Effects of drugs on pigeon erythrocyte membrane and asymmetric control of adenylate cyclase by the lipid bilayer

In pigeon erythrocyte membrane, the β-adrenergic receptor and the enzyme adenylate cyclase can be uncoupled in two different ways depending on the type of drug used.Cationic drugs: chlorpromazine, methochlorpromazine, tetracaine, $\text{n-}\text{octylamine}$ and a neutral alcohol, octanol, abolished alprenolol receptor binding ability and in the same range of concentration of the drug, sensitized adenylate cyclase to fluoride or Gpp(NH)p stimulation. Anionic drugs: di- and trinitrophenols, indomethacin and octanoic acid did not affect the total number of β-adrenergic receptor sites and, with the exception of trinitrophenol, did not change the association constant for alprenolol but they abolished the stimulation of adenylate cyclase by isoproterenol, fluoride or Gpp(NH)p. These modifications of the adenylate cyclase system occurred in a range of drug concentration where cell shape and protection against hemolysis were also affected.As chemical composition varies widely from one drug to another, it is suggested that these effects are largely nonspecific and mediated by the lipid bilayer. They are probably related to a preferential sidedness of action of the drugs in the lipid bilayer, displaying the role of an asymmetric control of the adenylate cyclase system in the membrane by the two halves of this bilayer.     

Effects of local anesthetics of guanyl nucleotide modulation of the catecholamine-sensitive adenylate cyclase system and on β-adrenergic receptors

Tetracaine and other local anesthetics exert multiple actions on the catecholamine-sensitive adenylate cyclase system of frog erythrocyte membranes. Tetracaine (0.2–2.0 mM) reduces the responsiveness of adenylate cyclose to (a) guanyl-5′-yl-imidodiphosphate and (b) isoproterenol in the presence of GTP or guanyl-5′-yl-imidodiphosphate. Local anesthetics did not affect (a) basal enzyme activity, and (b) enzyme responsiveness to NaF. Tetracaine inhibited stimulation of adenylate cyclase by guanyl-5′-yl-imidodiphosphate over the whole range of nucleotide concentrations. By contrast, inhibition by tetracaine of isoproterenol activity in the presence of GTP was significant only if GTP concentrations exceeded 10^?7 M.Tetracaine also competitively inhibited binding of both the antagonist [³H]-dihydroalprenolol and the agonist [³H]hydroxybenzylisoproterenol to β-adrenergic receptors. However, it was twice as potent in inhibiting [³H]-hydroxybenzylisoproterenol as [³H]dihydroalprenolol binding. The greater potency for inhibition of agonist binding was due to the ability of the anesthetics to promote dissociation of the high-affinity nucleotide sensitive state of the β-adrenergic receptor induced by agonists.Other local anesthetics mimicked the effects of tetracaine on adenylate     

Regulation of catecholamine-responsive adenylate cyclase activity in rat reticulocyte membranes by endogenous factors General characteristics and resolution into protein and nucleotide components

A 100 000 × g soluble, supernatant fraction obtained from the hemolysate of rat reticulocytes was studied for its effect upon catecholamine-sensitive adenylate cyclase activity in reticulocyte membranes. The supernatant material, devoid of adenylate cyclase activity itself, amplified isoproterenol-dependent activity in responsive membranes and was an essential requirement for the expression of hormone sensitivity in membranes rendered unresponsive to isoproterenol alone. The increment in catecholamine-associated activity conferred upon reticulocyte membranes by the supernatant material was β-adrenergic because it did not affect basal or fluoride-related activity and was completely inhibited by propranolol. Guanine nucleotides were present in the supernatant but could account for only a fraction of the total activity because the supernatant was able to cause greater stimulation than maximal concentrations of GTP and when specified concentrations of exogenous GTP were compared with equivalent nucleotide concentrations in the supernatant, the supernatant always led to greater activity. The supernatant was resolved into protein- and nucleotide-containing components by ion-exchange chromatography. Each component was approximately one-half as active in amplifying catecholamine-dependent adenylate cyclase as the unresolved, crude supernatant material. The activity eluted in the first peak of the DEAE chromatogram was resistant to alkaline phosphatase, sensitive to trypsin, not dialyzable and contained no detectable concentrations of GTP or GDP. In contrast, the activity eluted in the second peak of the DEAE chromatogram was sensitive to alkaline phosphatase, resistant to trypsin, completely dialyzable and contained both GTP (30 μM) and GDP (10 μM) in significant concentrations. Neither the crude supernatant not its two active components affected the binding of [¹²⁵I]-iodohydroxybenzylpindolol to reticulocyte membranes. These observations establish in rat reticulocytes the presence of protein and guanine nucleotide constituents which have independent influences upon the catecholamine-responsive adenylate cyclase of reticulocyte membranes.     

Evidence for a defect in the number of β-adrenergic receptors and in the adenylate cyclase responsiveness to guanine nucleotides in fat cells after adrenalectomy

Receptor binding studies (?)-[³H]dihydroalprenolol as the ligand revealed, in adrenalectomized rat fat cells, a 50% decrease in the number of β-adrenergic receptors. er cell with no change in the receptor affinity for this ligand. Adrenalectomy caused no change in the binding affinity for isoproterenol of both high affinity and low affinity populations of the β-adrenergic receptors. Guanine nucleotide sensitivity of the agonist binding to β-receptors was also unaltered by adrenalectomy. Adrenalectomy caused a 30–40% decrease in the maximal response of adenylate cyclase to (?)-isoproterenol only when guanine nucleotides were present in the assay, without altering the (?)-isoproterenol concentration giving half-maximal adenylate cyclase stimulation (K_act values). The maximal response of adenylate cyclase to Gpp(NH)p also was lower in adrenalectomized membranes, indicating a defect at the guanine nucleotide regulatory site. Removal of adenosine by addition of adenosine deaminase failed to reverse the decreased adenylate cyclase response to isoproterenol in adrenalectomized rats. However, in intact fat cells, in which cyclic AMP accumulation in response to isoproterenol was decreased by adrenalectomy, removal of adenosine almost completely corrected this defect. These results indicate that the observed changes in the number of β-adrenergic receptors and in the ability of guanine nucleotides to stimulate adenylate cyclase, though explaining the decreased adenylate cyclase responsiveness to catecholamines, do probably not contribute significantly to the mechanism by which adrenalectomy decreases the lipolytic responsiveness of adipocyte to catecholamines. In addition, this study also suggests that the increased sensitivity to adenosine of lipolysis reported in adipocytes from adrenalectomized rats may result from an action of adenosine at a post-adenylate cyclase step, possibly on the cyclic AMP phosphodiesterase.     

Differential effects of GTP on the coupling of β-adrenergic receptors to adenylate cyclase from frog and turkey erythrocytes application of new methods for the analysis of receptor-effector coupling

A detailed comparison of the interaction of β-adrenergic receptors with adenylate cyclase stimulation and modification of this interaction by guanine nucleotides has been made in two model systems, the frog and turkey erythrocyte. Objective analysis of the data was facilitated by the development of new graphical methods which involve the use of logit-logit transformations of percent receptor occupancy versus percent enzyme stimulation plots (coupling curves). Receptor-cyclase coupling in turkey erythrocyte membranes demonstrates a proportional relationship between receptor occupancy and adenylate cyclase activation and is unaffected by exogenous guanine nucleotides. By comparison, the proportional relationship of receptor occupancy and adenylate cyclase activation observed in frog erythrocyte membranes in the absence of guanine nucleotides is modified by the addition of exogenous guanine nucleotides such that a greater fractional enzyme stimulation is elicited by low receptor occupancy. Methodological criteria crucial for valid comparison of receptor occupancy and adenylate cyclase activity are delineated. In addition, the possible molecular mechanisms of receptor-cyclase coupling which might give rise to the coupling curves observed are discussed.     

Effect of adenosine 3',5'-cyclic monophosphate on the RNA and DNA synthesis and cell proliferation of rat hepatocytes in primary culture: a radioautographic study.

The effect of a 24-h treatment with various doses (from 1.5-10-minus 8 to 3.0-10-minus 3 M) of adenosine 3',5'-cyclic monophospahte (cAMP) on morphometric parameters, [5--3H]uridine radioactivity concentration (URC), [methyl--3H]thymidine [Me--3H]-Tr) labelling index per hour (L.I./h) and per cent mitotic index (M.I.%) of young rat differentiated hepatocytes in primary tissue culture were investigated by morphometric and radioautographic methods. In such cells cAMP was found to induce: (1) a reduction of the apparent surface area (ASA) of total nucleoli, karyoplasm and cytoplasm; (2) significant increases in URC of all the subcellular compartments at all the dosages employed (only cAMP at 1.5-10-minus 8 M did not change karyoplasmic and cytoplasmic URC values); (3) marked increments in [Me--3H]Tdr L.I./h and M.I.% from the lowest dose up to 1.5-10-minus 4 M; at higher doses the L.I./h and M.I.% were less stimulated or approached control values. In cultured rat hepatocytes, adenosine-5'-phosphate (5'-AMP) (1.5-10-minus 4 M per 24 h) increased the karyoplasmic and total cell ASA, the lone total nucleolar URC and both the L.I./h and M.I.%. However, these metabolic effects were significantly less intense than those elicited by isomolar cAMP. Theophylline (Theo) (5.5-10-minus 5 M per 24 h) reduced the in vitro rat hepatocyte total nucleolar ASA but affected neither other morphometric nor any of the URC values. The same dose of Theo plus cAMP (1.5-10-minus M) had no morphometric effect but significantly increased the URC values of all primary rat hepatocyte compartments. Actinomycin D (DAct) (0.1 mug/ml per 24 h) plus cAMP (1.5-10-minus 4 M) decreased the cultured rat hepatocyte total nucleolar ASA but enlarged that of karyoplasm and cytoplasm and, further, markedly curtailed all the compartmental URC values. These data support the hypothesis that cAMP amplified the template activity of the liver chromatin and accelerates the flow of differentiated primary young rat hepatocytes into the various stages of the mitotic cell cycle.