Alpha- and beta-adrenoceptors in the female dog urethra

The existence and subtypes of alpha- and beta-adrenoceptors in the female dog urethra were studied in vivo and in vitro by means of agonist and antagonist drugs. Noradrenaline, phenylephrine and B-HT 920, stimulants of alpha, alpha-1 and alpha-2 receptors respectively, caused an increase in the urethra tonicity. Thus indicating that the contractile activity is mediated by alpha-1 and alpha-2 adrenoceptors subtypes. On the other hand, the inhibitory urethral activity is under control of beta-adrenoceptors of beta-2 subtype, since the isoprenaline relaxing action is inhibited when beta-2 receptors are blocked, whilst this effect was not observed when beta-1 receptors were blocked. This fact was proved when beta-2 receptors were stimulated with salbutamol.     

Alpha adrenergic stimulation reduces cyclic adenosine 3',5'-monophosphate generation in rabbit myometrium by two mechanisms

Rabbit myometrium contains postsynaptic alpha-1, alpha-2, and beta-2 adrenoreceptors. The response to endogenous catecholamines depends on the summation of interactions at these receptors and is influenced by the hormonal environment. Estrogen treatment of ovariectomized rabbits increases the alpha adrenergic contractile response whereas progesterone treatment of estrogen primed animals results in a predominance of the beta adrenergic response, which is inhibition of contractions. Of the receptor subtypes, only the alpha-2 receptor concentration is increased at physiological estrogen concentrations. However, alpha-2 receptors have not been shown to be directly involved in myometrial contraction, which appears to be mediated solely by alpha-1 adrenergic interactions. To test whether alpha-2 receptors might indirectly affect contraction by opposing interactions at the beta receptor, we examined the ability of alpha adrenergic stimulation to reduce myometrial cyclic adenosine 3',5'-monophosphate (cAMP) generation. We find that alpha-2 receptors inhibit myometrial ade adenylate cyclase through the guanine nucleotide regulatory protein, Gi. In addition, we find that activation of alpha-1 receptors also reduces cAMP generation. This interaction, which can be demonstrated in the absence but not the presence of the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, does not appear to be mediated through Gi. These findings illustrate the complexity of adrenergic interactions in tissues containing several adrenergic subtypes.     

Differentiation of Alpha-Adrenergic Receptors Using Pharmacological Evaluation and Molecular Modeling of Selective Adrenergic Agents

Abstract

Subtypes of alpha adrenergic receptors were studied using selective adrenergic agonists. A-53693, A-54741, and related compounds were evaluated for their affinity for alpha receptor subtypes using radioligand binding techniques. Efficacy and potency were also evaluated using in vitro bioassays of alpha-1 receptors in rabbit aorta smooth muscle and alpha-2 receptors in the phenoxybenzamine-pretreated canine saphenous vein. Active and inactive compounds were then submitted for computer-assisted molecular modeling evaluation to ascertain the structural requirements for optimal potency and selectivity. Rigid catecholamines such as A-53693 display a high degree of selectivity for alpha-2 compared to alpha-1 receptors, probably because of the unique regions of space at the ligand binding site occupied by active compounds. Imidazolines such as A-54741 also interact with extremely high affinity and potency for alpha-2 receptors, and to a lesser extent at alpha-1 receptors. The spatial domains occupied by phenethylamines and imidazolines differ, each having unique regions of permissable space at alpha receptors. Compounds such as A-53693 and A-54741 are extremely useful probes of the molecular interactions of alpha agonistic compounds which will help in the design of even more selective drugs for alpha adrenergic receptors.     

Properties of interleukin-1 and interferon-gamma receptors in B lymphoid cell line

We have previously shown that interleukin-1 alpha (IL-1 alpha) and interferon-gamma (IFN-gamma) induce surface IgM expression, stimulate Na+/H+ exchange, and activate protein kinase C in the murine pre-B lymphocyte cell line, 70Z/3. Because the two structurally different lymphokines induce similar effects, in this study we set out to compare the properties of the IL-1 and IFN-gamma surface receptors. In contrast to their similar cellular effects, we found that IL-1 alpha and IFN-gamma receptors have different properties. 70Z/3 have high (100 sites/cell) and low (900 sites/cell) affinity IL-1 receptors with dissociation constants (KD) 6 x 10(-11) and 10(-9) M, respectively. In contrast, IFN-gamma receptors are of one class with a KD of 3 x 10(-10) M and are at a higher number, 8000 sites/cell. After binding to their receptors both IL-1 alpha and IFN-gamma are internalized and intracellularly degraded, but the rate of internalization of IFN-gamma is greater than IL-1 alpha. The effective median concentrations (EC50) of IL-1 alpha- or IFN-gamma-induced surface IgM expression are similar (4-5 x 10(-12) M). However, at this concentration 10-fold more of IFN-gamma than IL-1 alpha molecules are bound per cell. Our studies indicate that structurally different lymphokines can induce similar biological events even though their signaling is mediated by surface receptors whose properties are different.     

Activation of alpha-1 adrenergic receptors modulates the control of left/right sidedness in rat embryos.

Presomite stage rat embryos were cultured for 45-49 hr with medium containing various adrenergic agonists and antagonists. L-Norepinephrine but not D-norepinephrine (several orders of magnitude less potent than the L-isomer at alpha-1 adrenergic receptors) resulted in a dose-dependent increase of situs inversus similar to that found for phenylephrine, an alpha-1 adrenergic agonist. Prazosin, an alpha-1 adrenergic antagonist, inhibited phenylephrine-induced situs inversus in a dose-dependent manner. Neither dexmedetomidine, an alpha-2 adrenergic agonist, nor isoproterenol, a beta adrenergic agonist, caused situs inversus. These results provide pharmacological evidence that stimulation of alpha-1 but not of alpha-2 and beta adrenergic receptors modulates the control of left/right sidedness in rat embryos.     

Differential interaction of CrkII adaptor protein with platelet-derived growth factor alpha- and beta-receptors is determined by its internal tyrosine phosphorylation

CrkII is an intracellular adaptor protein involved in signal transduction by various growth factors. Activation of PDGF alpha-receptor resulted in its association with CrkII in vivo. In contrast, binding of CrkII to the PDGF beta-receptor was negligible, despite its becoming prominently phosphorylated. Bacterially expressed GST-CrkII SH2 domain specifically bound to Tyr-762 and Tyr-771 in the activated PDGF alpha- and beta- receptors, respectively. GST fusion protein of full-length CrkII also bound to the activated PDGF beta-receptor. However, tyrosine phosphorylation of GST-CrkII diminished its binding to the beta-receptor. CrkI, a truncated version of CrkII lacking the phosphorylatable tyrosine residue, could bind to both PDGF alpha- and beta-receptors in vivo. In conclusion, tyrosine phosphorylation of CrkII negatively affects its binding to the PDGF receptors. The differential binding of CrkII to the PDGF alpha- and beta- receptors may be a rationale for functional diversity between the two receptors.     

alpha 1- and beta 2-adrenergic receptor expression in the Madin-Darby canine kidney epithelial cell line

The Madin-Darby canine kidney (MDCK) cell line, derived from distal tubule/collecting duct, expresses differentiated properties of renal tubule epithelium in culture. We studied the expression of adrenergic receptors in MDCK to examine the role of catecholamines in the regulation of renal function. Radioligand-binding studies demonstrated, on the basis of receptor affinities of subtype-selective adrenergic agonists and antagonists, that MDCK cells have both alpha 1- and beta 2- adrenergic receptors. To determine whether these receptor types were expressed by the same cell, we developed a number of clonal MDCK cell lines. The clonal lines had stable but unique morphologies reflecting heterogeneity in the parent cell line. Some clones expressed only beta 2-adrenergic receptors and were nonmotile, whereas others expressed both alpha 1- and beta 2-receptors and demonstrated motility on the culture substrate at low cell densities. In one clone, alpha- and beta- receptor expression was stable for more than 50 passages. Catecholamine agonists increased phosphatidylinositol turnover by activating alpha- adrenergic receptors and cellular cyclic adenosine monophosphate accumulation by activating beta-adrenergic receptors. Guanine nucleotide decreased the affinity of isoproterenol for the beta 2- receptor but did not alter the affinity of epinephrine for the alpha 1- receptor. These results show that alpha 1- and beta 2-receptors can be expressed by a single renal tubular cell and that the two receptors behave as distinct entities in terms of cellular response and receptor regulation. Heterogeneity of adrenergic receptor expression in MDCK clones may reflect properties of different types of renal tubule cells.     

Central adrenoceptors and basal prolactin release in the rat

The influence of the central adrenergic system on basal prolactin secretion was investigated in the rat. Several selective adrenoceptor blockers were centrally administered and their effects on prolactin secretion were observed. Blockade of beta-1 receptors by practolol, beta-2 receptors by IPS 339 and alpha-2 receptors by DG-5128 did not modify basal prolactin secretion, but alpha-1 adrenoceptor blockade by prazosin strongly enhanced prolactin plasma levels. These findings suggest that noradrenergic pathways in the central nervous system exert inhibitory tone on basal prolactin secretion, and that this effect seems to be mediated by alpha-1 adrenoceptors.     

Immunohistochemical research on the insulin-sensitive elements of the hypothalamic median eminence

The indirect peroxidase-labeled antibody method was used to localize insulin receptors in the median eminence of rat hypothalamus. For experiments the rabbit antisera against synthetic peptides correspond to the deduced amino acid sequences of alpha- and beta-subunits of human placenta insulin receptor used as the first sera. The antisera were produced by prof. N. Yanaihara. Results have shown that after intraventricular injection of 1 U insulin the electron dense particles of DAB reaction were distributed on the surface membrane of tanycytes and axon terminals in the median eminence of hypothalamus. The functional properties of revealed receptors corresponded to IGF-1 receptors. Results support the hypothesis of central regulatory action of insulin in brain by its interaction with central IGF-1 receptors on the membrane of neuroependymal elements in the median eminence of hypothalamus.     

Functional expression of the human serotonin 5-HT1A receptor in Escherichia coli. Ligand binding properties and interaction with recombinant G protein alpha-subunits.

Signaling through serotonin 5-HT1A receptors involves multiple pathways. We have investigated the functional coupling of the human 5-HT1A receptor to different G proteins using an in vitro reconstitution system based on the expression of recombinant receptor (r5-HT1A) and G alpha-subunits (rG alpha) in Escherichia coli. The r5-HT1A receptor was expressed by insertion in a vector allowing its active expression in E. coli inner membranes. Binding of the selective agonist [3H] +/- 8-hydroxy-(2-N-dipropylamine)tetralin ([3H]8-OH-DPAT) to intact bacteria or E. coli membranes was saturable with a KD of approximately 8 nM and an average of 120 sites/bacterium. Binding properties of several serotoninergic ligands to r5-HT1A receptors were comparable with those measured in mammalian cells. Incubation of rG alpha.beta gamma with E. coli membranes resulted in high affinity agonist [3H]8-OH-DPAT binding (KD = 0.7 nM) and titration with a panel of rG alpha subtypes showed the order of potency: rGi alpha-3 greater than rGi alpha-2 greater than rGi alpha-1 much greater than rGo alpha, while rGs alpha appeared incapable of interacting with 5-HT1A receptors. Moreover, agonist-mediated enhancement of [35S]guanosine 5'-O-(3-thiotriphosphate) binding to rGi alpha confirmed the achievement of the functional interaction between receptor and G proteins. Our findings are in agreement with the in vivo ability of 5-HT1A receptors to activate Gi alpha related to adenylyl cyclase inhibition or K+ channel activation, but do not support previously reported adenylyl cyclase stimulation through interaction with Gs alpha.     

Human alpha-1-microglobulin is covalently bound to kynurenine-derived chromophores

Alpha-1-microglobulin carries a set of covalently linked chromophores that give it a peculiar yellow-brown color, fluorescence properties, and both charge and size heterogeneity. In this report it is shown that these features are due to the adducts with the tryptophan metabolite, 3-hydroxykynurenine, and its autoxidation products and that the modification is more pronounced in the protein isolated from urine of hemodialyzed patients. The light yellow amniotic fluid alpha-1-microglobulin acquires the optical properties and charge heterogeneity of the urinary counterpart following incubation with kynurenines. The colored amino acid adducts of urinary and amniotic fluid alpha-1-microglobulins were separated by chromatography after acid hydrolysis and analyzed by mass spectrometry. Human serum albumin samples, native and treated with 3-hydroxykynurenine in the presence of oxygen, were used as a control. The retention times and mass fragmentation products were compared, and a lysyl adduct with hydroxantommathin was identified in the urinary alpha-1-microglobulin and in the modified albumin samples. The more extensive modification of the urinary protein appears to be correlated with uremia, a condition in which the catabolism of tryptophan via the kynurenine pathway is increased, and the consequent rise in the concentration of its derivatives is accompanied by the oxidative processes due to the hemodialysis treatment. The oxidative derivatives of 3-hydroxykynurenine, which are known to act as protein cross-linking agents, are the likely cause of the propensity of urinary alpha-1-microglobulin to form dimers and oligomers. This process, as well as the redox properties of these metabolites, may contribute to the toxic effects of the kynurenine species.     

Cloning and expression of gamma-adaptin, a component of clathrin-coated vesicles associated with the Golgi apparatus

Adaptins are the major components of adaptors, the protein complexes that link clathrin to transmembrane proteins (e.g., receptors) in coated pits and vesicles. The plasma membrane adaptor contains an alpha- adaptin subunit and a beta-adaptin subunit, while the Golgi adaptor contains a gamma-adaptin subunit and a beta'-adaptin subunit. A partial cDNA clone encoding gamma-adaptin was isolated from a bovine brain expression library by screening with antibodies, and was used to obtain a cDNA clone from a mouse brain library containing the full coding sequence. The identity of the clones was confirmed by protein sequencing. The deduced amino acid sequence of gamma-adaptin was found to be homologous to that of alpha-adaptin, with several stretches of identical amino acids or conservative substitutions in the first approximately 70 kD, and 25% identity overall. Weaker homology was seen between gamma- and beta-adaptins. Like both alpha- and beta-adaptins, gamma-adaptin has a proline and glycine-rich hinge region, dividing it into NH2- and COOH-terminal domains. A chimeric gamma-adaptin was constructed from the mouse and bovine cDNAs and transfected into Rat 1 fibroblasts. Immunofluorescence microscopy was carried out using an mAb which recognizes an epitope present on the chimera but not found on the rodent protein. The construct was found to have a distribution typical of endogenous gamma-adaptin. Using this transfection system, it should now be possible to exchange domains between alpha- and gamma-adaptins, to try to find out how adaptors are targeted to the appropriate membrane compartment of the cell, and how they recruit the appropriate receptors into the coated vesicle.     

Additive competitive interaction of verapamil and quinidine at alpha-adrenergic receptors of isolated cardiac guinea pig myocytes and human platelets

Recent clinical work has questioned the safety of a combined therapy of oral quinidine and intravenous verapamil, because some patients were reported to react with severe hypotension probably due to drug interactions with vascular alpha-adrenergic receptors. In order to obtain further quantitative information on the underlying mechanism, we used the radioligands (3H)-prazosin and (3H)-yohimbine to perform binding studies on intact cells, with predominantly alpha-1 (isolated myocytes) or alpha-2 subtypes (human platelets) of adrenergic receptors. Our studies confirm that both verapamil and quinidine possess a distinct alpha-adrenergic receptor blocking activity and do not discriminate between the alpha-1 and alpha-2 subtype (Ki-values were between 0.24-0.28 mumol/l for alpha-1 receptors and 0.49-0.50 mumol/l for alpha-2 receptors). Their interaction was competitive and in the presence of both drugs inhibition of radioligand binding was additive. The alpha-adrenergic blockade by verapamil was stereospecific as D-verapamil increased the dissociation constant of the radioligand to a much lesser degree than L-verapamil (Ki = 1.67 +/- 0.29 mumol/l for D-verapamil). The calcium channel blocker nitrendipine, a 1,4-dihydropyridine derivative, did not show any competition up to concentrations of 10 mumol/l. Our results thus give evidence that verapamil and quinidine have already at therapeutic blood levels significant alpha-adrenergic blocking activities which may be of clinical interest. In addition our results show that adult cardiac myocytes are very well suited for pharmacological adrenergic interaction studies.     

Interaction of acetylene and cyanide with the resting state of nitrogenase alpha-96-substituted MoFe proteins.

The nitrogenase MoFe protein contains the active site metallocluster called FeMo-cofactor [7Fe-9S-Mo-homocitrate] that exhibits an S = 3/2 EPR signal in the resting state. No interaction with FeMo-cofactor is detected when either substrates or inhibitors are incubated with MoFe protein in the resting state. Rather, the detection of such interactions requires the incubation of the MoFe protein together with its obligate electron donor, called the Fe protein, and MgATP under turnover conditions. This indicates that a more reduced state of the MoFe protein is required to accommodate substrate or inhibitor interaction. In the present work, substitution of an arginine residue (alpha-96(Arg)) located next to the active site FeMo-cofactor in the MoFe protein by leucine, glutamine, alanine, or histidine is found to result in MoFe proteins that can interact with acetylene or cyanide in the as-isolated, resting state without the need for the Fe protein, or MgATP. The dithionite-reduced, resting states of the alpha-96(Leu)-, alpha-96(Gln)-, alpha-96(Ala)-, or alpha-96(His)-substituted MoFe proteins show an S = 3/2 EPR signal (g = 4.26, 3.67, 2.00) similar to that assigned to FeMo-cofactor in the wild-type MoFe protein. However, in contrast to the wild-type MoFe protein, the alpha-96-substituted MoFe proteins all exhibit changes in their EPR spectra upon incubation with acetylene or cyanide. The alpha-96(Leu)-substituted MoFe protein was representative of the other alpha-96-substituted MoFe proteins examined. The incubation of acetylene with the alpha-96(Leu) MoFe protein decreased the intensity of the normal FeMo-cofactor signal with the appearance of a new EPR signal having inflections at g = 4.50 and 3.50. Incubation of cyanide with the alpha-96(Leu) MoFe protein also decreased the FeMo-cofactor EPR signal with concomitant appearance of a new EPR signal having an inflection at g = 4.06. The acetylene- and cyanide-dependent EPR signals observed for the alpha-96(Leu)-substituted MoFe protein were found to follow Curie law 1/T dependence, consistent with a ground-state transition as observed for FeMo-cofactor. The microwave power dependence of the EPR signal intensity is shifted to higher power for the acetylene- and cyanide-dependent signals, consistent with a change in the relaxation properties of the spin system of FeMo-cofactor. Finally, the alpha-96(Leu)-substituted MoFe protein incubated with (13)C-labeled cyanide displays a (13)C ENDOR signal with an isotropic hyperfine coupling of 0.42 MHz in Q-band Mims pulsed ENDOR spectra. This indicates the existence of some spin density on the cyanide, and thus suggests that the new component of the cyanide-dependent EPR signals arise from the direct bonding of cyanide to the FeMo-cofactor. These data indicate that both acetylene and cyanide are able to interact with FeMo-cofactor contained within the alpha-96-substituted MoFe proteins in the resting state. These results support a model where effective interaction of substrates or inhibitors with FeMo-cofactor occurs as a consequence of both increased reactivity and accessibility of FeMo-cofactor under turnover conditions. We suggest that, for the wild-type MoFe protein, the alpha-96(Arg) side chain acts as a gatekeeper, moving during turnover in order to permit accessibility of acetylene or cyanide to a specific [4Fe-4S] face of FeMo-cofactor.     

Dissociation of the contractile and hypertrophic effects of vasoconstrictor prostanoids in vascular smooth muscle.

To more clearly define the physiologic roles of thromboxane (TX)A2 and primary prostaglandins (PG) in vascular tissue we examined vascular contractility, cell signaling, and growth responses. The growth-promoting effects of (15S)-hydroxy-11 alpha,9 alpha-(epoxymethano)prosta-5Z,13E-dienoic acid (U46619; TXA2 agonist), PGF2 alpha, and PGE2 consisted of protein synthesis and proto-oncogene expression, but not DNA synthesis or cell proliferation. U46619 contracted rat aortas and increased cultured rat aortic vascular smooth muscle cell intracellular free calcium concentration [Ca2+]i, [3H]inositol monophosphate (IP) accumulation, myosin light chain phosphorylation, and protein synthesis ([3H]leucine incorporation) with EC50 values ranging from 10 to 50 nM. Each of these responses was inhibitable with the TXA2 receptor antagonist [1S]1 alpha,2 beta(5Z),3 beta,4 alpha-7-(3-[2- [(phenylamino)carbonyl]hydrazino]methyl)-7-oxabicyclo[2.2.1]hept-2- yl-5-heptenoic acid (SQ29548). In contrast, PGF2 alpha increased [Ca2+]i, [3H]IP, and protein synthesis with EC50 values of 30-230 nM but contracted rat aortas with an EC50 of 4800 nM. PGE2 increased [Ca2+]i, [3H]IP accumulation, protein synthesis, and contracted rat aortas with EC50 values of 2.5-3.5 microM. TXA2 receptor blockade prevented PGF2 alpha- and PGE2-induced aortic contraction and cell myosin light chain phosphorylation, but not cell signaling or protein synthesis. Binding studies to vascular smooth muscle TXA2 receptors using 1S-[1 alpha,2 beta(5Z),3 alpha(1E,3S),4 alpha]-7-(3-[3-hydroxy-4-(p- [125I]iodophenoxy)-1-butenyl]7-oxabicyclo[2.2.1]hept-2-yl)-5-hepte noic acid ([125I]BOP) showed U46619, SQ29548, PGF2 alpha, and PGE2 competition for TXA2 receptor binding at concentrations similar to their EC50 values for aortic contraction, while binding competition with [3H]PGF2 alpha and [3H]PGE2 demonstrated the specificity of [125I]BOP and SQ29548 for TXA2 receptors. The results suggest that 1) PGF2 alpha- and E2-stimulated vessel contraction is due to cross-agonism at vascular TXA2 receptors; 2) PGF2 alpha stimulates TXA2 receptor-independent vascular smooth muscle protein synthesis at nanomolar concentrations, consistent with an interaction at its primary receptor; and 3) TXA2 is a potent stimulus for vascular smooth muscle contraction and protein synthesis. We suggest that the main physiologic effect of PGF2 alpha may be as a stimulus for vascular smooth muscle cell hypertrophy, not as a contractile agonist.     

Identification and regulation of alpha- and beta-adrenergic receptors.

Direct radioligand binding methods for studying the alpha- and beta-adrenergic receptors have been developed over the past several years. These techniques use radioactively labeled adrenergic antagonists and agonists to identify the receptors in appropriate membrane fractions from catecholamine-sensitive tissues. In the case of the beta-adrenergic receptors, confident receptor identification has been aided by the close correlation of binding data with data on adenylate cyclase activation. Such direct binding studies are providing new insights about the molecular characteristics and regulatory properties of the receptors.