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1.
In mouse parotid membranes forskolin activated adenylate cyclase four-fold; maximal activation of the enzyme occurred with 10 microM forskolin. Activation was not dependent on the guanyl nucleotide GTP nor on the inhibitory guanine nucleotide 5'-0-(2-Thiodiphosphate), GDP beta S. In contrast, stimulation of adenylate cyclase by isoproterenol required GTP and was antagonized by GDP beta S in a dose-dependent manner. These results indicate that the guanyl-binding protein of mouse parotid adenylate cyclase is not a requisite for forskolin activation and lends support for direct interaction of forskolin at the catalytic subunit.  相似文献   

2.
Spontaneous transformation of RL-PR-C hepatocytes leads to alterations in the adenylate cyclase complex which include a lower than normal basal level of activity, a loss of sensitivity to exogenous GTP, and a decreased sensitivity to isoproterenol. Both normal and transformed membranes possess substantial GTPase activity. Treatment of transformed hepatocyte membranes with either isoproterenol plus GMP or with cholera toxin, under conditions that displace tightly bound GDP, restored the GTP effect on adenylate cyclase, and eliminated the lag in the activation by guanyl-5'-yl-imidodiphosphate. Such pretreatment also enhanced guanine nucleotide effects on the adenylate cyclase of normal hepatocytes. These results are explainable on the basis that transformation increases adenylate cyclase-associated GTPase activity, and increases occupancy of nucleotide regulatory sites by inactive or inhibitory guanine nucleotides, e.g., GDP. Seemingly, both catecholamines and cholera toxin promote an exchange reaction at the regulatory sites, resulting in clearance of these sites of inhibitory nucleotides.  相似文献   

3.
Forskolin activated adenylate cyclase of purified rat adipocyte membranes in the absence of exogenous guanine nucleotides. Guanyl-5'-yl imidodiphosphate (Gpp(NH)p) inhibited the forskolin-activated cyclase immediately upon addition of the nucleotide at concentrations too low to activate adenylate cyclase (10(-9) to 10(-7) M). Inhibition seen with a very high concentration of Gpp(NH)p (10(-4) M) lasted for 3-4 min and was followed by an increase in the synthetic rate which remained constant for at least 15 min. The length of the transient inhibition did not vary with forskolin concentrations above 0.05 microM but low Gpp(NH)p (10(-8) M) exhibited a lengthened (6-7 min) inhibitory phase. The transient inhibitory effects of Gpp(NH)p were eliminated by 10(-7) M isoproterenol, high (40 mM) Mg2+, or preincubation with Gpp(NH)p in the absence of forskolin. While forskolin stimulated fat cell cyclase in the presence of Mn2+, this ion blocked the inhibitory effects of Gpp(NH)p. The well documented inhibitory effects of GTP on the fat cell adenylate cyclase system were also observed in the presence of forskolin. However, the inhibition by GTP is not transitory. These findings indicate that Gpp(NH)p regulation of forskolin-stimulated cyclase has at least two components: 1) an inhibitory component which acts through an undetermined mechanism and which acts immediately to decrease cyclase activity; and 2) an activating component which modulates the inhibited cyclase activity through the guanine nucleotide regulatory protein.  相似文献   

4.
In an attempt to study the mechanisms of action of membrane-bound adenylate cyclase, we have applied to rat brain synaptosomal membranes antibodies raised against purified bovine transducin (T) beta gamma subunits. The antibodies recognized one 36-kDa protein in Western blots of the membranes. Adenylate cyclase activation by GTP non-hydrolyzable analogues was greatly decreased in immune, as compared to preimmune, antibody-treated membranes, whereas the enzyme basal activity was unaffected by both types of antibodies. The inhibition of forskolin-stimulated adenylate cyclase by guanine 5'-(beta, gamma-imino)triphosphate (Gpp-(NH)p) was decreased in membranes preincubated with immune, but not preimmune, antibodies. Anti-T beta antibodies moderately decreased the extent of subsequent adenylate cyclase activation by forskolin, while not affecting activation by Al3+/F-. The enzyme activation by Gpp(NH)p in untreated membranes remained the same upon further incubation in the presence of either type of antibodies. Such results were consistent with the decreased exchange of guanine nucleotides which occurred in membrane treated with immune, but not preimmune antibodies, upon addition of GTP. The blockade of the regulation of adenylate cyclase by Gpp(NH)p observed in membranes pretreated by anti-T beta antibodies thus appears to be caused by the impairment of the guanine nucleotide exchange occurring on Gs alpha subunits. The G beta subunits in the adenylate cyclase complex seem to be instrumental in the guanine nucleotide exchange on G alpha subunits, just as T beta subunits are in the transducin complex.  相似文献   

5.
Influences of alpha 2-adrenoceptor stimulation on adenylate cyclase activity were investigated in cerebral cortical membranes of rats. Pretreatment of the membranes with islet-activating protein and NAD resulted in a significant increase in basal activity as well as in GTP- or forskolin/GTP-induced elevation of adenylate cyclase activity. Strong activation of adenylate cyclase was also caused in membranes pretreated with cholera toxin together with NAD in comparison to that in control membranes, suggesting that adenylate cyclase activity is perhaps regulated by stimulatory and inhibitory GTP binding regulatory protein existing in synaptic membranes. In addition, adrenaline (with propranolol) or clonidine significantly reduced adenylate cyclase activity stimulated by pretreatment with forskolin and GTP. The inhibitory effects of adrenaline were also observed in membranes pretreated with cholera toxin and NAD. Moreover, the inhibition by adrenaline or clonidine was completely abolished by treatment with (a) yohimbine or (b) islet-activating protein and NAD. It is suggested that alpha 2-receptor stimulation causes inhibitory influences on adenylate cyclase activity mediated by the inhibitory GTP binding regulatory protein in synaptic membranes of rat cerebral cortex.  相似文献   

6.
Spontaneous transformation of RL-PR-C hepatocytes leads to alterations in the adenylate cyclase complex which include a lower than normal basal level of activity, a loss of sensitivity to exogenous GTP, and a decreased sensitivity to isoproterenol. Both normal and transformed membranes posses substantial TGPase activity. Treatment of transformed hepatocyte membranes with either isoproterenol plus GMP or with cholera toxin, under conditions that displace tightly bound GDP, restored the GTP effect on adenylate cyclase, and eliminated the lag in the activation by guanyl-5′-yl-imidodiphosphate. Such pretreatment also enhanced guanine nucleotide effects on the adenylate cyclase of normal hepatocytes. These results are explainable on the basis that transformation increases adenylate cyclase-associated GTPase activity, and increase occupancy of nuceotide regulatory sites by inactive or inhibitory guanine nucleotides, e.g., GDP. Seemingly, both catecholamines and cholera toxin promote an exchange reaction at the regulatory sites, resulting in clearance of these sites of inhibitory nucleotides.  相似文献   

7.
Inhibition of basal adenylate cyclase by GTP or guanyl-5'-yl imidodiphosphate was abolished in membranes isolated from rat adipocytes previously incubated with pertussis toxin. Forskolin (0.1 microM) stimulated adenylate cyclase about 4-fold and inhibition of cyclase by GTP or guanyl-5'-yl imidodiphosphate was also abolished by pertussis toxin treatment of rat adipocytes. Forskolin (1 microM) increased adenylate cyclase activity at least ten-fold and the inhibitory effect of GppNHp was reduced but not abolished by pertussis toxin. In rabbit adipocytes, pertussis toxin reversed the inhibition of adenylate cyclase activity by GppNHp to the same extent as that by GTP in the presence of 1 microM forskolin. The present results indicate that pertussis toxin can reverse the inhibition of adipocyte adenylate cyclase by nonhydrolyzable GTP analogs as well as that by GTP.  相似文献   

8.
Activation of adenylate cyclase by guanine nucleotide and catecholamines was examined in plasma membranes prepared from rabbit skeletal muscle. The GTP analog, 5'-guanylyl imidodiphosphate caused a time and temperature-dependent activation of the enzyme which was persistent, the Ka was 0.05 microM. 5'-Guanylyl imidodiphosphate binding to the membranes was time and temperature dependent, KD 0.07 microM. Beta adrenergic amines accelerated the rate of 5'-guanylyl imidodiphosphate activation of the enzyme with an order of potency isoproterenol approximately soterenol approximately salbutamol greater than epinephrine greater than norephrine. Catecholamine activation was antagonized by propranolol and the beta2 antagonist butoxamine; the beta1 antagonist practolol was inactive. [3H]Dihydroalprenolol bound to the membranes and binding was antagonized by beta adrenergic agonists with an order of potency similar to the activation of adenylate cyclase and was antagonized by butoxamine but not by practolol. The data are consistent with the idea that adenylate cyclase in skeletal muscle plasma membranes is coupled to adrenergic receptors of the beta2 type.  相似文献   

9.
C A Nelson  K B Seamon 《FEBS letters》1985,183(2):349-352
Displaceable binding of [3H]forskolin to human platelet membranes can be detected in the presence of magnesium. There is an increase in the number of [3H]forskolin binding sites when membranes are incubated with GppNHp or NaF in the presence of magnesium. Prostaglandin E1, which stimulates human platelet adenylate cyclase, does not affect the binding of [3H]forskolin in the absence of GppNHp. However, the dose-response curve for the GppNHp-dependent increase in [3H]forskolin binding sites is shifted to lower concentrations in the presence of prostaglandin E1. Prostaglandin E1 potentiates the effect of GppNHp on [3H]forskolin binding most likely by facilitating the binding of the guanine nucleotide at the stimulatory quanine nucleotide regulatory protein of adenylate cyclase.  相似文献   

10.
1. Preincubation of luteal membranes with human choriogonadotropin results in the formation of an activated state of adenylate cyclase which is not reversed by washing and which is limited only by the absence of guanine nucleotides, whereas preincubation with GTP yields only a partially activated adenylate cyclase which requires the presence of both GTP and human choriogonadotropin during assay to demonstrate maximal activity. 2. Preincubation of luteal membranes with GTP and human choriogonadotropin does not lead to a synergistic increase in wash-resistant activity. 3. Luteal membranes that had been preincubated with GTP and hormone exhibited a decreasing rate of cyclic AMP synthesis during the adenylate cyclase assay incubation; addition of GTP during the assay incubation reversed the decrease. 4. Membranes that had been preincubated in the absence of guanine nucleotide and hormone showed a `burst' phase of cyclic AMP synthesis when GTP was present in the assay incubation and a `lag' phase with p[NH]ppG (guanosine 5′-[β,γ-imido]triphosphate) present in the assay. The presence of human choriogonadotropin with either nucleotide in the assay incubation eliminated the curvatures in plots observed with guanine nucleotides alone. 5. Luteal adenylate cyclase was persistently activated by preincubation with p[NH]ppG alone or in combination with human choriogonadotropin; the activation caused by p[NH]ppG alone was still increasing after 70min of preincubation, whereas that caused by p[NH]ppG in the presence of hormone was essentially complete within 10min of preincubation. 6. Luteal adenylate cyclase that had been partially preactivated by preincubation with p[NH]ppG was slightly increased in activity by the inclusion of further p[NH]ppG in the adenylate cyclase assay incubation, but more so with p[NH]ppG and hormone. Human choriogonadotropin alone caused no further increase in the activity of the partially stimulated preparation unless p[NH]ppG was also added to the assay incubation. 7. GTP decreased the activity of adenylate cyclase in membranes that had been partially preactivated in the presence of p[NH]ppG; the decrease in activity was greater when GTP and hormone were present simultaneously in the assay. 8. The results indicate that stable activation states of adenylate cyclase can be induced by preincubation of luteal membranes in vitro with human choriogonadotropin or p[NH]ppG, and that in the presence of p[NH]ppG the hormone may accelerate events subsequent to guanine nucleotide binding. Stable activation of luteal adenylate cyclase by prior exposure to GTP is not achieved. The involvement of GTPase activity and of hormone-promoted guanine nucleotide exchange in the modulation of luteal adenylate cyclase activity is discussed.  相似文献   

11.
Pertussis toxin selectively modifies the function of Ni, the inhibitory guanine nucleotide binding protein of the adenylate cyclase complex. In chick heart membranes, guanine nucleotide activation of Ni resulted in a decrease in the apparent affinity of the muscarinic receptor for the agonist oxotremorine, inhibition of basal adenylate cyclase activity, and the attenuation of adenylate cyclase by oxotremorine. Treatment of chicks with pertussis toxin caused the covalent modification of 80-85% of cardiac Ni. After this treatment Gpp(NH)p had no effect on muscarinic receptor affinity and GTP stimulated basal adenylate cyclase activity. In contrast, the GTP-dependent attenuation of adenylate cyclase caused by muscarinic receptors was unaffected.  相似文献   

12.
We have compared the effects of Gpp[NH]p on adenylate cyclase activity of platelet membranes in SHR and WKY rats. In the presence of 50 microM forskolin, low concentrations of Gpp[NH]p (0.01 to 0.3 microM) inhibited the enzyme activity in both strains, but the maximal level of inhibition was significantly lower in SHR (- 20%). In the absence of forskolin, 0.1 microM Gpp[NH]p was inhibitory only in WKY and the adenylate cyclase activity was greater in hypertensive rats at this nucleotide concentration. Increasing Gpp[NH]p from 0.1 to 3 microM induced the same increase of enzyme activity in both strains. In SHR, GTP itself induced a lower inhibition of the enzyme stimulated by 50 microM forskolin or 0.1 microM prostaglandin E1. These results suggest that the modulatory effect of the guanine nucleotide inhibitory protein on adenylate cyclase may be reduced in platelets from SHR.  相似文献   

13.
cyc--Variants of S49 lymphoma cells are defective in the stimulatory guanine nucleotide site of the adenylate cyclase but contain an inhibitory site. Treatment of cyc- cells with islet-activating protein (IAP), which causes ADP-ribosylation of an Mr 40 000 polypeptide in cyc- membranes, abolishes adenylate cyclase inhibition by GTP and the peptide hormone, somatostatin, but not that induced by GTP gamma S. Furthermore, somatostatin-induced stimulation of GTP hydrolysis is lost. Thus, the data indicate that IAP interferes with the adenylate cyclase system by an action at the inhibitory guanine nucleotide site.  相似文献   

14.
The diterpene forskolin has been reported to activate adenylate cyclase in a manner consistent with an interaction at the catalytic unit. However, some of its actions are more consistent with an interaction at the coupling unit that links the hormone receptor to the adenylate cyclase activity. This report adds support to the latter possibility. Under conditions that lead to stimulation of adenylate cyclase in turkey erythrocyte membranes by GTP, forskolin also becomes more active. Additional evidence to support an influence of forskolin upon adenylate cyclase via the GTP-coupling protein N includes the following: (i) forskolin, at submaximal concentrations, leads to enhanced sensitivity and responsiveness of isoproterenol-dependent adenylate cyclase activity in turkey erythrocyte membranes; (ii) under specified conditions, the nucleotide GDP, an inhibitor of the stimulating nucleotide GTP and its analog, guanyl imidodiphosphate (Gpp(NH)p), also markedly inhibits the action of forskolin; (iii) both Gpp(NH)p and forskolin are associated with a decrease in agonist affinity for the beta-adrenergic receptor. However, actions of forskolin in the turkey erythrocyte are not identical to those of GTP: (i) forskolin is never as potent as Gpp(NH)p in activating adenylate cyclase; (ii) the magnitude of synergism between isoproterenol and forskolin is not equal to that observed with isoproterenol and Gpp(NH)p; (iii) at high concentrations, forskolin inhibits antagonist binding to the beta-receptor. Forskolin appears to have several sites of action in the turkey erythrocyte membrane, including an influence upon the adenylate cyclase regulatory protein N.  相似文献   

15.
The influence of the diterpene, forskolin, was studied on adenylate cyclase activity in membranes of rat basophilic leukemia cells. Forskolin increased basal adenylate cyclase activity maximally 2-fold at 100 microM. However, adenylate cyclase activity stimulated via the stimulatory guanine nucleotide-binding protein, Ns, by fluoride and the stable GTP analog, guanosine 5'-O-(3-thiotriphosphate), was inhibited by forskolin. Half-maximal and maximal inhibition occurred at about 1 and 10 microM forskolin, respectively. The inhibition occurred without an apparent lag phase, whereas the enzyme stimulation by forskolin was preceded by a considerable lag period. The inhibition was not affected by treating intact cells or membranes with pertussis toxin and proteolytic enzymes, respectively, which have been shown in other cell types to prevent adenylate cyclase inhibition mediated by the guanine nucleotide-binding regulatory component, Ni. The forskolin inhibition of the stable GTP analog-activated adenylate cyclase was impaired by increasing the Mg2+ concentration and was reversed into a stimulation by Mn2+. Under optimal inhibitory conditions, forskolin even decreased basal adenylate cyclase activity. Finally, forskolin largely reduced the apparent affinity of the rat basophilic leukemia cell adenylate cyclase for its substrate, MgATP, which reduction resulted in an apparent inhibition at low MgATP concentrations and a loss of the inhibition at higher MgATP concentrations. The data indicate that forskolin can cause both stimulation and inhibition of adenylate cyclase and, furthermore, they suggest that the inhibition may not be mediated by the Ni protein, but may be caused by a direct action of forskolin at the adenylate cyclase catalytic moiety.  相似文献   

16.
Expression of activation of rat liver adenylate cyclase by the A1 peptide of cholera toxin and NAD is dependent on GTP. The nucleotide is effective either when added to the assay medium or during toxin (and NAD) treatment. Toxin treatment increases the Vmax for activation by GTP and the effect of GTP persists in toxin-treated membranes, a property seen in control membranes only with non-hydrolyzable analogs of GTP such as Gpp(NH)p. These observations could be explained by a recent report that cholera toxin acts to inhibit a GTPase associated with denylate cyclase. However, we have observed that one of the major effects of the toxin is to decrease the affinity of guanine nucleotides for the processes involved in the activation of adenylate cyclase and in the regulation of the binding of glucagon to its receptor. Moreover, the absence of lag time in the activation of adenylate cyclase by GTP, in contrast to by Gpp(NH)p, and the markedly reduced fluoride action after toxin treatment suggest that GTPase inhibition may not be the only action of cholera toxin on the adenylate cyclase system. We believe that the multiple effects of toxin action is a reflection of the recently revealed complexity of the regulation of adenylate cyclase by guanine nucleotides.  相似文献   

17.
A new method was developed to follow the rate of activation of adenylate cyclase in rat brain membranes by rapid freezing and N-ethylmaleimide treatment at 0 degrees C. This method was used to investigate the relationship between the rate of activation of adenylate cyclase by p(NH)ppG and GTP gamma S and their apparent affinities. These studies established the following. 1) The kinetics of activation by p(NH)ppG and GTP gamma S were indistinguishable although the apparent affinity of p(NH)ppG was 20-fold lower than the affinity of GTP gamma S. Activation was first order, kobs varying approximately 1.5-fold (average t 1/2 = 3.5 min, 30 degrees C) between 20-90% occupancy by either guanine nucleotide. 2) Final levels of activity were strictly dependent on the concentration of the nucleotides in a saturable manner. 3) Mg2+ increased the apparent affinity of either guanine nucleotide by 10-20-fold between 0.1 microM and 3 mM free Mg2+ in the presence of 2 mM EDTA but did not enhance the rate or maximal extent of activation. 4) The effects of Mg2+ were expressed through two independent classes of sites with affinities in the nanomolar and micromolar range. 5) A Mg2+ X guanine nucleotide complex was not the substrate for activation. The affinity of Mg2+ for nucleotides was determined as 6.25 mM GTP gamma S, 0.930 mM GTP, 0.156 mM p(NH)ppG. 6) Full activation by p(NH)ppG was completely reversible but activation by GTP gamma S was only partially reversible. These results suggest that: activation of adenylate cyclase in native membranes does not require Mg2+ or irreversible binding of the guanine nucleotide and there are two independent pathways for formation of active adenylate cyclase. A minimal mechanism for activation is discussed in light of current models.  相似文献   

18.
The effects of iron ions (Fe(II)sulfate) on basal, forskolin, and dopamine-stimulated activity of adenylate cyclase in membrane preparations from caudate-putamen of the rat have been studied. Iron dose-dependently inhibited both basal and activated adenylate cyclase activity. In contrast to guanylylimidodiphosphate (Gpp(NH)p), guanosine triphosphate (GTP) was found to enhance this inhibitory effect of iron ions. In addition, cholera toxin was able to antagonize the inhibitory effect of iron on forskolin-activated adenylate cyclase. In our preliminary study we suggest an interaction between iron and the guanine nucleotide regulatory subunit. However, further studies are necessary.  相似文献   

19.
K.B. Seamon  J.W. Daly 《Life sciences》1982,30(17):1457-1464
Calcium stimulates adenylate cyclase activity in rat cerebral cortical membranes with either ATP or AppNHp as substrate. In contrast, isoproterenol stimulates the cerebral cortical enzyme with ATP as substrate but not with AppNHp as substrate unless exogenous GTP is added. In rat striatal membranes, calcium or dopamine stimulate adenylate cyclase activity with ATP as substrate, but not with AppNHp as substrate. GTP restores the dopamine but not the calcium response. The inhibitory guanine nucleotide GDP-βS antagonizes dopamine and GppNHp stimulation of the brain adenylate cyclases, but not stimulation by calcium of either rat cerebral cortical or striatal enzymes. Results indicate that GTP is not requisite to calcium-calmodulin activation of adenylate cyclases in brain membranes. In addition, calcium-calmodulin cannot activate striatal adenylate cyclases with a nonphosphorylating nucleotide, AppNHp, as substrate.  相似文献   

20.
The effects of the photoreactive GTP analogue GTP-gamma-azidoanilide on rat liver plasma-membrane adenylate cyclase are described. U.v. irradiation in the presence of the analogue abolished activation by any effector or combination of effectors that function via the activatory G protein. Partial protection against this inhibition was given by F- and guanosine 5'-[gamma-thio]triphosphate. It is concluded that GTP-gamma-azidoanilide acts by a light-induced covalent reaction with the G protein. In the dark the effects of the analogue were similar to those of GTP. Irradiation in the presence of GTP-gamma-azidoanilide was found to reduce but not to abolish activation of rat liver plasma membrane adenylate cyclase by forskolin. The activation by forskolin and GTP together were greater than the sum of the individual activations. Forskolin doubled adenylate cyclase activity in the presence of glucagon and guanosine 5'-[beta, gamma-imido]triphosphate, which might be expected to activate to the maximum possible extent via the G protein. It is concluded that there are two components to the forskolin activation, a guanine nucleotide-dependent and a guanine nucleotide-independent component.  相似文献   

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