: M. Göthert at the above address     

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     

Protection Afforded by Maltosyl-β-cyclodextrin Against α-Chymotrypsin-Catalyzed Hydrolysis of a Luteinizing Hormone-Releasing Hormone Agonist, Buserelin Acetate

Purpose. The present study addresses how maltosyl--cyclodextrin (G₂--CyD) impacts upon the -chymotrypsin-catalyzed hydrolysis of buserelin acetate, an agonist of luteinizing hormone-releasing hormone with emphasis upon the direct effect of G₂--CyD on the activity of the protease. Methods. Kinetic and solubility studies were performed in isotonic phosphate buffer (pH 7.4) at 25°C and 37°C. The interaction of -chymotrypsin with G₂--CyD in the buffer solution was examined by differential scanning calorimetry. Results. G₂--CyD decelerated the -chymotrypsin-catalyzed hydrolysis of buserelin acetate to give the 1–3 tripeptide and the 4–9 hexapeptide fragments. This deceleration can be explained solely by a nonproductive encounter between a complex of the substrate with G₂--CyD and the protease at relatively low CyD concentrations, while the direct inhibitory effect of G₂--CyD on the proteolytic activity made a considerable contribution to the overall deceleration of the hydrolysis at higher CyD concentrations. Calorimetric studies indicate the presence of intermediate states in the thermal unfolding of -chymotrypsin, simultaneously accompanied by the autolysis. By contrast, a two-state thermal unfolding of -chymotrypsin was observed in the presence of G₂--CyD, suggesting reduced proteolytic activity upon binding to G₂--CyD. Conclusions. These results suggest that G₂--CyD at higher concentrations inhibits the proteolytic action of -chymotrypsin through direct interaction with the protease, as well as through the formation of a non-productive complex with the substrate.     

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     

B-HT 920 acts as an α 1-adrenoceptor agonist in the rabbit aorta under certain in vitro conditions

Summary We have investigated the interaction of the ₂-adrenoceptor agonist B-HT 920 with the -adrenoceptors in the rabbit aorta using various experimental conditions.In standard Krebs-Henseleit solution B-HT 920 behaved as an antagonist when tested against the ₁-agonist phenylephrine. However, it behaved as a partial agonist at -receptors when subcontractile concentrations of various spasmogens (angiotensin II, serotonin, prostaglandin F₂ ) were applied, although no change in the affinity of the receptor to B-HT 920 was observed. By means of the selective antagonists prazosin and rauwolscine it was established that B-HT 920 activated ₁-renoceptors. The same agonistic effects of B-HT 920 were obtained after pretreatment of the animal with reserpine or in the presence of ouabain. The various treatments used (except reserpine) did not influence the contractile response to phenylephrine.The contractile response to B-HT 920 was found to be highly susceptible to the calcium entry blocker nitrendipine whereas the response to phenylephrine was not.It is concluded that spasmogens modulate the responsiveness of -receptors to certain agonists, possibly by causing a depolarization of the cell membrane and, thereby, sensitization of a mechanism involved in excitation-contraction coupling, conceivably a calcium gating mechanism.This study was supported by a grant of the Deutsche Forschungsgemeinschaft     

Comparison of α1A- and α1B-adrenoceptor coupling to inositol phosphate formation in rat kidney

We have compared the coupling mechanisms of rat renal _1A- and _1B-like adrenoceptors to inositol phosphate formation. The experiments were performed in parallel in native renal tissue preparations and in those where _1B-adrenoceptors had been inactivated by treatment with 10 mol/l chloroethylclonidine for 30 min at 37°C; renal slices were used in most experiments but isolated renal cells were also used in some cases. The Ca²⁺ chelating agent, EGTA (5 mmol/l), reduced noradrenaline-stimulated inositol phosphate formation in native but enhanced it in chloroethylclonidine-treated renal slices. The inhibitory effect of EGTA was not mimicked by 100 nmol/l nifedipine. Inactivation of 87% of cellular G_i by 16–20 h treatment with 500 ng/ml pertussis toxin did not significantly affect noradrenaline-stimulated inositol phosphate formation in isolated renal cells but abolished the inhibitory effect of chloroethylclonidine. The adenylate cyclase activator, forskolin (20 mol/l), inhibited noradrenaline-stimulated inositol phosphate formation in native and chloroethylclonidine-treated slices, and the inhibitory effects of chloroethylclonidine treatment and forskolin were additive. We conclude that in rat kidney inositol phosphate formation via _1B-like adrenoceptors may involve the influx of extracellular Ca²⁺ and a pertussis toxin-sensitive G-protein but is insensitive to inhibition by forskolin. In contrast _1A-like adrenoceptor-mediated inositol phosphate formation does not require the presence of extracellular Ca²⁺ or of G_i and is sensitive to inhibition by forskolin. In comparison to published data from other model systems we further conclude that the signaling mechanisms of ₁-adrenoceptor subtypes may depend on their cellular environment.