Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to study interrelationships between the components of the interferon enzyme system and the cyclic AMP system, NIH 3T3 cells were incubated in the presence of theophylline or adrenaline that cause a rise of intracellular cAMP, respectively, through inhibition of phosphodiesterase of cAMP and activation of adenylate cyclase. In doses that caused a transient, 2-to 3-fold elevation of the cAMP level, theophylline and adrenaline elicited about 2.5-fold elevation of 2',5'-oligoadenylate synthetase (2-5A synthetase) activity. This increase could be prevented by actinomycin D. This suggests that the elevation of the enzyme activity in the cells was due to a transcription-dependent induction process. Theophylline and adrenaline treatment of the cell cultures also led to a 2-to 3-fold fall of the activity of the phosphodiesterase of 2',5'-oligoadenylate (2'-phosphodiesterase). This effect of adrenaline was prevented by propanolol but not by actinomycin D. In the case of adrenaline, the fall of 2'-phosphodiesterase activity was accompanied by at least 5-fold increase in the enzyme activity which did not occur if actinomycin D was present in the culture. Similarities and differences between these effects and those induced by interferon are discussed. It is concluded that cAMP is an important regulator of the enzyme system of the 2',5'-oligoadenylate metabolism. 2',5'-Oligoadenylate, in turn, was found to act on the activity of phosphodiesterase of cyclic AMP. The cAMP phosphodiesterase activity in the NIH 3T3 cell lysates was activated 2- to 2.5-fold at physiological concentrations (10(-9) to 10(-7) M) of both the phosphorylated form of oligoisoadenylate, ppp(5'A2'p)n5'A2'OH, and the dephosphorylated form, HO(5'A2'p)25'A2'OH. The phosphorylated form of oligoisoadenylate also activated partially purified preparations of cAMP phosphodiesterase. The data obtained in this study allow us to consider cAMP and 2',5'-oligoadenylate as the key metabolites that may be used in the cells to form a complex, interconnected, multifunctional circuit that involves the interferon enzyme system and the system of cyclic AMP metabolism and governs essential cell functions, as regulation of RNA metabolism and protein synthesis, cell growth and differentiation.
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PMID:A study on the relationship between the interferon enzyme system and the system of cyclic nucleotide metabolism. 608 24

This report studied the action of interferon on the thyroidal adenylate cyclase-cAMP system. It was found that human interferon did not increase cAMP levels in human or bovine thyroid slices during a 60-min incubation. Mouse interferon also had no effect on cAMP levels in mouse thyroidal lobes over the 60-min incubation, nor did it increase adenylate cyclase activity in mouse homogenates.
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PMID:Effects of interferon on the cAMP-adenylate cyclase system of human, mouse, and bovine thyroid tissue. 616 73

Cholera toxin inhibits human natural cell-mediated cytotoxicity in a dose- and time-dependent manner. Pretreatment of lymphocytes with 10 ng/ml of cholera toxin for 2 h almost completely inhibited cytolysis. Interferon augmented human natural cell-mediated cytolysis, but when lymphocytes were pretreated with cholera toxin before interferon treatment, no enhancement of cytolysis occurred. Cholera toxin could inhibit the enhancement of cytolysis by interferon even when lymphocytes were treated with cholera toxin after 2 h interferon treatment. Cholera toxin subunit B which binds cell surface ganglioside galactosyl-N-acetylgalactosaminyl - [N-acetylneuraminyl] - galactosylglucosylceramide (GM1) without activating adenyl cyclase had no effect either on natural cytolysis or on the enhancement of natural cytolysis by interferon, suggesting that mere binding of cholera toxin to the cellular receptor was not enough to inhibit natural cell-mediated cytolysis. Cyclic adenosine 3',5'-monophosphate (cAMP) levels increased in cholera toxin-treated lymphocytes and the time course of cAMP accumulation was similar to that of cytotoxicity inhibition. Exogenous dibutyryl-cAMP (db-cAMP) and theophylline inhibited cytolysis, while exogenous dibutyryl cyclic guanosine 3',5'-phosphate (db-cGMP) enhanced cytolysis slightly, suggesting that the process of inhibition of human natural cell-mediated cytolysis was at least partly modulated by intracellular cyclic nucleotides.
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PMID:Inhibitory effect of cholera toxin on human natural cell-mediated cytotoxicity and its augmentation by interferon. 616 78

Treatment of murine and human cells with homologous interferon (IFN) resulted in an elevation of the cellular cyclic adenosine monophosphate (cAMP) levels in a time- and dose-dependent manner. A similar elevation of cAMP levels could be produced by treatment of cells with isoproterenol, prostaglandin or methylxanthine. However, these agents did not produce an antiviral state. Pretreatment with an inhibitor of adenyl cyclase, N-ethylmaleimide, prevented the effect of IFN on cAMP levels, but did not influence tis antiviral activity.
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PMID:Effect of interferon on cyclic adenosine monophosphate levels in cells. 617 78

The effects of interferon (IFN) on Fc receptor-mediated phagocytosis, intracellular cAMP levels, antiviral activity, and growth inhibition were analyzed in a cloned macrophage-like cell line, J774.2, and variants derived from it. Purified IFN increased Fc receptor-mediated phagocytosis in J774.2 cells, and in cAMP-responsive nonphagocytic variants but was without effect in cAMP-unresponsive nonphagocytic variants, in adenylate cyclase-deficient variants, and in cAMP-dependent protein kinase-deficient variants. Under conditions in which IFN augmented phagocytosis, it increased intracellular levels of cAMP. Parental cells were highly sensitive to IFN-mediated growth inhibition. In contrast, cAMP-dependent protein kinase-deficient variants were only 1/100th as sensitive to growth inhibition by IFN. All cell lines tested, both responsive and unresponsive to cAMP, were equally protected by IFN against infection with vesicular stomatitis virus, demonstrating that the antiviral state was independent of cAMP. These results indicate that, in transformed macrophages, stimulation of phagocytosis and inhibition of growth by IFN are mediated through intracellular cAMP, whereas the antiviral state induced by IFN is independent of cAMP.
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PMID:Genetic analysis of the role of cAMP in mediating effects of interferon. 617 3

Adenylate cyclase activity was measured in mouse cell plasma membrane after 30 units/ml of interferon (IFN) treatment. The basal and Gpp(NH)p stimulated enzyme activity in LB cell was inhibited by 20%-40% throughout the time course of treatment (30 min to 18 h). The reduced enzyme activity was not associated with enhanced breakdown of cAMP, but was related to alteration in the catalytic component of the enzyme. Moreover, there was no change in the affinity for guanine-nucleotide regulatory unit and 1 X 10(-7) M Gpp(NH)p was required to obtain half-maximal activation with either type of membrane. Interferon action on adenylate cyclase was biphasic, at 10 u/ml it was stimulatory and between 30 and 1000 u/ml it inhibited the enzyme activity to a great extent; but IFN did not exert its effect directly on the enzyme. The reduction in enzyme activity was comparable to a reduction in the intracellular level of cAMP in most of the interferon-sensitive cell lines studied. We propose, therefore, that the inhibitory effect on adenylate cyclase is related to a step in the development of antiviral activity.
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PMID:Interferon-mediated inhibition of adenylate cyclase in mouse cells. 618 75

Induction of cyclic AMP (cAMP) depresses natural killer (NK) cell activity. The present results demonstrate that this is dependent on a decreased capacity of the effector cells to conjugate to target cells. This was found either if dibutyryl-cAMP was used or if cAMP was induced by adenylate cyclase stimulation with prostaglandin E1 (PGE1) or by inhibition of phosphodiesterase activity with the inhibitor ZK 62711. The sites of action for cAMP-induced NK suppression and interferon (IFN)-induced NK enhancement are demonstrated to be distinct, since IFN acts by increasing the lytic efficiency and the recycling capacity without influencing target binding. Sequential treatment with cAMP/IFN and IFN/cAMP shows that IFN can neither restore target binding when added after cAMP nor protect against the cAMP-induced target binding inhibition when added before cAMP. The results are discussed in view of earlier data on cAMP in relation to cell membrane functions and cellular recognition, the mechanism underlying the cAMP-induced target binding inhibition, and the potential of the NK system as an indicator for immunosuppression. The present work also demonstrates the particular subpopulation in peripheral blood which mediates most NK activity, to respond strongly to PGE1 stimulation with regard to cAMP induction.
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PMID:Inhibition of human NK cell cytotoxicity by induction of cyclic AMP depends on impaired target cell recognition. 618 4

Cyclic GMP and activators (acetylcholine, E. coli heat-stable toxin) of guanylate cyclase were capable of completely replacing the helper cell or interleukin 2 requirement for gamma-interferon (IFN gamma) production by Lyt-1-,2+ cells from C57BL/6 mouse spleen cells. The cyclic GMP help was independent of DNA synthesis or proliferation in the IFN gamma-producing cells, because cyclic GMP reversed mitomycin C blockage of IFN gamma production but did not reverse the inhibition of DNA synthesis. Thus, the findings presented here are unrelated to the question of the second messenger role of cyclic GMP in the activation of lymphocytes for DNA synthesis and cellular proliferation. The cyclic GMP help for IFN gamma production was antagonized by cyclic AMP and inducers (isoproterenol) of adenylate cyclase.
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PMID:Cyclic GMP as the second messenger in helper cell requirement for gamma-interferon production. 629 93

While a multiplicity of cellular and biochemical effects are mediated by interferons on cultured cells, the mechanisms involved in the direct growth-inhibitory activity of interferons remain problematic. We have previously found that variants in cAMP metabolism in a macrophage cell line, J774.2, were at least 50-fold less sensitive to the growth inhibitory activity of interferons (IFN) than the parental clone. To test the hypothesis that cAMP mediates the growth inhibition produced by IFN in these cells, interferon-resistant variants were selected and characterized with respect to cAMP synthesis and function. Approximately one-third of the IFN-resistant clones were found to be resistant to growth inhibition produced by cholera toxin, but not 8Br-cAMP. IFN was fully able to protect all of the interferon-resistant/choleratoxin-resistant (IFNr/CTr) clones against infection by vesicular stomatitis virus and markedly stimulated 2', 5'-oligodenylate synthetase activity. These IFNr/CTr variants were shown to have a defect in adenylate cyclase. The remaining IFN-resistant clones were fully susceptible to the growth-inhibitory effects of cholera toxin because their basal and stimulated adenylate cyclase activity is similar to that of the parental clone. IFN failed to protect these IFNr/choleratoxin sensitive clones against infection by vesicular stomatitis virus and failed to stimulate 2', 5-oligodenylate synthetase, suggesting that they have defective or deficient IFN receptors. In addition, IFN failed to increase intracellular cAMP levels in both IFNr/CTr and IFNr/choleratoxin sensitive clones. These results provide firm genetic and biochemical evidence that the growth inhibitory effects of IFN on this cell line are mediated by cAMP.
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PMID:Biochemical analysis of mutants of a macrophage cell line resistant to the growth-inhibitory activity of interferon. 632 69

The thyrotropin (TSH) receptor has been proposed to be composed of a membrane glycoprotein and a membrane ganglioside, the former important in high affinity recognition, the latter vital for message coupling to the adenylate cyclase system. The present study used two approaches, formation of antireceptor monoclonal antibodies and reconstitution, to validate the model and further examine the role of the ganglioside. Three kinds of monoclonal antireceptor antibodies are defined. One group which inhibits TSH binding and TSH functions, i.e., TSH-stimulated adenylate cyclase activity, iodide uptake, and thyroid hormone release, is shown to be directed against the glycoprotein component of the receptor. The second group includes antibodies which mimic TSH in all stimulatory actions, are competitive agonists of TSH, are equivalent to thyroid stimulating antibodies in the sera of patients with Graves' disease, and are directed against the ganglioside component of the receptor. These stimulating monoclonal antibodies are directed against a minor ganglioside membrane component which fractionates as a disialoganglioside. When this ganglioside is incorporated into 1-8 thyroid cells which have a correlated ganglioside deficiency and TSH receptor defect, reconstitution of TSH stimulated adenylate cyclase activity occurs. Whereas the first group of antibodies inhibits TSH-stimulated function, they do not inhibit the stimulatory antibodies which mimic TSH, an observation consistent with the 2 component hypothesis of the receptor model. The third group of antibodies have a mix of properties from the first two groups and suggests that the TSH receptor in situ is an actual complex of the two components or that there are common carbohydrate determinants in the functional sites of each receptor component. Implications of a TSH receptor structure in which its ganglioside and glycoprotein components are in equilibrium with pools of free components and, in turn, components important for cholera toxin, tetanus toxin and interferon receptors are discussed. In regard to the pathogenesis of Graves' disease, the data indicate that thyroid stimulating autoantibodies are autoimmune equivalents of cholera toxin with respect to the importance of ganglioside function. Since antiidiotype studies of antibodies against TSH confirm a structural relationship between receptors for thyrotropin, cholera toxin, and thyroid stimulating autoantibodies, the data establish an unequivocal role for the ganglioside in TSH receptor structure which facilitates interpretation of in vitro experiments aimed at understanding the mechanism of ganglioside-ligand interactions.
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PMID:Gangliosides, the thyrotropin receptor, and autoimmune thyroid disease. 633 Nov 33


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