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1.
We have previously described a specific protease in turkey erythrocytes that converts the larger 50-kDa (P50) form of the beta 1-adrenoceptor to a smaller 40-kDa (P40) form [Jürss, R., Hekman, M., & Helmreich, E. J. M. (1985) Biochemistry 24, 3349-3354]. Further functional and structural characterization studies of the two forms are reported here. When purified P50 and P40 receptors were compared with respect to their relative capabilities to couple in lipid vesicles with pure stimulatory G-proteins (Gs-proteins) prepared from turkey erythrocytes or rabbit liver, a faster and larger activation of Gs-proteins was observed in response to l-isoproterenol and guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) with P40 than with P50 receptor. The kon values for P40 were 0.47 min-1 in the case of liver Gs and 0.22 min-1 in the case of erythrocyte Gs, whereas the corresponding values for P50 were 0.34 min-1 and 0.12 min-1, respectively. The binding properties of P50 and P40 forms of the receptor were not different, and desensitization of turkey erythrocytes on exposure to l-isoproterenol did not activate the protease. We furthermore ascertained that only the larger form with a molecular mass of 50 kDa carries the N-linked carbohydrates, which are removed on proteolytic conversion to the 40-kDa form and have either a triantennary or a tetraantennary nonfucosylated complex-type structure containing terminal sialyl residues.  相似文献   

2.
Beta 1-Adrenergic receptor proteins were extracted from turkey erythrocyte membranes with lauroyl sucrose and digitonin and purified by affinity chromatography on a column of alprenolol agarose Affi-gel 10 or 15. The 5000-fold purified receptor is able to couple functionally with the stimulatory GTP-binding protein (GS) from either turkey or duck erythrocytes. Functional coupling was achieved by three different approaches. (i) Purified beta-receptor polypeptides were coupled in phospholipid (asolectin) vesicles with GS from a crude cholate or lauroyl sucrose extract of turkey erythrocyte membranes. The detergent was removed and vesicles were formed with SM-2 beads. (ii) Purified beta-receptor was reconstituted with pure, homogeneous GS in asolectin vesicles. (iii) Purified beta-receptors were either coupled in asolectin vesicles with a mixture of pure, homogeneous Gpp(NH)p-activated GS and a lauroyl sucrose extract of turkey erythrocyte membranes, or with pure, homogeneous Gpp(NH)p-activated GS alone. The decay of activity was measured on addition of GTP and hormone. In (ii) and (iii), the detergent was removed and vesicles were formed by gel filtration on Sephadex G-50 columns. In each of the three different experimental conditions, the beta-receptor was activated with l-isoproterenol and activation was blocked with d,l-propranolol. Activated GS were measured separately by means of their capacity to activate a crude Lubrol PX-solubilized adenylate cyclase preparation from rabbit myocardial membrane. The kinetics of GS activation by purified beta-receptors occupied by l-isoproterenol was first order and activation was linearly dependent on receptor concentration.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

3.
T Asano  S E Pedersen  C W Scott  E M Ross 《Biochemistry》1984,23(23):5460-5467
The stimulatory GTP-binding protein (Gs) of adenylate cyclase, purified from rabbit liver, and beta-adrenergic receptors, partially purified 1000-4000-fold from turkey erythrocyte plasma membranes, were coreconstituted into unilamellar phospholipid vesicles. The molar ratio of Gs to receptors in the vesicles varied from 3 to 10 in different preparations, as measured by guanosine 5'-O-(3-[35S]thiotriphosphate) [( 35S]GTP gamma S) binding to Gs and [125I]iodocyanopindolol binding to receptors. Activation of reconstituted Gs by GTP gamma S was stimulated up to 10-fold by the addition of the beta-adrenergic agonist (-)-isoproterenol. Activation was assayed functionally by reconstitution with the catalytic unit of adenylate cyclase. Because of the relative purity of this preparation, the quasi-irreversible binding of [35S]GTP gamma S could also be measured in the vesicles and was shown to parallel the functional activation of Gs under all conditions. Most of the assayable Gs in the vesicles could interact with the receptors and undergo agonist-stimulated activation. Agonist-stimulated activation and [35S]GTP gamma S binding were complete in less than 3 min, even under suboptimal conditions, and could go to completion in less than 20 s under maximal stimulation. Agonist-stimulated binding did not require appreciable free Mg2+ (less than 0.1 mM). Activation in the absence of agonist was stimulated by free Mg2+, but maximal activation took up to 10 min in the presence of 50 mM MgCl2. Reconstitution increased the stability of Gs to thermal denaturation. The addition of beta-adrenergic agonist further stabilized Gs, presumably by the formation of a stable agonist-receptor-Gs complex.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

4.
Reconstitution of catecholamine-stimulated guanosinetriphosphatase activity   总被引:14,自引:0,他引:14  
beta-Adrenergic receptors were partially purified from turkey erythrocyte membranes by alprenolol-agarose chromatography to 0.25-2 nmol/mg of protein, and the stimulatory guanosine 5'-triphosphate (GTP) binding protein of adenylate cyclase (Gs) was purified from rabbit liver. These proteins were reconstituted into phospholipid vesicles by addition of phospholipids and removal of detergent by gel filtration. This preparation hydrolyzes GTP to guanosine 5'-diphosphate (GDP) plus inorganic phosphate (Pi) in response to beta-adrenergic agonists. The initial rate of isoproterenol-stimulated hydrolysis is approximately 1 mol of GTP hydrolyzed min-1 X mol-1 of Gs. This low rate may be limited by the hormone-stimulated binding of substrate, since it is roughly equal to the rate of binding of the GTP analogue guanosine 5'-O-(3-[35S] thiotriphosphate) [( 35S]GTP gamma S) to Gs in the vesicles. Activity in the absence of agonist, or in the presence of agonist plus a beta-adrenergic antagonist, is 8-25% of the hormone-stimulated activity. Guanosinetriphosphatase (GTPase) is not saturated at 10 microM GTP, and the response to GTP is formally consistent either with the existence of multiple Km's or of a separate stimulatory site for GTP. The GTPase activity of Gs in vesicles is also stimulated by 50 mM MgCl2 in the presence or absence of receptor. Significant GTPase activity is not observed with Lubrol-solubilized Gs, although [35S]-GTP gamma S binding is increased by Lubrol solubilization.  相似文献   

5.
Treatment of beta-adrenergic receptor with dithiothreitol (DTT) or other thiol compounds caused its functional activation in the presence or absence of agonist ligands. Such activation was observed in reconstituted unilamellar phospholipid vesicles that contained beta-adrenergic receptors, purified to greater than or equal to 95% homogeneity from turkey erythrocyte plasma membranes, and the stimulatory GTP-binding protein of the adenylate cyclase system (Gs) purified from rabbit liver. Incubation of the vesicles with 2-10 mM DTT at 0 degrees C for 1 h increased the rate (4-5-fold) and the extent (3-4-fold) of activation of Gs by guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) binding, an effect about equivalent to the addition of beta-adrenergic agonists. Treatment with DTT also markedly potentiated the ability of agonists to stimulate GTP gamma S binding, increasing the initial rate about 10-fold. DTT treatment was as effective as agonist in stimulating GTPase activity, and maximal stimulation was obtained when DTT-treated vesicles were assayed in the presence of agonist. Other thiol compounds produced effects similar to those of DTT but were at least 10-fold less potent. Stimulation of GTP gamma S binding or GTPase activity required active receptor, and treatment of the receptor with DTT prior to reconstitution also increased its efficacy. There was no effect of DTT on Gs alone. Thus, the site of action of DTT appears to be on the beta-adrenergic receptor itself, and the reduction of disulfides and the binding of agonist act synergistically to activate the receptor. DTT treatment made the receptor more labile to thermal denaturation. Inclusion of cholesterol or cholesteryl-hemisuccinate (5-25%) in the vesicles protected the reduced receptor against such denaturation and enhanced its recovery during reconstitution. No effect of cholesterol or cholesteryl-hemisuccinate was observed on the stability of the nonreduced receptor, which was comparable to that observed in native membranes.  相似文献   

6.
The regulatory component (G/F) of adenylate cyclase has been purified from turkey erythrocyte plasma membranes by adaptation of procedures developed for purification of the rabbit liver protein. The major modifications entail inclusion of high concentrations of NaCl to facilitate extraction and reconstitution of the protein. A typical preparation yields 200 micrograms of protein with a reconstitutive specific activity of 3-4 mumol . min-1 mg-1. Turkey erythrocyte G/F contains two putative subunits of 35,000 and 45,000 daltons. The 52,000-dalton polypeptide that appears to be a component of rabbit liver G/F is lacking. In solution, G/F behaves as a particle with Mr = 81,000. This value is reduced to 50,000 in the presence of activating ligands, suggesting dissociation of subunits. Activation of G/F by guanine nucleotide analogs is markedly accelerated in the presence of high concentrations of Mg2+. Reconstitutive and physical properties of the protein are also affected by fluoride. Cyc- S49 lymphoma membranes reconstituted with turkey erythrocyte G/F acquire properties that are characteristic of the turkey adenylate cyclase system; at least certain differing characteristics of adenylate cyclase systems are thus dictated by the nature of their G/F.  相似文献   

7.
The maturing rat reticulocyte was used as a model system in which to study developmental changes in the protein components of hormone-sensitive adenylate cyclase. Plasma membranes from rat erythrocytes display 10 to 20% of the adenylate cyclase activity and 30 to 50% of the beta-adrenergic receptors which are measured in membranes from rat reticulocytes, as noted by others. Reticulocyte membranes also display equal activities in response to (-)-isoproterenol in the presence of either GTP or GTP gamma S, whereas erythrocyte membrane adenylate cyclase is twice as active in the presence of isoproterenol plus GTP gamma S as in the presence of isoproterenol plus GTP. We have studied this system in greater detail by developing or applying independent assays for the catalytic protein (C) and the guanine nucleotide-binding regulatory protein (G/F) of adenylate cyclase. C was assayed in membranes by its intrinsic Mn2+-stimulated activity. It was also measured by reconstituting membranes with saturating amounts of GTP gamma S-activated G/F, yielding an operationally defined Vmax for the catalyst. By either assay, reticulocytes display about 3-fold greater C activity than do erythrocytes. G/F was assayed by its ability to confer GTP gamma S-stimulated activity upon C (which was supplied by membranes of cyc- S49 lymphoma cells). This assay indicates that reticulocyte membranes contain about 3 times as much G/F as do erythrocyte membranes. Cholera toxin and [32P]NAD were used to [32P]ADP-ribosylate the 45,000- and 52,000-dalton subunits of G/F. Total incorporation of 32P into these subunits decreased 3- to 4-fold with reticulocyte maturation. The ratio of label in the 52,000-dalton peptide to that in the 45,000-dalton peptide decreased from 0.29 in reticulocyte membranes to 0.14 in erythrocyte membranes. The apparently coordinate decrease in the amounts of C, G/F, and beta-adrenergic receptors suggest that the stoichiometry between these components is maintained during maturation, and may account for the decrease in adenylate cyclase in the membranes. However, the qualitative changes in responsiveness to hormones in the presence of GTP or GTP gamma S may be related to loss or proteolysis of the 52,000-dalton subunit of G/F.  相似文献   

8.
The guanine nucleotide regulatory protein component (N) of the frog erythrocyte membrane adenylate cyclase system appears to form a stable complex with the beta-adrenergic receptor (R) in the presence of agonist (H). This agonist-promoted ternary complex HRN can be solubilized with Lubrol. The guanine nucleotide regulatory protein associated with the solubilized complex can be adsorbed either to GTP-Sepharose directly or to wheat germ lectin-Sepharose via its interaction with the receptor which is a glycoprotein. Guanosine 5'-O-(3-thiotriphosphate)(GTP gamma S) can be used to elute the guanine nucleotide regulatory protein from either Sepharose derivative. The resulting N.GTP gamma S complex conveys nucleotide-dependent adenylate cyclase activity when combined with a Lubrol-solubilized extract of turkey erythrocyte membranes. The ability to observe GTP gamma S-dependent reconstitution of adenylate cyclase activity in the eluate from either resin required the formation of the HRN complex prior to solubilization. The N protein can be identified by its specific [32P]ADP ribosylation catalyzed by cholera toxin in the presence of [32P]NAD+. The existence of a stable HRN intermediate complex is supported by the observation that agonist pretreatment of frog erythrocyte membranes results in a 100% increase in the amount of 32P-labeled N protein eluted from the lectin-Sepharose in the presence of GTP gamma S compared to membranes pretreated with either antagonist or agonist plus GTP. Our results therefore provide evidence that the same guanine nucleotide-binding protein that associates with the beta-adrenergic receptor in the presence of agonist mediates adenylate cyclase activation.  相似文献   

9.
T Asano  E M Ross 《Biochemistry》1984,23(23):5467-5471
The stimulatory GTP-binding protein of adenylate cyclase, Gs, and beta-adrenergic receptors were reconstituted into unilamellar phospholipid vesicles. The kinetics of the quasiirreversible binding of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) to Gs, equivalent to Gs activation by nucleotide, was studied with respect to the stimulation of this process by beta-adrenergic agonists and Mg2+. The rate of GTP gamma S binding displayed apparent first-order kinetics over a wide range of nucleotide, agonist, and Mg2+ concentrations. In the absence of agonist, the apparent first-order rate constant, kapp, was 0.17-0.34 min-1 and did not vary significantly with the concentration of nucleotide. At 50 mM MgCl2, kapp increased somewhat, to 0.26-0.41 min-1, and remained invariant with the nucleotide concentration. In the presence of agonist, kapp was dependent on nucleotide concentration. At 10(-9) M GTP gamma S, the addition of (-)-isoproterenol caused at most a 2-fold stimulation of kapp. However, kapp measured in the presence of isoproterenol increased as an apparently saturable function of the GTP gamma S concentration, such that isoproterenol caused a 17-fold increase in kapp at 1 microM GTP gamma S. The effect of isoproterenol on kapp also appeared to saturate at high isoproterenol concentration, yielding a kapp approximately 6 min-1 at high concentrations of both nucleotide and agonist. These data suggest that the receptor-agonist complex acts by increasing the rate of conversion of a lower affinity Gs-GTP gamma S complex to the stable activated state.  相似文献   

10.
We have compared the regulation of adenylate cyclase activity in membrane fractions from C6 glioma cells and in monolayer cultures of C6 cells that had been permeabilized with saponin. Guanine nucleotides (GTP and GTP gamma S) and isoproterenol increase adenylate cyclase activity in C6 membranes and in permeabilized C6 cells. In C6 membranes, guanine nucleotides activate adenylate cyclase in the presence or absence of isoproterenol; in permeabilized cells, however, guanine nucleotides increase adenylate cyclase activity only in the presence of isoproterenol. We suggest that the properties of the permeabilized cells more closely resemble those of intact cells, and that some component which is present in permeabilized cells but is lost following cell disruption may be important for the normal regulation of adenylate cyclase activity.  相似文献   

11.
The turkey erythrocyte beta-adrenergic receptor-adenylate cyclase system has the unusual property that neither GTP nor Gpp(NH)p are effective in activating adenylate cyclase unless a beta-agonist is present simultaneously. This property results in essentially no basal activity and the inability of GTP or Gpp(NH)p alone to activate the catalytic moiety. In this study, we have exploited these characteristics to utilize turkey erythrocyte membranes as the acceptor preparation in a reconstitution assay. Rat reticulocyte or turkey erythrocyte membranes that have been activated with isoproterenol and Gpp(NH)p followed by solubilization with sodium cholate serve as the donor source of the guanine nucleotide regulatory protein (N). By reconstituting this Gpp(NH)p-activated N protein, it has been found that: (1) exogenous Gpp(NH)p-associated N could activate the catalytic unit of adenylate cyclase in turkey erythrocyte membranes; (2) this system can be used to assay N protein activity; (3) the endogenous pathway for activation of turkey erythrocyte membrane adenylate cyclase by hormones and fluoride remains qualitatively functional; and (4) the effects of combined activation via the endogenous and exogenous pathways are additive and saturable.  相似文献   

12.
Choleragen and beta-adrenergic agonists, both of which activate turkey erythrocyte adenylate cyclase, have been reported to accelerate release of bound [3H]guanyl nucleotides from turkey erythrocyte membranes. We have now obtained evidence that choleragen- or isoproterenol-stimulated release reflects a change in the affinity of the regulatory subunit (G/F) of adenylate cyclase for guanyl nucleotides. Solubilized preparations of turkey erythrocytes that had bound radiolabeled GTP were chromatographed on Ultrogel AcA 34. The protein from which guanyl nucleotide was released upon incubation with choleragen or isoproterenol was co-eluted with G/F activity. Furthermore, this protein appears to be the same size as the complex containing the 42,000-dalton peptide, ADP*-ribosylated by choleragen, which is presumably a subunit of G/F. ADP ribosylation of the 42,000-dalton subunit of G/F by choleragen occurred with a half-time of about 5 min, whereas choleragen-stimulated release of guanyl nucleotides was much slower (t1/2 greater than or equal to 60 min). When membranes were treated with choleragen and NAD, the delay in activation of adenylate cyclase by guanylyl imidodiphosphate was decreased but not abolished, a finding consistent with the idea that release of endogenously bound nucleotide (and subsequent binding of the nonhydrolyzable GTP analog) occurs only slowly following ADP ribosylation. In contrast, activation of the adenylate cyclase of either toxin-treated or untreated membranes in the presence of isoproterenol and guanylyl imidodiphosphate was very rapid. These data support the hypothesis that isoproterenol and choleragen may activate adenylate cyclase, at least in part, by increasing the rate of release of guanyl nucleotides from G/F.  相似文献   

13.
Previous work suggested that hormonal activation of adenylate cyclase involves the introduction of GTP to the regulatory site, and subsequent hydrolysis of the bound GTP terminates the activation. In many tissues the turn-off GTPase reaction cannot be readily measured because of a high background of nonspecific GTP hydrolysis. To circumvent this problem a general assay for the turn-off reaction has now been developed. The adenylate cyclase is first activated by hormone and GTP and the introduction of GTP is then stopped either by addition of an excess of guanosine 5'-O-(2-thiodiphosphate) (GDP beta S) or by addition of a receptor blocking agent. The decay of adenylate cyclase activity brought on by these inhibitors is used to calculate the rate constant of the turn-off reaction. In turkey erythrocyte and rat parotid membranes the rate constant of the decay process as determined with GDP beta S is similar to that determined with the beta-adrenergic blocker propranolol. The rate constants (min-1 at 30 degrees C) for various adenylate cyclase preparations are 10 for turkey erythrocyte, 7.5 for rat parotid, and 6.2 for the rat liver enzyme. The finding of similar rate constants in the various preparations indicates that GTP hydrolysis at the regulatory site is a general mechanism for terminating the activation of adenylate cyclase.  相似文献   

14.
Transducin (T), the GTP-binding protein of the retina activates the cGMP phosphodiesterase system, and presents analogies with the proteins GS and Gi which respectively mediate adenylate cyclase activation and inhibition by hormone receptors. These proteins are all comprised of an alpha subunit carrying the GTP-binding site and a beta gamma subunit made of two peptides. The beta peptide (35 kd) appears similar in the three proteins. We demonstrate here that purified T beta gamma inhibits adenylate cyclase from human platelet membranes. This inhibition was observed when adenylate cyclase was stimulated by GTP, prostaglandin E1 (PGE1), NaF and forskolin, but not when stimulated by GTP(gamma)S. In the presence of GTP and forskolin, the T beta gamma-induced maximal inhibition was not additive with the alpha 2-receptor-induced adenylate cyclase inhibition mediated by Gi. Both inhibitions were suppressed at high Mg2+ concentrations, which as also known to dissociate T beta gamma from T alpha-GDP. This suggests that these adenylate cyclase inhibitions are due to the formation of inactive complexes of GS alpha-GDP with T beta gamma or Gi beta gamma. T beta gamma-induced inhibition did not require detergent and could be suppressed by simple washing. T beta gamma effects are dependent on its concentration rather than on its total amount. This suggests that T beta gamma can operate in solution with no integration into the membrane. Similar inhibitory effects of T beta gamma are observed on adenylate cyclase from anterior pituitary and lymphoma S49 cell lines.  相似文献   

15.
The retinal nucleotide regulatory protein, transducin, can substitute for the inhibitory guanine nucleotide-binding regulatory protein (Ni) in inhibiting adenylate cyclase activity in phospholipid vesicle systems. In the present work we have assessed the roles of the alpha (alpha T) and beta gamma (beta gamma T) subunit components in mediating this inhibition. The inclusion of either a preactivated alpha T . GTP gamma S (where GTP gamma S is guanosine 5'-O-(thiotriphosphate)) complex, or the beta gamma complex, in phospholipid vesicles containing the pure human erythrocyte stimulatory guanine nucleotide-binding regulatory protein (Ns) and the resolved catalytic moiety of bovine caudate adenylate cyclase (C) resulted in inhibition of the GppNHp-stimulated (where GppNHp is guanyl-5'-yl imidodiphosphate) activity (by approximately 30-60 and 90%, respectively, at 2 mM MgCl2). The inhibitions by both of these subunit species are specific for the Ns-stimulated activity with neither alpha T . GTP gamma S nor beta gamma T having any direct effect on the intrinsic activity of the catalytic moiety. Increasing the MgCl2 concentration in the assay incubations significantly decreases the inhibitions by both alpha T . GTP gamma S and beta gamma T. Similarly, when the pure hamster lung beta-adrenergic receptor is included in the lipid vesicles with Ns and C, the levels of inhibition of the GppNHp-stimulated activity by both alpha T . GTP gamma S and beta gamma T are reduced compared to those obtained in vesicles containing just Ns and C (but not stimulatory receptor). These inhibitions are reduced still further under conditions where the agonist stimulation of adenylate cyclase activity is maximal, i.e. when stimulating with isoproterenol plus GTP. In these cases the alpha T . GTP gamma S inhibitory effects are completely eliminated and the inhibitions observed with holotransducin can be fully accounted for by the beta gamma T complex. The ability of the beta-adrenergic receptor to relieve these inhibitions suggests that the receptor may remain coupled to Ns (or alpha s) during the activation of the regulatory protein and the stimulation of adenylate cyclase. These results also suggest that under physiological conditions the beta gamma subunit complex is primarily responsible for mediating the inhibition of adenylate cyclase activity.  相似文献   

16.
The beta gamma subunits of guanine nucleotide binding proteins from bovine brain and bovine rod outer segments have different structural and immunochemical properties. In spite of these structural differences, beta gamma subunits from these sources have been found to be fully interchangeable in terms of their interaction with alpha subunits of pertussis-toxin-sensitive G proteins. In contrast, however, there are striking differences between these beta gamma subunits with regard to their ability to deactivate fluoride-stimulated Gs. These profound differences were also observed when the interaction of the purified components of the adenylate cyclase system was studied after reconstitution into phospholipid vesicles. Addition of beta gamma purified from bovine brain to vesicles containing beta-receptor and Gs results in a biphasic effect on receptor-stimulated GTPase activity, whereas addition of transducin beta gamma was virtually without any effect. Likewise, beta gamma from bovine brain, but not transducin beta gamma, affected adenylate cyclase activity of a reconstituted system consisting of three purified components (R, Gs, C). Thus, the alpha subunit of Gs, but not the alpha subunits of pertussis-toxin-sensitive G proteins discriminate between structurally different beta gamma subunits.  相似文献   

17.
Densensitization of turkey erythrocytes by exposure to the beta-adrenergic agonist (-)isoproterenol leads to decreased activation of adenylate cyclase by agonist, NaF, and guanyl-5'-yl imido diphosphate, with no reduction in the number of beta-adrenergic receptors. Interactions between the receptor and the guanine nucleotide regulatory protein (N protein) also seem to be impaired. These observations suggest that a component distal to the beta-adrenergic receptor may be a locus of modification. Accordingly we examined the N protein to determine whether it was altered by desensitization. The rate at which (-)isoproterenol stimulated the release of [3H]GDP from the N protein was substantially lower in membranes prepared from desensitized cells, providing further evidence for uncoupling of the receptor and the N protein. The amount of N protein in membranes from control and desensitized cells was compared by labeling the 42,000 Mr component of the N protein with [32P]NAD+ and cholera toxin; no significant difference was found. However, significantly more N protein (p less than .001) was solubilized by cholate extraction of desensitized membranes, suggesting an altered association of the N protein with the membrane after desensitization. The functional activity of the N protein was measured by reconstitution of cholate extracts of turkey erythrocyte membranes into S49 lymphoma cyc- membranes. Reconstitution of (-)isoproterenol stimulation of adenylate cyclase activity was reduced significantly (p less than .05) after desensitization. These observations suggest that desensitization of the turkey erythrocyte by (-)isoproterenol results in functional modifications of the guanine nucleotide regulatory protein, leading to impaired interactions with the beta-adrenergic receptor and reduced activation of adenylate cyclase.  相似文献   

18.
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   

19.
We have used a recently developed cell-free system (cell lysate) derived from turkey erythrocytes to explore the potential role of cAMP-activated and other protein kinase systems in desensitizing the adenylate cyclase-coupled beta-adrenergic receptor. Desensitization by the agonist isoproterenol required more than simple occupancy of the receptor by the agonist since under conditions where adenylate cyclase was not activated, no desensitization occurred. As in whole cells, addition of cyclic nucleotides to the cell lysate produced only approximately 50% of the maximal isoproterenol-induced desensitization obtainable. Addition of the purified cAMP-dependent protein kinase holoenzyme plus isoproterenol to isolated turkey erythrocyte plasma membranes mimicked the submaximal desensitization induced in lysates by cAMP. This effect was entirely blocked by the specific inhibitor of the cAMP-dependent protein kinase. By contrast, maximal desensitization induced in lysates by isoproterenol was only approximately 50% attenuated by the protein kinase inhibitor. In the lysate preparations, isoproterenol was also shown to induce, in a stereospecific fashion, phosphorylation of the beta-adrenergic receptor. Phosphorylation promoted by isoproterenol was attenuated by cAMP-dependent protein kinase inhibitor to the same extent as desensitization (i.e. approximately 50%). Phorbol diesters also promoted receptor desensitization and phosphorylation in cell lysates. The desensitization was mimicked by incubation of isolated turkey erythrocyte membranes with partially purified preparations of protein kinase C plus phorbol diesters. In the cell lysate, calmodulin also promoted receptor phosphorylation and desensitization which was blocked by EGTA. Desensitization of adenylate cyclase by isoproterenol, phorbol diesters, and calmodulin was not observed to be additive. These findings suggest that: (a) multiple protein kinase systems, including cAMP-dependent, protein kinase C-dependent, and Ca2+/calmodulin-dependent kinases, are capable of regulating beta-adrenergic receptor function via phosphorylation reactions and that (b) cAMP may not be the sole mediator of isoproterenol-induced phosphorylation and desensitization in these cells.  相似文献   

20.
Turkey erythrocyte membranes possess a phospholipase C that is markedly activated by P2Y-purinergic receptor agonists and guanine nucleotides. Reconstitution of [3H]inositol-labeled turkey erythrocyte membranes with guanine nucleotide regulatory protein (G-protein) beta gamma subunits resulted in inhibition of both AlF-4-stimulated adenylate cyclase and AlF-4-stimulated phospholipase C activities. The apparent potency (K0.5 approximately 1 microgram or 20 pmol of beta gamma/mg of membrane protein) of beta gamma subunits for inhibition of each enzyme activity was similar and occurred with beta gamma purified by different methodologies from turkey erythrocyte, bovine brain, or human placenta membranes. In contrast to the effect on AlF-4-stimulated activity, the stimulatory effect on phospholipase C of the P2Y-purinergic receptor agonist 2-methylthioadenosine 5'-triphosphate in the presence of guanine nucleotides was potentiated by 50-100% in a concentration-dependent manner by reconstitution of beta gamma subunits. beta gamma subunits did not affect the K0.5 value of 2-methylthioadenosine 5'-triphosphate for the stimulation of phospholipase C activity. These results indicate that beta gamma subunits influence phospholipase C activity in a concentration range similar to that necessary for regulation of adenylate cyclase activity and suggest the involvement of a G-protein possessing an alpha beta gamma heterotrimeric structure in coupling hormone receptors to phospholipase C.  相似文献   

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