Pre- and postjunctional beta-adrenoceptor mediated effects on transmitter release and effector response in the isolated rat portal vein

Adaptive immunity in mice lacking the beta(2)-adrenergic receptor

The beta-2-adrenergic receptor (beta(2)AR) is expressed by most lymphocyte populations and binds the sympathetic neurotransmitter norepinephrine (NE). Stimulation of the beta(2)AR is reported to be the primary mechanism by which signals from the sympathetic nervous system influence both cell-mediated and humoral immunity. We report here that body/organ weights, lymphoid organ cell number/phenotype/histology, the contact sensitivity response, and the amount, avidity, and isotype of antibody resulting from a T cell-dependent antibody response in beta(2)AR deficient mice (beta(2)AR-/- mice) were all similar to measures made in beta(2)AR+/+ mice. Other members of the adrenergic receptor family did not appear to compensate for the absence in beta(2)AR expression. In contrast, beta(2)AR-/- B cells cultured in vitro were unable to respond to NE in a manner similar to beta(2)AR+/+ B cells. Thus, mice in which expression of the beta(2)AR gene is defective from early development to adulthood may no longer require that NE stimulate the beta(2)AR to maintain immune homeostasis, and this may be due to a non-adrenergic mechanism that provides compensation in vivo.

Pre- and postganglionic stimulation-induced noradrenaline overflow is markedly facilitated by a prejunctional beta 2-adrenoceptor-mediated control mechanism in the pithed rat

The aim of the study was to further explore the prejunctional beta-adrenoceptor-mediated control mechanism of noradrenaline release from sympathetic nerves in response to preganglionic nerve stimulation (PNS) and local nerve stimulation of the portal vein, respectively, in the pithed rat. Baseline values as well as the increments of mean arterial blood pressure (delta-BP), heart rate (delta-HR) and plasma noradrenaline levels (delta-NA) in response to four PNS episodes (0.8 Hz, 3 ms, 75 V for 45 s at 20 min intervals), respectively, were evaluated. Fenoterol administration (0.25 mg/kg, i.v.) reduced significantly the basal blood pressure but did not alter delta-BP in response to PNS. Basal heart rate markedly increased after fenoterol without any further change in heart rate induced by PNS. The beta 1-selective antagonist CGP 20712A attenuated delta-BP in response to PNS and prevented the fenoterol-induced increase in basal heart rate. The beta 2-selective antagonist ICI 118,551 per se did not change the blood pressure and heart rate values, but antagonized the fenoterol-induced decrease in basal blood pressure. Fenoterol enhanced plasma delta-NA in response to PNS by 105% in comparison to the corresponding control value. This effect of fenoterol could be blocked by pretreatment with ICI 118,551 but not with CGP 20712A (a selective beta 1-adrenoceptor antagonist) which per se did not significantly change plasma delta-NA. Repeated local stimulation of the portal vein (S1-S3, 2 Hz, 3 ms, 10 mA, for 120 s at 30 min intervals) increased portal plasma noradrenaline without changing mean blood pressure and heart rate in pithed rats.(ABSTRACT TRUNCATED AT 250 WORDS)

Modulation of noradrenergic transmission in the rat isolated portal vein: Role of prejunctional α2-adrenoceptors and β-adrenoceptors

1. The effect of several adrenoceptor agonists and antagonists on the spontaneous and stimulus-evoked release of [3H]noradrenaline was studied in rat isolated portal vein. 2. Yohimbine (10(-6)M) increased the stimulus-evoked [3H]noradrenaline efflux. Adrenaline alone (3 x 10(-6)M) was without effect, while it increased the resting efflux when added together with yohimbine. 3. Propranolol alone was without effect on the release of [3H]noradrenaline. When added (2 x 10(-6)M) at the same time as yohimbine, it reduced the stimulation-induced 3H efflux. When added before adrenaline and yohimbine, propranolol (10(-5)M) reduced both spontaneous and stimulus-evoked release of [3H]noradrenaline. 4. The effect of several beta-blocking drugs was measured on the enhancing effect of yohimbine on the stimulation-evoked 3H efflux. The beta 1-adrenoceptor blocking drugs: atenolol (5 x 10(-6) and 10(-5) M), metoprolol (5 x 10(-6) and 10(-5) M), like the more selective bisoprolol (2 x 10(-6) and 4 x 10(-6) M) inhibited yohimbine activity. Likewise, propranolol (2 x 10(-6) and 5 x 10(-6)M) and the beta 2-adrenoceptor blocker ICI 118551 exhibited an antagonistic effect. 5. These results indicate the possibility for noradrenaline to activate presynaptic beta-adrenoceptors in rat portal vein. They show an interaction between the presynpatic alpha 2- and beta-adrenoceptor mediated systems in the release of noradrenaline. They suggest the presence and the activity of facilitatory beta 1-adrenoceptors.

Inhibition by VIP and atriopeptin II on the field stimulation evoked release of [3H]noradrenaline in the rat portal vein

The modulatory effects of vasodilatory peptides on noradrenaline release from sympathetic nerve terminals have been studied in the rat portal vein model. Transmural field stimulation of the longitudinally mounted vein preparation evoked concomitant increases in the [3H]noradrenaline overflow and the integrated tension. Both responses were abolished by guanethidine or tetrodotoxin, whereas only the tension response was blocked by phentolamine. CGRP and VIP, both being present in intramural nerve fibers in the rat portal vein, were compared with atriopeptin II for modulatory effects. CGRP (100 nM) had no effect on the overflow of [3H]noradrenaline or the integrated tension response to transmural stimulation. VIP (30 nM) and atriopeptin II (30 nM) both caused significant reductions of both [3H]noradrenaline overflow and the integrated tension. These results indicate that the decreased tension response to transmural stimulation in the presence of VIP or AP II reflects the sum of both pre- and postsynaptic inhibitions.

Presynaptic beta-adrenoceptors in rat atria: evidence for the presence of stereoselective beta 1-adrenoceptors

1. Presynaptic beta-adrenoceptor activity was studied in rat isolated atria, previously loaded with [3H]-noradrenaline. The stimulation-induced release of 3H transmitter was measured in the presence of cocaine, and adrenaline was used as a facilitatory beta-adrenoceptor agonist. 2. Adrenaline (0.1 and 2 nM) increased, by about 50%, the evoked efflux of tritium. With phenoxybenzamine present, the same activity was shown with 10 nM adrenaline. 3. The beta 2-selective adrenoceptor blocking drugs: IPS 339 and ICI 118 551 caused a concentration-dependent decrease in the activity of adrenaline. Cardioselective beta-blocking drugs: acebutolol, beta-xolol, nebivolol and its isomers (R 67 138 and R 67 145) also reduced dose-dependently the agonistic action of adrenaline. The order of potency for nebivolol and its isomers was R 67 138 greater than nebivolol greater than R 67 145. The activity of pindolol was not concentration-dependent. The inhibitory effect of acebutolol was also observed in the presence of blockade of alpha-adrenoceptors. 4. The postsynaptic beta-adrenoceptor blocking activity of nebivolol and its isomers was studied in pithed rats. They reduced isoprenaline-induced tachycardia without altering hypotensive responses. The order of potency was: R 67 138 greater than nebivolol greater than R 67 145. 5. It is concluded that in rat isolated atria, presynaptic beta 2- and beta 1-adrenoceptors coexist and that facilitatory beta 1-adrenoceptors are stereospecific.

Sympathetic transmission in small mesenteric arteries from the rat: highly calcium-dependent at low stimulation rates

In the present study we examine the calcium requirements of the neurogenic response in vitro of small arteries (150-200 microns diameter) from the mesentery of Wistar rats. Intramural nerves were activated with electrical field stimulation. Responses to single impulses and to low-frequency repeated stimulation were reduced or abolished by reducing the Ca2+ concentration in the bathing solution from 2.5 to 1.0 mM. Responses to higher frequencies (16 Hz) were only slightly affected. Since calcium reduction had markedly less effect on responses to direct activation of the smooth muscle and on responses to any dose of exogenous noradrenaline, the calcium reduction had mainly pre-junctional effects. The data show that part of the neurogenic response is highly calcium-sensitive, perhaps more so than would be expected of a purely noradrenergic transmission.

Effect of isoprenaline on noradrenaline release from sympathetic neurones in rabbit isolated pulmonary artery

The aim of the present work was to demonstrate the presence of presynaptic beta-adrenoceptors in the rabbit isolated pulmonary artery by investigating the effect of isoprenaline on 3H-noradrenaline (3H-NA) release evoked by electrical field stimulation. (-)-Isoprenaline (10(-7)-10(-6) mol/l) had no effect on the 3H-overflow evoked by stimulation (3 Hz) of the pulmonary artery preloaded with 3H-NA. At 10(-5) mol/l, (-)-isoprenaline reduced the 3H-overflow by maximally 39%. (-)-Isoprenaline (10(-5) mol/l) caused an inhibition that remained almost constant with time. The same results were obtained with (-)-isoprenaline (10(-7)-3 X 10(-5) mol/l) in the presence of cocaine (3 X 10(-5) mol/l), corticosterone (4 X 10(-5) mol/l), and the catechol-O-methyltransferase inhibitor U-0521 (3',4'-dihydroxy-2-methylpropiophenone) (10(-4) mol/l). In the presence of cocaine plus corticosterone, (-)-isoprenaline (3 X 10(-10)-10(-7) mol/l) had no effect on the 3H-overflow evoked by stimulation at 1 Hz. At 10(-6) mol/l, (-)-isoprenaline slightly reduced the 3H-overflow. At 10 Hz, (-)-isoprenaline (10(-6)-3 X 10(-5) mol/l) decreased the 3H-overflow and had no effect at 10(-7) mol/l. In the presence of either rauwolscine (10(-6) mol/l), phentolamine (10(-6) mol/l) or the phosphodiesterase inhibitor ICI 63,197 (3 X 10(-5) mol/l), (-)-isoprenaline (10(-7)-10(-6) mol/l) did not enhance the stimulation-evoked 3H-overflow. (+/-)-Propranolol (10(-7)-10(-5) mol/l) did not alter the stimulation-evoked 3H-overflow.(ABSTRACT TRUNCATED AT 250 WORDS)

Actions of calcium antagonists on pre- and postjunctional effects of neuropeptide Y on human peripheral blood vessels in vitro

The mechanisms underlying the contractile effects of neuropeptide Y (NPY) in relation to those of noradrenaline (NA) on small human blood vessels were studied in vitro. NPY caused contractions of mesenteric veins, renal and skeletal muscle arteries but not of mesenteric arteries. NPY was about 5- to 10-fold more potent than NA. The maximal contractile responses to NPY (5 X 10(-7) M) were 38 +/- 4, 37 +/- 8 and 95 +/- 16% of the response evoked by NA 10(-5) M in the mesenteric vein, renal and skeletal muscle arteries respectively. The NPY effects were resistant to adrenoceptor antagonists. The calcium antagonist nifedipine reduced the effect of NA but not the contractile response to NPY on mesenteric veins. Nifedipine and felodipine reduced the contractile response to both NA and NPY on renal and skeletal muscle arteries. In contrast to the contractile effects of K+, the responses to NPY and NA were largely uninfluenced by changes in extracellular Ca2+ concentrations. Nifedipine still inhibited the NPY contractions in a Ca2+-free medium while high extracellular Ca2+ (7.5 mM) partly reduced the nifedipine effect. NPY reduced the nerve stimulation-evoked [3H]NA overflow from the mesenteric veins via a nifedipine resistant mechanism. The stable analogue alpha, beta-methylene adenosine triphosphate (mATP) was more potent than ATP and had nifedipine-sensitive contractile effects similar to those of NA on the human blood vessels without influencing the nerve-evoked [3H]NA efflux. In conclusion, NPY exerts a potent nifedipine-sensitive vasoconstrictor activity, especially on human skeletal muscle arteries in vitro, although the influx of extracellular calcium may not be a crucial mechanism. The NPY-induced contractions of mesenteric veins and the inhibition of nerve-evoked [3H]NA efflux seem to be mediated via nifedipine resistant messenger systems.

Contractile effects of various vasoactive agents in small rat portal veins and hepatic arteries and the influence of sympathetic denervation on the noradrenaline response

Contractile responses were studied in isolated tubal segments of branches of the rat portal vein (luminal diameter approximately 300 microns) and hepatic artery (luminal diameter approximately 200 microns). Portal veins were approximately three times more sensitive to noradrenaline (NA) than hepatic arteries. 5-hydroxytryptamine contracted hepatic arteries concentration-dependently, whereas it produced only weak and inconsistent contractions in portal veins. Vasopressin effectively contracted hepatic arteries, whereas it had no effect on portal veins. Both vessel types responded to prostaglandin F2 alpha with contractions, although the drug potency was relatively low (EC50 greater than 10(-5) mol l-1). Histamine and carbachol failed to induce (hepatic arteries) or caused only weak (portal veins) contractions. Microsurgical hepatic hilar denervation reduced the catecholamine content of the parenchyma to less than or equal to 25% of controls. In both portal veins and hepatic arteries, the denervation procedure increased the NA sensitivity by factors of 3.1 and 2.0, respectively. In non-denervated livers, cocaine produced a similar increase of the NA sensitivity, whereas the drug had no significant effect in vessels from denervated animals. Thus, there was a marked difference between rat portal veins and hepatic arteries in their responsiveness to several contractile agents. Furthermore, the results of the present study indicate that the adrenergic nerves in both vessel types can be adequately removed by the microsurgical denervation procedure used.

Increased beta I-adrenoceptor density after 6-hydroxydopamine pretreatment in rat colon and lung

Estimation of beta-adrenoceptor-binding sites with 125I-(-)-pindolol in rat colon show a proportion of 30% beta I-adrenoceptors and 70% beta 2-adrenoceptors. Studies on the isolated colon strip have revealed a neuronal beta-adrenoceptor involved in the inhibitory response of colon motility to beta-adrenoceptor stimulation. In order to further characterize the beta-adrenoceptors in the colon, acute and chronic treatments with 6-hydroxydopamine were made. Both acute pretreatment of rats with 6-hydroxydopamine for 8 and 24 h (one intravenous injection) and chronic treatment for 3 days (implanted osmotic mini-pumps), reduced the noradrenaline tissue content by 90%, and successively increased the beta-adrenoceptor-binding sites from 14.2 to 21.7 fmol mg-I P-I in colon and from 158 to 240 fmol mg-I P-I in lung membranes. Displacement of the radiolabelled ligand by the selective beta-adrenoceptor antagonists, pafenolol and ICI 118.551 showed that the density of beta I-adrenoceptor binding sites was more than doubled, whereas the density of beta 2-adrenoceptor-binding sites was only marginally increased by chronic treatment with 6-hydroxydopamine. Thus sympathetic denervation by 6-hydroxydopamine treatment produced a selective increase in beta I-adrenoceptors in the rat colon. These results may indicate that stimulation of beta I-adrenoceptors in both colon and lung have a neuronal linkage.

Presynaptic beta-adrenoceptors

The existence of facilitatory presynaptic beta-adrenoceptors has been shown in approximately 30 tissues of 6 different species including human. A positive feed back loop for further release of the transmitter appears to be activated by an endogenous agonist, epinephrine, taken up and released as a cotransmitter with norepinephrine rather than norepinephrine itself released from peripheral noradrenergic nerve terminals. Presynaptic beta-adrenoceptors are mainly of a beta 2-subtype. Some beta 1-subtype receptors are also suggested. There coexist presynaptic beta 1- and beta 2-adrenoceptors in cat and rat hypothalamus. Higher sensitivity of peripheral presynaptic beta-adrenoceptors to isoproterenol may be implicated in the early development of hypertension in SHR. Epinephrine taken up and released initiates the development of hypertension in rats via activation of these receptors. Increased activation of these receptors by epinephrine may play a role in the development of essential hypertension. The antihypertensive action of beta-antagonists may be in part due to blockade of these facilitatory presynaptic beta-adrenoceptors.

Mechanisms underlying pre- and postjunctional effects of neuropeptide Y in sympathetic vascular control

The effects of porcine neuropeptide Y (NPY) regarding sympathetic vascular control were studied in vitro on isolated rat blood vessels. The 10(-9)M NPY enhanced (about two-fold) the contractile responses to transmural nerve stimulation (TNS), noradrenaline (NA) and adrenaline (about two-fold) in the femoral artery. Higher concentrations of NPY (greater than 10(-8)M) caused an adrenoceptor-resistant contraction per se. The TNS-evoked [3H]NA efflux was significantly reduced by NPY in a concentration-dependent manner (threshold 10(-9)M). The calcium antagonist, nifedipine, abolished the contractile effects of NPY and the NPY-induced enhancement of NA contractions but did not influence the prejunctional inhibition of [3H]NA release. Receptor-binding studies showed that the ratio of alpha 1-to alpha 2-adrenoceptors in the femoral artery was 30:1. The NPY did not cause any detectable change in the number of alpha 1-or alpha 2-adrenoceptor binding sites or in the affinity of alpha 2-binding sites, as revealed by prazosin- and clonidine-binding, respectively. The NPY also inhibited the TNS-evoked [3H]NA release (by 42-86%) in the superior mesenteric and basilar arteries and in femoral and portal veins. The NPY still depressed TNS-evoked [3H]NA secretion from the portal vein in the presence of phentolamine. The NPY caused a clear-cut contraction in the basilar artery, increased the contractile force of spontaneous contractions in the portal vein, while only weak responses were observed in the superior mesenteric artery and femoral vein. The NA-induced contraction was markedly enhanced by NPY in the superior mesenteric artery, only slightly enhanced in the portal vein and uninfluenced in the femoral vein. In conclusion, in all blood vessels tested, NPY depresses the TNS-evoked [3H]NA secretion via a nifedipine-resistant action. Furthermore, NPY exerts a variable, Ca2+-dependent vasoconstrictor effect and enhancement of NA and TNS contractions.

Calcitonin gene-related peptide (CGRP) and capsaicin-induced stimulation of heart contractile rate and force

The effects of calcitonin gene-related peptide (CGRP) on guinea-pig heart contractility were investigated in vitro in relation to the response of capsaicin and noradrenaline (NA). Synthetic rat CGRP (greater than 10(-8) M) caused a long-lasting, positive inotropic and chronotropic effect on the spontaneously beating right atrium. The response to CGRP mimicked the effects of capsaicin and was resistant to beta-adrenoceptor blockade using metoprolol. Furthermore, CGRP did not change basal efflux or the release of 3H-NA induced by transmural nerve stimulation, suggesting an action independent of sympathetic mechanisms. Mepyramine and cimetidine did not reduce the response to CGRP. After tachyphylaxis to the effects of CGRP (5 X 10(-7) M) which developed within 15-20 min, the positive inotropic and chronotropic atrial response to capsaicin was abolished. The effects of NA, however, were not influenced by CGRP tachyphylaxis. In the isolated perfused whole heart, CGRP had more pronounced stimulatory effects on ventricular contractile rate than on force compared to NA. The CGRP response was resistant to metoprolol and still present in capsaicin-pretreated animals. Capsaicin caused a slight initial inhibition of ventricular contractility, which was followed by a marked stimulatory action. As for CGRP, the cardioexcitatory response to capsaicin was more pronounced on rate than on force. The stimulatory responses to capsaicin were absent 2 weeks after systemic capsaicin pretreatment. In conclusion, CGRP mimics the non-adrenergic, cardioexcitatory effects of capsaicin, and the capsaicin response is absent after CGRP tachyphylaxis.(ABSTRACT TRUNCATED AT 250 WORDS)

Identification of presynaptic beta 2-adrenoceptors on the sympathetic nerve fibres of the human pulmonary artery

Strips of human pulmonary arteries from patients undergoing surgery for lung tumour were incubated with [3H]-noradrenaline. Subsequently, they were superfused with physiological salt solution containing cocaine and corticosterone. Tritium overflow from the strips was stimulated by transmural electrical impulses (2 Hz). The electrically evoked overflow of tritium consisted of 91% unmetabolized [3H]-noradrenaline, and this percentage was not altered by isoprenaline. Adrenaline (in the presence of rauwolscine), isoprenaline and the preferential beta 2-adrenoceptor agonist, procaterol, concentration-dependently increased the electrically evoked tritium overflow. Prenalterol, a beta-adrenoceptor agonist with moderate preference for beta 1-adrenoceptors, was considerably less active than the previously mentioned agonists; noradrenaline (in the presence of rauwolscine) was ineffective. The concentration-response curve of procaterol was shifted to the right by the preferential beta 2-adrenoceptor antagonist ICI 118-551 but was not affected by the beta 1-selective antagonist, atenolol. Propranolol, but not atenolol, produced a shift to the right of the concentration-response curve of isoprenaline. It is concluded that the sympathetic nerve fibres of the human pulmonary artery are endowed with facilitatory presynaptic beta 2-adrenoceptors.

Neuropeptide Y and sympathetic control of heart contractility and coronary vascular tone

The effects of neuropeptide Y (NPY) on contractility of the spontaneously beating guinea-pig atrium and transmural nerve stimulation (TNS)-induced efflux of tritium-noradrenaline (3H-NA) were studied in vitro. NPY induced a moderate positive chronotropic and inotropic atrial response, which was resistant to metoprolol. TNS at 2 Hz for 2 s caused an increase in rate and contractile force. These effects were significantly reduced by NPY. NPY also reduced the TNS induced (2 Hz for 20 s), fractional [3H]NA release by 40% without affecting the contractile response. The contractile effects of exogenous NA on the guinea-pig atrium were not affected by NPY. NPY caused a long-lasting increase in coronary perfusion pressure, and also, in high doses, an inhibition of ventricular contractility in the isolated, perfused guinea-pig heart. The perfusion pressure increase to NPY, which most likely reflects coronary vasoconstriction, was resistant to alpha- and beta-adrenoceptor blockade but sensitive to the calcium antagonist nifedipine. A 50% reduction of the vascular NPY response occurred at 10(-9) M nifedipine, which did not influence cardiac contractility per se or the contractile effects of NA. NPY did not modify the increase in ventricular contractility induced by NA. Noradrenaline did not influence coronary perfusion pressure after beta-blockade. Since NPY is present together with NA in cardiac nerves, it may be suggested that NPY is involved in the regulation of NA release as well as the sympathetic control of atrial contractility and coronary blood flow.

Influence of acetylcholine, peptides, and other vasodilators on endogenous noradrenaline overflow and vasoconstriction in canine blood perfused gracilis muscle

The effects of acetylcholine, substance P and vasoactive intestinal polypeptide (VIP) on the endogenous noradrenaline (NA) overflow were compared to those of two other vasodilators, nitroglycerin and felodipine, neither of which are thought to influence NA neurotransmission in blood perfused skeletal muscle. The lack of prejunctional effects of nitroglycerin was verified in vitro. The sympathetic nerve stimulation (SNS) evoked NA overflow was reduced by 37 +/- 9% by a dose of acetylcholine which reduced the perfusion pressure at rest by 44 +/- 6%. Conversely, atropine tended to enhance SNS evoked NA overflow. Acetylcholine reduced the vasoconstrictor responses to SNS when compared to the responses observed with an equipotent vasodilatory dose of, e.g. nitroglycerin. The SNS evoked NA overflow was not influenced by a moderate mechanical blood flow reduction or by pronounced reductions of vascular resistance induced by either substance P, VIP, nitroglycerin or felodipine, supporting the idea that the transport of NA from nerve terminal to blood is not importantly influenced by moderate decreases in blood flow or vascular tone. Prejunctional muscarinic inhibition of NA release in skeletal muscle was verified under in vivo conditions, but the other substances tested did not influence sympathetic neurotransmission. Endogenous NA overflow appears to mirror NA release in vivo also when diffusion is influenced by changes in blood flow or vascular tone in this experimental model.

Neuropeptide Y (NPY) reduces field stimulation-evoked release of noradrenaline and enhances force of contraction in the rat portal vein

The effect of neuropeptide Y (NPY) on fractional tritium-noradrenaline (3H-NA) release and contractile activity was studied in the isolated portal vein of SHR and WKY rats. NPY (5 X 10(-7) M) enhanced the force of the spontaneous contractile activity by about 40%. The fractional 3H-release elicited by transmural nerve stimulation (TNS), which mainly reflects 3H-NA, was reduced by about 40% after preincubation with 5 X 10(-7) M NPY in portal veins from both SHR and WKY rats. The inhibitory effect of NPY on TNS-evoked 3H-release was more slowly reversed by washout than the facilitatory action on spontaneous contractile force. The contractile response to field stimulation was not reduced by NPY, but rather tended to be increased. It is concluded that NPY exerts a dual action in the SHR and WKY portal vein, thus enhancing the smooth muscle contractions and inhibiting sympathetic neurotransmission. The inhibitory effect of NPY on TNS-evoked NA efflux, which is present in both SHR and WKY rats, is most likely due to a presynaptic site of action.

Differential effects of D600, nifedipine and dantrolene sodium on excitation-secretion coupling and presynaptic beta-adrenoceptor responses in rat atria

The stimulation-evoked release of tritium was measured from rat atria labelled with [3H]-noradrenaline. The calcium dependence of evoked release and the facilitation of this release via activation of presynaptic beta-adrenoceptors were examined using D600 (methoxyverapamil), nifedipine and dantrolene sodium. Both D600 and nifedipine at dose levels of 20 and 100 microM inhibited evoked release. Dantrolene (20, 100 microM) reduced release by 25%, the effect being maximal at 20 microM. In the presence of 20 nM isoprenaline, a facilitation of evoked release occurred, which was blocked by 0.1 microM (-)-propranolol. The facilitatory action of isoprenaline was abolished by omission of calcium from the buffer, or by D600 or nifedipine, (100 microM). In contrast, the response to isoprenaline was not modified by dantrolene (20, 100 microM). It is concluded that the evoked release of noradrenaline (NA) utilizes Ca from both intra- and extracellular sources and that isoprenaline increases NA secretion by promoting the depolarization-induced influx of Ca.

Prejunctional beta-adrenoceptors in human and canine saphenous veins

Experiments were designed to compare the functional importance of prejunctional beta-adrenoceptors in human and canine blood vessels. Rings of saphenous veins were mounted for isometric tension recording in organ chambers filled with physiological salt solution. Isoproterenol caused concentration-dependent relaxations of comparable magnitude during contractions of canine veins caused by electrical stimulation or norepinephrine. In the human veins, isoproterenol caused smaller relaxations during norepinephrine-induced contractions, and augmented the contractile response to electrical stimulation. Helical strips of veins were incubated with [3H]norepinephrine and mounted for superfusion and isometric tension recording. Isoproterenol augmented the release of intact labeled transmitter during electrical stimulation more in the human than in the canine vein. In veins from both species the effects of isoproterenol were inhibited by propranolol. These experiments demonstrate that the adrenergic nerves of the human saphenous vein have a greater responsiveness to prejunctional beta-adrenergic activation than those of the corresponding canine vessel. As a consequence, in the human vein, beta-adrenergic agonists augment, rather than depress the contractile response to activation of the adrenergic nerve endings.

Modulation of noradrenaline release through activation of presynaptic beta-adrenoreceptors

On peripheral noradrenergic nerve endings there exist beta-adrenoreceptors activation of which results in an enhanced release of noradrenaline in response to nerve stimulation. These presynapatic beta-adrenoreceptors do not appear to be activated by neuronally-released noradrenaline. However, adrenaline may be a physiological activator during enhanced adrenomedullary secretion. Adrenaline can also be incorporated into the noradrenergic transmitter stores and be released as a co-transmitter. Under these conditions presynaptic beta-adrenoreceptors may be activated by neuronally-released adrenaline, thus forming a 'positive feedback loop'. The release of adrenaline from the adrenal medullae may also be modulated through facilitatory beta-adrenoreceptors, but the release of noradrenaline from noradrenergic nerves in the central nervous system is not. The facilitatory presynaptic beta-adrenoreceptors appear to be in the main of the beta 2-subtype although precise receptor characterization has not been carried out. Increased activation of presynaptic beta-adrenoreceptors by adrenaline may be implicated in the development of essential hypertension. Part of the antihypertensive action of beta-adrenoreceptor blocking drugs may be due to blockade of these facilitatory presynaptic beta-adrenoreceptors.

The influence of vascular beta-adrenoceptors on the position and mobility of the rabbit incisor tooth

The influence of vascular beta-adrenoceptors on the tooth-supporting functions of the periodontal ligament were studied in 30 anesthetized rabbits. Propranolol and the beta 2-adrenoceptor antagonists ICI 118,551 and H 35/25 induced a marked extrusion of the incisor, probably due to reduced vasodilator tone in periodontal postcapillary blood vessels. Isoprenaline reversed the movement. beta 1- and beta 2-receptor antagonists decreased the intrusive responses to sympathetic nerve stimulation in teeth close to control position, but had no effect on responses in fully extruded teeth. Intrusive mobility, as tested by intermittent loading with 5-10 g, remained unaffected by beta-adrenoceptor blockade. The results suggest that vascular beta 2-adrenoceptors are important in the regulation of tooth position by their control of periodontal postcapillary resistance. Prejunctional beta-receptors enhancing the vasoconstrictor--and intrusive--responses to sympathetic nerve stimulation are probably a mixture of beta 1- and beta 2-receptors. It would seem that the periodontal vasculature is important for the position of the rabbit tooth but, due to rapid adaptive mechanisms of the tooth-supporting tissues, the vasculature contributes little to the resistance against load-induced intrusive movements of the tooth.

Stereoselectivity of presynaptic autoreceptors modulating dopamine release

The effects of the (R)- and (S)-enantiomers of sulpiride and butaclamol were studied on the spontaneous and field stimulation-evoked release of total radioactivity from slices of rabbit caudate nucleus prelabelled with [3H]dopamine. (S)-Sulpiride in concentrations ranging from 0.01--1 microM enhanced the electrically evoked release of [3H]dopamine while (R)-sulpiride was 10 times less potent than (S)-sulpiride. Exposure to (S)-butaclamol (0.01--1 microM) but not to (R)-butaclamol (0.1--10 microM) enhanced the field-stimulated release of [3H]dopamine. The facilitatory effects of (S)- and (R)-sulpiride and (S)-butaclamol on the stimulated release of the labelled neurotransmitter were observed under conditions in which these drugs did not modify the spontaneous outflow of radioactivity. Only the active enantiomers of sulpiride and butaclamol antagonized the inhibition by apomorphine (1 microM) of the stimulated release of [3H]dopamine. Our results indicate that the presynaptic inhibitory dopamine autoreceptors modulating the stimulation-evoked release of [3H]dopamine in the caudate nucleus are, like the classical postsynaptic dopamine receptors, chemically stereoselective.

Effects of beta-adrenoceptor antagonists on the firing rate of noradrenergic neurones in the locus coeruleus of the rat

Acute i.v. administration of the non-selective beta-adrenoceptor antagonist dl-propranolol given in incremental doses (less than 40 mg/kg) did not affect the firing rate of locus coeruleus (LC) neurones in the rat, as revealed by single cell recording techniques. Furthermore, no effect was seen 4 h after a single i.p. dose of this beta-blocker (10 mg/kg). However, repeated treatment with dl-propranolol (1, 5, 10 or 20 mg/kg i.p., twice daily for 4 days) produced a significant, dose-dependent decrease of the average LC neuronal firing rate in comparison to controls. The dextro isomer of propranolol, which has negligible beta-blocking activity but the same local anaesthetic potency as the racemate, had no corresponding effect. The non-selective beta-adrenoceptor antagonist sotalol, which is one of the most hydrophilic beta-blockers, had much less inhibitory effect on LC neurones than dl-propranolol. The beta 1-selective antagonist metoprolol did not change the firing of noradrenergic neurones in the LC after similar treatment for 4 days. However, when the rats were subjected to oral treatment for 28 days, metoprolol was found to produce a slight inhibitory effect although much less than dl-propranolol. In view of these findings we propose a stimulatory and mainly beta 2-adrenoceptor-mediated control mechanism for the noradrenergic neurones in the LC. This mechanism seems to be characterized by a delayed responsiveness.

Presynaptic regulation of the release of catecholamines in the cat hypothalamus

The posterior hypothalamus of cats was superfused through a push-pull cannula and the release of endogenous catecholamines was determined in the superfusate. Superfusion with yohimbine, isoprenaline, salbutamol or tazolol increased, while superfusion with propranolol decreased, the release of all three catecholamines. Transection of the brain caudal to the hypothalamus inhibited 'resting' and drug-induced release. It is concluded that alpha- and beta-adrenoceptors of the hypothalamus are involved in the regulation of the release of catecholamines.