Characterization of beta-adrenergic receptors by (3H) isoproterenol in adipocytes of humans and rats

The specific binding of (3H) isoproterenol to isolated fat cells of human and rat was characterized. Binding of (3H) isoproterenol to isolated fat cells of rat was saturable with 420 pmol of (3H) isoproterenol bound/100 mg of lipid. Half-maximal saturation occurred at 5 microM providing an estimate of the equilibrium dissociation constant, KD, for the interaction of (3H) isoproterenol with its binding sites. Kinetic analysis of (3H) isoproterenol binding provided a value of 2.01 x 10(4) min-1. M-1 for the forward bimolecular rate constant, k1. Dissociation of (3H) isoproterenol was a first order reaction with a rate constant, k2, of 0.62 x 10(-1) min-1. The ratio k2/k1 = 3.07 microM provides an independent measurement of the KD for the interaction of (3H) isoproterenol with its binding sites which is in agreement with the values obtained by steady state analysis (3 to 5 microM). The apparent equilibrium dissociation constant, KD, for the interaction of (3H) isoproterenol with its receptor in human fat cells obtained by steady state analysis was 1 to 0.9 microM. Scatchard- and Hill-analysis suggest the possibility of different negatively cooperative interactions among the binding sites in human and rat. beta-Adrenergic agonists competed for the binding sites. The order of potency was isoproterenol greater than epinephrine greater than norepinephrine. Compounds such as DOPA, dopamine and (m-Hydroxyphenyl)2-methyl-aminoethanol which are structurally related to catecholamines had little or no affinity for (3H) isoproterenol binding sites.     

Agonist-induced changes in beta-adrenergic receptors on intact cells

Competition by beta-adrenergic agonists and antagonists for 125I-pindolol binding sites on intact cells (1321N1 human astrocytoma and C62B rat glioma) was measured using short time binding assays as previously described (Toews, M. L., Harden, T. K., and Perkins, J. P. (1983) Proc. Natl. Acad. Sci. U.S.A. 80, 3553-3557). Preincubation of cells with agonists converted about half of the cellular beta-adrenergic receptors from a form exhibiting high affinity for the agonists isoproterenol and epinephrine and the antagonist sotalol to a form exhibiting much lower apparent affinity for these ligands in short time assays. Exposure to agonists did not alter the affinity of receptors for the antagonist metoprolol. This change in the ligand binding properties of the receptor was rapid (t1/2 = 1-2 min following a lag of about 0.5 min), reversible (t1/2 = 6-8 min), and dependent on the agonist concentration present during the preincubation (K0.5 = 15 nM for isoproterenol). Both isoproterenol and sotalol attained equilibrium with the high affinity receptors very rapidly but equilibrated only slowly with those receptors exhibiting low apparent affinity in short time assays. These results are interpreted in terms of a model which postulates that both the low apparent affinity in short time assays and the subsequent slow equilibration of hydrophilic ligands with these receptors result from agonist-induced internalization of a fraction of cell surface beta-adrenergic receptors. The relationship of this change in receptor binding properties to other aspects of agonist-induced desensitization of the beta-adrenergic receptor-coupled adenylate cyclase system is discussed.     

A study on melanophore receptors of Papiliochromis ramirezi (Teleostei, Cichlidae)

Melanophores of Papiliochromis ramirezi aggregate their melanosomes in the presence of catecholamines. Their order of potency are: at 10(-4) M, norepinephrine greater than isoproterenol = epinephrine; at 10(-6) and 10(-8) M, norepinephrine = isoproterenol greater than epinephrine. These effects are antagonized not only by phentolamine but also by propranolol. The catecholamines are unable to induce pigment dispersion. Melanosome dispersion is obtained with cholinergic drugs and the order of potency is nicotine greater than acetylcholine = pilocarpine. Their effects are inhibited by atropine and also by d-tubocurarine and potentiated by physostigmine. The evidences suggest the presence of undifferentiated adrenoceptors, related to the melanosome aggregation and undifferentiated cholinoceptors related to the melanosome dispersion.     

Alpha-adrenergic receptors in myometrium of pregnant and nonpregnant pigs until day 19 postestrus

Binding of [3H] dihydroergocryptine (DHE) to myometrium was studied in cyclic and pregnant gilts. The binding was saturable and of high affinity (Kd = 2-4 nM). DHE binding was inhibited by phentolamine, phenoxybenzamine, epinephrine and norepinephrine, but almost not at all by propranolol or isoproterenol. DHE appears to be bound to an alpha 2-adrenergic receptor because yohimbine had a much greater ability to compete for DHE binding sites than did prazosin. The concentration of DHE binding sites in the myometrium was greatest during the luteal phase of the estrous cycle as has been previously reported for sheep. The decrease at estrus did not appear to be associated with a change in the alpha 2-adrenergic receptor dominance in myometrial membranes. Embryo migration to the site of implantation may be associated with reduced concentration of DHE binding sites on Days 10 to 12 of pregnancy in pigs.     

Regulation of platelet-activating factor receptor and platelet-activating factor receptor-mediated biological responses by cAMP in rat Kupffer cells

Treatment of cultured Kupffer cells with the beta-adrenergic agonist isoproterenol (10 microM) for a short period of time (30 min) attenuated the subsequent platelet-activating factor (PAF)-induced arachidonic acid release and cyclooxygenase-derived eicosanoid (e.g. thromboxane B2 and prostaglandin E2) production. This effect of isoproterenol was highly specific since the alpha-adrenergic agonist phenylephrine and the beta-adrenergic antagonist propranolol had no effect on the stimulatory effect of 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (AGEPC). The inhibitory effect of isoproterenol on the AGEPC-induced arachidonic acid release was demonstrated through the use of a specific beta-adrenergic subtype agonist and antagonist to be mediated by beta 2-adrenergic receptors on Kupffer cells. These inhibitory effects of isoproterenol can be mimicked by dibutyryl cAMP but not by dibutyryl cGMP, suggesting that a cAMP-dependent mechanism is likely involved in the regulatory action of isoproterenol. Ligand binding studies indicated that short term (i.e. 30 min) treatment of the cultured Kupffer cells with either isoproterenol or dibutyryl cAMP had no effect on the specific [3H]PAF binding. However, long term incubation (9-24 h) with dibutyryl cAMP caused down-regulation of the PAF receptors in rat Kupffer cells. Forskolin (0.1 mM), an adenylyl cyclase activator, down-regulated the surface expression of the AGEPC receptors more rapidly, decreasing the specific [3H]AGEPC binding by approximately 40% within 2 h. The receptor regulatory effect of dibutyryl cAMP and forskolin was time- and concentration-dependent. These observations suggest that a cAMP-dependent mechanism coupled with beta 2-adrenergic receptors may have important regulatory effects on the PAF receptor and post-receptor signal transducing mechanisms for PAF in hepatic Kupffer cells.     

小剂量多虑平对大鼠应激性胃黏膜损伤的治疗作用

目的:探讨小剂量多虑平(Doxepin)对大鼠应激性胃黏膜损伤(stress gastric mucosal damage,SGMD)的治疗作用,并就其可能机制初步研究.方法:采用浸水加束缚的方法制备大鼠应激性胃黏膜损伤模型.健康雄性SD大鼠50只,随机分为5组:假手术组(Sham组)、应激性胃黏膜损伤组(SGMD组)...     

Disruption of protein kinase A interaction with A-kinase-anchoring proteins in the heart in vivo: effects on cardiac contractility, protein kinase A phosphorylation, and troponin I proteolysis

Protein kinase A (PKA)-dependent phosphorylation is regulated by targeting of PKA to its substrate as a result of binding of regulatory subunit, R, to A-kinase-anchoring proteins (AKAPs). We investigated the effects of disrupting PKA targeting to AKAPs in the heart by expressing the 24-amino acid regulatory subunit RII-binding peptide, Ht31, its inactive analog, Ht31P, or enhanced green fluorescent protein by adenoviral gene transfer into rat hearts in vivo. Ht31 expression resulted in loss of the striated staining pattern of type II PKA (RII), indicating loss of PKA from binding sites on endogenous AKAPs. In the absence of isoproterenol stimulation, Ht31-expressing hearts had decreased +dP/dtmax and -dP/dtmin but no change in left ventricular ejection fraction or stroke volume and decreased end diastolic pressure versus controls. This suggests that cardiac output is unchanged despite decreased +dP/dt and -dP/dt. There was also no difference in PKA phosphorylation of cardiac troponin I (cTnI), phospholamban, or ryanodine receptor (RyR2). Upon isoproterenol infusion, +dP/dtmax and -dP/dtmin did not differ between Ht31 hearts and controls. At higher doses of isoproterenol, left ventricular ejection fraction and stroke volume increased versus isoproterenol-stimulated controls. This occurred in the context of decreased PKA phosphorylation of cTnI, RyR2, and phospholamban versus controls. We previously showed that expression of N-terminal-cleaved cTnI (cTnI-ND) in transgenic mice improves cardiac function. Increased cTnI N-terminal truncation was also observed in Ht31-expressing hearts versus controls. Increased cTnI-ND may help compensate for reduced PKA phosphorylation as occurs in heart failure.     

Chymotrypsin selectively decreases forskolin stimulation of adenylate cyclase

We studied the effects of chymotrypsin on turkey erythrocyte membrane adenylate cyclase activity. Proteolysis with chymotrypsin led to a concentration- and time-dependent increase in activation of adenylate cyclase by isoproterenol + guanine nucleotides, and fluoride, and to a decrease in activation by forskolin. Maximal effects (up to 10-fold increases in fluoride- and isoproterenol + guanine nucleotide-stimulated activity, and up to 100% inhibition of forskolin-stimulated activity) occurred under similar conditions (10-20 micrograms/ml chymotrypsin for 10-15 min at 30 degrees C). Augmentation of isoproterenol + guanosine-3'-O-thiotriphosphate (GTP-gamma-S)-stimulated activity by chymotrypsin occurred only if proteolysis preceded stimulation with isoproterenol + GTP-gamma-S. Addition of isoproterenol + GTP-gamma-S to membranes before proteolysis, however, did not prevent chymotrypsin from augmenting subsequent stimulation by these agents. In contrast, addition of forskolin during proteolysis with chymotrypsin prevented the time- and concentration-dependent decline in forskolin stimulation observed with chymotrypsin. Proteolysis decreased the magnitude of stimulation at any concentration of forskolin, but did not alter the concentration dependence of forskolin stimulation (apparent half-maximum = 3 microM). The data are consistent with the existence of a chymotrypsin-sensitive site essential for forskolin stimulation of adenylate cyclase. In view of the simultaneous effect of chymotrypsin to augment fluoride- and isoproterenol + guanine nucleotide-stimulated activities, it is highly unlikely that the site is on the stimulatory guanine nucleotide binding protein. Since forskolin is thought to act directly on the catalytic unit of adenylate cyclase, and since forskolin can protect against the effect of proteolysis with chymotrypsin, the site involved may be on the catalytic unit itself.     

Effects of nonspecific beta-adrenergic stimulation and blockade on blood coagulation in hypertension.

A hypercoagulable state might contribute to increased atherothrombotic risk in hypertension. The sympathetic nervous system is hyperactive in hypertension, and it regulates hemostatic function. We investigated the effect of nonspecific beta-adrenergic stimulation (isoproterenol) and blockade (propranolol) on clotting diathesis in hypertension. Fifteen hypertensive and 21 normotensive subjects underwent isoproterenol infusion in two sequential, fixed-order doses of 20 and then 40 ng. kg(-1). min(-1) for 15 min/dose. Thirteen subjects were double-blind studied after receiving placebo or propranolol (100 mg/day) for 5 days each. In hypertensive subjects, isoproterenol elicited a dose-dependent increase in plasma von Willebrand factor (vWF) antigen [F(2,34) = 5.02; P = 0.032] and a decrease in D-dimer [F(2,34) = 4.57; P = 0.040], whereas soluble tissue factor remained unchanged. Propranolol completely abolished the increase in vWF elicited by isoproterenol [F(1,12) = 10.25; P = 0.008] but had no significant effect on tissue factor and D-dimer. In hypertension, vWF is readily released from endothelial cells by beta-adrenergic stimulation, which might contribute to increased cardiovascular risk. However, beta-adrenergic stimulation alone may not be sufficient to trigger fibrin formation in vivo.     

Somatostatin alters beta-adrenergic receptor-effector coupling in cultured rat astrocytes.

The neuropeptide somatostatin potentiates beta-adrenergic receptor-mediated cAMP formation in astrocytes derived from neonatal rat cortex but does not affect cAMP levels by itself. beta-Adrenergic receptors in these cells can be specifically labeled with the high affinity antagonist [125I] cyanopindolol ([125I]CYP). In addition, astrocytes display both high and low affinity binding sites for the agonist isoproterenol, which are thought to represent receptors which are coupled or uncoupled, respectively, to the guanine nucleotide regulatory protein. We find that somatostatin does not modify beta-receptor density, nor receptor affinity for either the antagonist ([125I]CYP) or for the agonist isoproterenol. In the presence of the guanine nucleotide analogue, Gpp(NH)p, only low affinity (uncoupled) displacement of [125I]CYP binding by isoproterenol is observed. However, somatostatin (1 microM), when added to the cells together with Gpp(NH)p, prevents the nucleotide-induced loss of the high affinity (coupled) component of agonist displacement. This result suggests that somatostatin increases noradrenaline-induced cAMP production by enhancing coupling between the beta-receptor and the stimulatory guanine nucleotide regulatory protein.     

Characterization of myometrial desensitization to beta-adrenergic agonists

Continuous exposure of ovine myometrial strips exposed to isoproterenol (10 microM) resulted in only transient inhibition with contractions returning within 60 min. Rechallenging these strips with isoproterenol failed to induce inhibition, confirming the occurrence of desensitization. In contrast, exposure of myometrial tissue to isoproterenol for only 5 min did not result in desensitization. Myometrial strips exposed to isoproterenol demonstrated a significant increase in cAMP content associated with inhibition of contractile activity and a subsequent fall in cAMP content upon desensitization. Elevation of endogenous cAMP levels by either inhibition of cAMP-dependent phosphodiesterase activity (0.5 mM isobutylmethylxanthine, in ovine strips) or direct activation of adenylyl cyclase (10 microM forskolin, in rat strips) induced a rapid and significant inhibition of myometrial contractile activity in desensitized tissue. Scatchard analysis of the binding of the beta-adrenoceptor antagonist, [125I]iodocyanopindolol, revealed a significant reduction in the concentration of beta-adrenergic receptors (but no change in binding affinity) in desensitized myometrial tissue. Incubation of desensitized tissue with fresh buffer for 3 h induced only a partial recovery in responsiveness to isoproterenol. These data suggest that prolonged, but not acute, exposure of the myometrium to beta-adrenergic agonists induces a state of desensitization that is associated with a down-regulation of beta-adrenoceptors but maintenance of postreceptor function.     

Differences in the accessibility of the beta-adrenergic receptor in isolated hepatocytes from foetal and adult rats.

Beta-receptor number (measured by [3H]-CGP 12 177 binding) and beta-adrenergic response (measured by isoproterenol stimulated glucose liberation and isoproterenol stimulated adenylate cyclase activity) were compared in hepatocytes isolated from foetal (on day 22 of gestation), adult female and adult male rats. Beta-receptor numbers in crude membrane preparations of hepatocytes from adult female and adult male rats were found to be nearly equal (15.5 and 15.1 fmol/mg), but in crude membrane preparations of foetal rats beta-adrenergic receptor number was significantly higher (34.3 fmol/mg). Determination of number of beta-adrenergic surface receptors of intact hepatocytes showed relative high values in foetal rats (about 22,000/cell) and adult female rats (about 20,000/cell), but in male rats the number was less (about 6500/cell). Glucose liberation was stimulated by isoproterenol to the same extent in hepatocytes isolated from adult female and foetal rats (about 150% over basal), whereas no effect was found in hepatocytes isolated from adult male rats. Dose-response curves showed that in foetal rat hepatocytes glucose release was already increased by 10(-8) M isoproterenol, whereas in female rat hepatocytes at least 10(-6) M isoproterenol was required. Adenylate cyclase was stimulated by isoproterenol in lysates of hepatocytes from adult female rats by about 180% and from foetal rats by about 250%. No effects were observed using lysates of hepatocytes from adult male rats. We interpret the observed differences of beta-adrenergic responses between adult female and male rats as being primarily caused by different accessibility of the beta-receptor to the beta-agonist isoproterenol in intact hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Adenylate cyclase uncoupled beta-adrenergic receptors in salamander proximal tubules

The isolated perfused proximal tubule of the neotenic salamander Ambystoma tigrinum responds with either a hyperpolarization or depolarization of both the basolateral cell membrane and transepithelial potentials following the addition of 10(-5) M isoproterenol to the bath superfusate. Both responses were blocked by 10(-6) M propranolol but neither response was mimicked by 10(-4) M cAMP. beta-Adrenergic binding studies of individual microdissected proximal tubules using (-)-[3H]CGP-12177 as a hydrophyllic radioligand and (+/-)-timolol (0.1 mM) as the displacer drug revealed two distinct populations of proximal tubules possessing either low (KD = 153.8 nM; Bmax = 110.2 fM/mm) or high affinity (KD = 12.0 nM: Bmax = 3.9 fM/mm) binding characteristics. Competition studies indicated that the bound (-)-[3H]CGP-12177 behaved as a typical beta-adrenergic ligand, being displaced by (-)-isoproterenol but not by (+)-isoproterenol or (-)-phenylephrine. However, neither appeared to be coupled to the adenylate cyclase system. These data suggest the presence of functional beta-adrenergic receptors that do not appear to be coupled to the adenylate cyclase system.     

Hormone action at the membrane level. V. Binding of (+/-)-[3H]isoproterenol to intact chicken erythrocytes and erythrocyte ghosts.

The binding of (+/-)-[7-3H]isoproterenol to intact chicken erythrocytes has been investigated by a rapid centrifugation technique. The binding is displaceable by a one thousand-fold excess of cold isoproterenol and consists of two fractions, only one of which is inhibitable by the beta antagonist (--)-propranolol. The total displaceable binding to intact cells amounts to 80 or 127 molecules per cell at a (+/-)-isoproterenol concentration of 0.4 muM depending on the method employed to analyze the binding. Under similar conditions, the total displaceable binding to isolated membrane ghosts is 12600 molecules per cell. The propranolol-inhibitable binding to intact cell reaches saturation within 5 min at 4 degrees C and gives by scatchard analysis a maximum binding of 108 molecules per cell and with a KD of 0.4 muM. 50% inhibition of binding is obtained with 0.3 muM unlabeled (--)-isoproterenol as compared to 20 muM unlabeled (+)-isoproterenol. The binding of isoproterenol thus shows a marked stereospecific preference for the (--)-isomer.     

Beta-adrenergic receptors and stimulatory effects of (-) isoproterenol on testosterone production in fetal mouse Leydig cells

Beta-adrenergic receptors were characterized in freshly excised fetal mouse testis using the radioiodinated antagonist iodocyanopindolol (ICYP). [125I]-CYP bound to a single class of high affinity sites with a KD value of 42.2 +/- 7.0 pM. Adrenergic agonists competed for ICYP binding sites with the following order of potency: (-)isoproterenol greater than (-)epinephrine much greater than (-)norepinephrine which is typical for a beta 2-adrenergic receptor. A selective beta 2-receptor antagonist ICI 118-551 showed an approximately 200 fold higher affinity than the beta 1-selective compound, betaxolol. The beta-adrenergic agonist (-)isoproterenol did not or slightly affect testosterone production by freshly isolated fetal Leydig cells. The ability of fetal Leydig cells to respond to (-)isoproterenol increased during culture. This change in responsiveness was not accompanied either by modification of the number of binding sites or by change in the binding affinity. Taken together these data suggest that i) the stimulatory effect of (-)isoproterenol on testosterone production by cultured fetal Leydig cells is mediated through beta 2-adrenergic receptors ii), the inability of freshly Leydig cells to respond to catecholamines is probably due to post receptor events.     

Hormone action at the membrane level VI. Binding of (—)-[3H]dihydroalprenolol and (±)-[3H]isoproterenol to turkey erythrocytes and correlation with adenylate cyclase activity

The binding of (±)-[³H]isoproterenol and (—)-[³H]dihydroalprenolol to intact turkey erythrocytes was studied using a rapid centrifugation technique. The binding of both ligands is rapid, dissociable, stereospecific and inhibited by (—)-propranolol. The total number of isoproterenol binding sites is 2800 sites/ cell. This consists of a low and high affinity site both of which show stereospecific binding. The high affinity isoproterenol site has a K_d of 15.5—19.5 nM and has 600 sites/cell. The low affinity isoproterenol site has a K_d of 195 nM and has 2200 sites/cell. The binding of (—)-[³H]dihydroalprenolol shows one type of site with a K_d of 7.8 nM and has 2500 sites/cell. The agonists epinephrine, norepinephrine, soterenol and p-hydroxyphenylisoproterenol which were tested by competition for binding showed a 6—25-fold greater affinity for the high affinity site determined by (±)-[³H]isoproterenol as compared to the (—)-[³H]dihydroalprenolol binding site. However, the antagonists propranolol, practolol and metrapolol showed similar affinities for the binding sites as determined by competition of binding of either labeled isoproterenol or dihydroalprenolol. These studies indicate that isoproterenol binding can recognize two independent stereospecific β-adrenergic receptors or can recognize two different conformational states of a single receptor. Provisional calculations are made on the turnover number of adenylate cyclase under physiological conditions using intact erythrocytes. The turnover number is 4000 molecules of cyclic AMP/10 min per high affinity receptor.     

Temperature-dependent binding of hydrophilic beta-adrenergic receptor ligands to intact human lymphocytes

Important differences in binding characteristics between agonists and antagonists of the beta-adrenergic receptor have been described. However, these observations have been complicated since most available antagonists are much more lipophilic than agonists. In order to separate out those binding characteristics of agonist vs. antagonist from those characteristics of lipophilic vs. hydrophilic ligands, we have studied competition of the hydrophilic ligands isoproterenol (agonist) and CGP-12177 (antagonist) with [125I]iodopindolol binding in intact human lymphocytes. Analyzing competition curves from assays performed at 13 degrees C, 25 degrees C and 37 degrees C we demonstrated that at lower temperatures there was a decrease in IC50 for isoproterenol but not for CGP-12177. Using cells preincubated with isoproterenol then extensively washed, competition curves with both isoproterenol and CGP-12177 were biphasic, and characterized by the appearance of a population of receptors with a low affinity for both hydrophilic ligands. Furthermore, at lower temperatures the biphasic nature of these curves was accentuated and was characterized by a 6-fold and 40-fold increase in the apparent KD of a population of low affinity sites for isoproterenol and CGP-12177, respectively.     

Effect of monoamine receptor agonists and antagonists on cyclic AMP accumulation in human cerebral cortex slices.

In human cerebral cortex slices noradrenaline, isoproterenol (a beta-adrenergic agonist), dopamine, apomorphine (a dopaminergic agonist), and serotonin stimulated cyclic AMP formation: noradrenaline greater than or equal to isoproterenol greater than dopamine = apomorphine = serotonin. Clonidine (and alpha-adrenergic agonist) was ineffective in stimulating cyclic AMP formation in temporal cortex slices. The stimulatory effect of noradrenaline and isoproterenol was blocked by propranolol (a beta-adrenergic blocker) but not by phentolamine (an alpha-adrenergic blocker). Pimozide (a selective dopaminergic antagonist) inhibited the increase of cyclic AMP formation induced by dopamine or apomorphine but not that induced by noradrenaline, isoproterenol, or serotonin. Neither propranolol or phentolamine had any effect on dopamine- or serotonin-stimulated cyclic AMP formation. Chlorpromazine blocked the increase of cyclic AMP formation induced by noradrenaline, dopamine or serotonin, while cyproheptadine, a putative central serotonergic antagonist, was ineffective. These observations suggest that there may be at least two monoamine-sensitive adenylate cyclases in human cerebral cortex which have the characteristics of a beta-adrenergic and a dopaminergic receptor, respectively, and also possibly a serotonergic receptor.     

Muscarinic M2 receptors in acetylcholine-isoproterenol functional antagonism in human isolated bronchus

The muscarinic functional antagonism of isoproterenol relaxation and the contribution of muscarinic M2 receptors were examined in human isolated bronchus. In intact tissues, acetylcholine (ACh) precontraction decreased isoproterenol potency and maximal relaxation (-log EC50 shift = -1.49 +/- 0.16 and E(max) inhibition for 100 microM ACh = 30%) more than the same levels of histamine contraction. The M2 receptor-selective antagonist methoctramine (1 microM) reduced this antagonism in ACh- but not histamine-contracted tissues. Similar results were obtained for forskolin-induced relaxation. After selective inactivation of M3 receptors with 4-diphenylacetoxy-N-(2-chloroethyl)piperadine hydrochloric acid (30 nM), demonstrated by abolition of contractile and inositol phosphate responses to ACh, muscarinic recontractile responses were obtained in U-46619-precontracted tissues fully relaxed with isoproterenol. Methoctramine antagonized recontraction, with pK(B) (6.9) higher than in intact tissues (5.4), suggesting participation of M2 receptors. In M3-inactivated tissues, methoctramine augmented the isoproterenol relaxant potency in U-46619-contracted bronchus and reversed the ACh-induced inhibition of isoproterenol cAMP accumulation. These results indicate that M2 receptors cause indirect contraction of human bronchus by reversing sympathetically mediated relaxation and contribute to cholinergic functional antagonism.     

Measurement of Ca channel activity of isolated adult rat heart cells using 54Mn

Isolated adult rat heart cells incubated with 5 microM Mn in a medium with 1 mM Ca showed a rapid phase of Mn binding plus a slow phase of Mn uptake. The rapid phase was extracellular binding, as judged by its temperature-insensitive removal by ethylene glycol bis(beta-aminoethyl ether) N, N'-tetraacetic acid. The slow linear phase represented cellular uptake, as judged by its release with digitonin plus the ionophore A23187. Isoproterenol increased the linear rate of Mn uptake and induced spontaneous beating activity in some cells. Both effects were inhibited by nitrendipine. Electrical stimulation of the cells in suspension increased the linear rate of cellular Mn uptake. The increase was potentiated by isoproterenol, and inhibited by nitrendipine or verapamil. Stimulation-dependent Mn uptake (per milligram protein) was greater for cells from 5- to 6-week-old rats than for 8- to 9-month-old female retired breeder rats, in the presence of isoproterenol. Ryanodine increased the stimulation-dependent Mn uptake in the presence of isoproterenol, but not in its absence. We conclude: (i) that cellular uptake of 54 Mn is a good probe of Ca channel function; (ii) that isoproterenol promotes Mn influx by the channel in isolated heart cells; (iii) that cells from young rats (5-6 weeks) have a higher beta-adrenergically induced Ca channel activity than cells from mature rats (8-9 months); and (iv) that ryanodine promotes Ca channel activity (perhaps indirectly) in the presence of isoproterenol.