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1.
We report that the adenylate cyclase system in human platelets is subject to multiple regulation by guanine nucleotides. Previously it has been reported that GTP is either required for or has little effect on the response of the enzyme to prostaglandin E1. We have found that when platelet lysates were prepared in the presence of 5 mM EDTA, GTP lowered the basal and prostaglandin E1-stimulated adenylate cyclase activity when the enzyme was assayed in the presence of Mg2+. The basal and prostaglandin E1-stimulated adenylate cyclase activities were also increased by washing, which presumably removes endogenous GTP. The analog, guanyl-5′-yl-imidodiphosphate mimics the inhibitory effect of GTP on prostaglandin E1-stimulated adenylate cyclase activity but it stimulates basal enzyme activity. The onset of the inhibitory effect of GTP on the adenylate cyclase system is rapid (1 min) and is maintained at a constant rate during incubation for 10 min. GTP and guanyl-5′-yl-imidodiphosphate were noncompetitive inhibitors of prostaglandin E1. An increase in the concentration of Mg2+ gradually reduces the effect of GTP while having little influence on the effect of guanyl-5′-yl-imidodiphosphate. Neither the substrate concentration nor the pH (7.2–8.5) is related to the inhibitory effect of guanine nucleotides. The inhibition by nucleotides was found to show a specificity for purine nucleotides with the order of potency being guanyl-5′-yl-imidodiphosphate > dGTP > GTP > ITP > XTP > CTP > TTP. The inhibitory effect of GTP is reversible while the effect of guanyl-5′-yl-imidodiphosphate is irreversible. The GTP inhibitory effect was abolished by preparing the lysates in the presence of Ca2+. However, the inhibitory effect of guanyl-5′-yl-imidodiphosphate persisted. Substitution of Mn2+ for Mg2+ in the assay medium resulted in a diminution of the inhibitory effect of GTP on basal activity and converted the inhibitory effect of GTP on prostaglandin E1-stimulated activity to a stimulatory effect. At a lower concentration of Mn2+ (less than 2 mM) guanyl-5′-yl-imidodiphosphate inhibited prostaglandin E1-stimulated adenylate cyclase activity, but at a higher concentration of Mn2+, it caused an increase in enzyme activity exceeding that occuring in the presence of prostaglandin E1. In the presence of Mn2+, dGTP mimics the effect of GTP and is 50% as effective as GTP. Our data suggest that the inhibitory effect of GTP on prostaglandin E1-stimulated adenylate cyclase is mainly due to its direct effect on the enzyme itself, whereas the stimulatory effect of GTP on prostaglandin E1-stimulated adenylate cyclase is due to enhancement of the coupling between the prostaglandin E1 receptor and adenylate cyclase. These studies also indicate that the method of preparation of platelet lysates can profoundly alter the nature of guanine nucleotide regulation of adenylate cyclase.  相似文献   

2.
In membranes of rat striatum, phorbol 12-myristate 13-acetate (PMA), a potent activator of Ca2+/phospholipid-dependent protein kinase, enhanced adenylate cyclase activity by counteracting the inhibition elicited by GTP. Exposure to pertussis toxin caused a similar alteration of the GTP-regulation of the enzyme activity and largely prevented the PMA effects. PMA treatment increased by threefold the GTP requirement of acetylcholine-induced inhibition of adenylate cyclase activity but did not affect the GTP-dependence of the enzyme stimulation by dopamine. The hydrolysis of GTP by membrane-bound high affinity GTPase was significantly inhibited by PMA (IC 50 10 nM) in a Ca2+-dependent manner. Like PMA, phorbol 12, 13-dibutyrate inhibited the GTPase activity, whereas the biologically inactive 4- phorbol 13-acetate and 4- phorbol were without effect. These results suggest that activation of Ca2+/phospholipid-dependent protein kinase by PMA stimulates adenylate cyclase activity by impairing the activity of the GTP-dependent inhibitory protein, possibly through a reduction of the GTP-GDP exchange.  相似文献   

3.
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  相似文献   

4.
The response of adenylate cyclase to GTP and to dopamine (DA) was investigated in synaptic plasma membranes isolated from rat striatum injected with pertussis toxin, which inactivates the inhibitory guanine nucleotide-binding regulatory protein (Ni) of adenylate cyclase. Pertussis toxin treatment reverted the inhibitory effects on the enzyme activity elicited by micromolar concentrations of GTP and reduced by 50% the DA inhibition of cyclase activity via D2 receptors. The toxin treatment enhanced the net stimulation of enzyme activity by DA in the presence of micromolar concentrations of GTP. However, the stimulatory effect of the selective D1 receptor agonist SKF 38393 was not significantly affected. The data indicate that Ni mediates D2 inhibition of striatal adenylate cyclase and participates in the modulation of D1 stimulation of the enzyme activity by DA.  相似文献   

5.
The adenylate cyclase of the sea urchin egg is stimulated by dopamine in the presence of GTP. The enzyme activity is strongly enhanced when Gpp (NH)p is substituted for GTP, or after cholera toxin treatment. Gramine, an indolamine derivative, brings about non-competitive inhibition of the dopamine-stimulated adenylate cyclase activity. Pertussis toxin causes an attenuation of the gramine-induced inhibition of adenylate cyclase. These results show that dopamine and indolamine derivatives partecipate in the regulation of the adenylate cyclase activity of the sea urchin egg.  相似文献   

6.
We have investigated the effects of NaCl and GTP on the inhibition of platelet adenylate cyclase by 1-O-octadecyl-2-O-acetyl-sn-glyceryl-3-phosphorylcholine (1-octadecyl-2-acetyl-G-3-PC), using particulate fractions from human and rabbit platelets that had been frozen and thawed in the presence of ethylene glycol bis(β-aminoethyl ether)-N,N,N′,N′-tetraacetate to prevent Ca2+-dependent proteolysis. When 10 μM GTP was present, 100 mM NaCl stimulated the activity of the rabbit enzyme 5.6-fold and that of the human enzyme 2.2-fold. Under these conditions, maximum inhibitions of 90% and 64% were obtained on addition of 100 nM 1-octadecyl-2-acetyl-G-3-PC to rabbit and human preparations, respectively. These inhibitions resulted partly from an NaCl-independent inhibition of basal enzyme activity and partly from reversal of the stimulatory effect of NaCl. The relative abilities of the chlorides of different monovalent cations to enhance inhibition of rabbit platelet adenylate cyclase were: NaCl >LiCl >KCl >choline chloride. NaCl also increased the concentrations of 1-octadecyl-2-acetyl-G-3-PC required for half-maximal inhibition of adenylate cyclase but this action of NaCl did not correlate with its stimulatory effect on enzyme activity. After particulate fractions from platelets of either species were washed, 10 μM GTP inhibited basal adenylate cyclase activity in the absence of NaCl but stimulated the enzyme in the presence of NaCl. Inhibition of adenylate cyclase by 1-octadecyl-2-acetyl-G-3-PC was then either enhanced by GTP (rabbit material) or completely dependent on added GTP (human material). Stimulation of the activity of the washed human preparations by NaCl required GTP, but concentrations lower than required for potentiation of the inhibitory effect of 1-octadecyl-2-acetyl-G-3-PC by NaCl were effective.  相似文献   

7.
The tumour-promoting phorbol ester, PMA (phorbol 12-myristate 13-acetate), markedly reduced the steroidogenic response of mouse Leydig cells to stimulation by hCG and cholera toxin. However, 8Br-cAMP-and forskolin-stimulated steroidogenesis was not inhibited by PMA. PMA did not inhibit hCG-induced steroidogenesis in the simultaneous presence of 1 microM forskolin. The analysis of intracellular cAM P indicated that the PMA-induced inhibition of steroidogenesis was the result of an impaired cAMP accumulation. Adenylate cyclase in membranes prepared from PMA-treated cells showed a diminished response to hCG, GTP, guanosine 5'-[beta, gamma-imido]triphosphate [Gpp(NH)p] or to a combination of the stimulants. PMA, however, was unable to inhibit adenylate cyclase when added directly to the membrane preparation from untreated cells. As previous observations have indicated that 125I-hCG binding and phosphodiesterase activity in mouse Leydig cells are not influenced by PMA, it is concluded from the present study that the site of inhibition has to be localised to the regulatory guanine nucleotide binding protein of the adenylate cyclase system.  相似文献   

8.
The adenylate cyclase (ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1)-stimulating factor from rat osteosarcoma cytosol was purified 600-fold by ion-exchange chromatography. The factor has an apparent Mr of 20 000, is cold-labile, but retains activity at ?20°C in 10% glycerol.The factor enhanced parathyroid hormone stimulation of adenylate cyclase and restored hormone responsiveness to membranes washed with 0.5 M NaCl. These ‘GTP-like’ effects were not inhibited by 100 μM GDP-β-S, which completely abolished the GTP enhancement of both basal and hormone-stimulated adenylate cyclase.Adenylate cyclase activity in the presence of the stimulating factor was linear with time, and showed hyperbolic dependence on factor concentration. The factor also linearized (in double reciprocal plots) the downward-concave Mg2+-dependence of adenylate cyclase, increasing the apparent affinity of the enzyme for Mg2+.The presence of the factor in two clonal osteosarcoma cell lines correlated with parathyroid hormone-stimulatable adenylate cyclase. Factor stimulation was absent while GTP stimulation was retained in the hormone-nonresponsive clone. Factor and hormone sensitivity were restored by in vivo passage. This factor thus may represent a guanyl nucleotide-independent path for cellular regulation of hormone response.  相似文献   

9.
Abstract

The influence of sodium was studied on hormone and guanine nucleotide-induced stimulation and inhibition of adenylate cyclase and on ß-adrenoceptor binding in various membrane systems. Sodium exerted almost identical effects on stimulation and inhibition of adenylate cyclase by various stimulatory and inhibitory hormones in all of the systems studied. The potencies of the hormones and of GTP to increase or to decrease the enzyme activity were reduced by sodium ions, without changing the maximal degree of adenylate cyclase stimulation or inhibition. Stimulation and inhibition of adenylate cyclase by the stable GTP analog, GTPγS, was affected in an identical manner by sodium, causing a retardation in the onset without a change in final stimulation or inhibition by the analog. Similar to the well-known reduction in α2-adrenoceptor affinity for agonists, sodium also reduced the apparent affinity of ß-ad-renoceptors for the agonist, isoproterenol. It is concluded that sodium exerts identical effects on Ns and Ni, inhibiting the activation process of these two coupling components of the adenylate cyclase.  相似文献   

10.
Regulation of Adenosine-Sensitive Adenylate Cyclase from Rat Brain Striatum   总被引:7,自引:5,他引:2  
An adenosine-sensitive adenylate cyclase has been characterized from rat brain striatum. In whole homogenates as well as in particulate fractions, N6-phenylisopropyl adenosine (PIA), 2-chloroadenosine, and adenosine N′-oxide were equipotent in stimulating adenylate cyclase. Although GTP inhibited basal as well as PIA-stimulated activity of whole homogenates, the enzyme showed an absolute dependency on GTP for stimulation by PIA, dopamine, epinephrine, and norepinephrine in a particulate fraction derived from discontinuous sucrose gradient centrifugation. Adenosine exerts two effects on this adenylate cyclase, stimulation at low concentrations and inhibition at high concentrations, suggesting the presence of two adenosine binding sites. The stimulation of adenylate cyclase by PIA was dependent on the concentration of Mg2-. The degree of stimulation by PIA was greater at a low concentration of Mg2+, which suggests that stimulation by PIA was accompanied by increasing the apparent affinity for Mg2+. Activation of adenylate cyclase by PIA was blocked by theophylline or 3-isobutyl- 1-methylxanthine (IBMX). The pH optimum for basal or (PIA + GTP)-stimulated activities was broad, with a peak between 8.5 and 9.5. In the presence of GTP, stimulation by an optimal concentration of PIA was additive, with maximal stimulation by the catecholamines. Phospholipase A2 treatment at a concentration of 1 U/ml for 5 min completely abolished the stimulatory effect of dopamine, whereas PIA-stimulated activity remained unaltered. These data suggest that rat brain striatum either has a single adenylate cyclase, which is stimulated by catecholamines and adenosine by distinct mechanisms, or has different cyclase populations, stimulated by either adenosine or catecholamines.  相似文献   

11.
Heparin inhibits (I50 = 2 μg/ml) the activity of luteinizing hormone and human chorionic gonadotropin-stimulated adenylate cyclase in purified rat ovarian plasma membranes. Unstimulated enzyme activity and activity stimulated by NaF, GTP or guanosine 5′-(β,γ-imido)triphosphate were inhibited to a lesser extent. Human chorionic gonadotropin binding to this membrane preparation was inhibited by hepatin (I50 = 6 μg/ml). The inhibition with respect to hormone concentration was of a mixed type for hormone binding and adenylate cyclase stimulation. Inhibition by heparin was not eliminated at saturating hormone concentration. The degree of inhibition was unaffected by the order in which enzyme, hormone and heparin were introduced into the assay system. Herapin (3 μg/ml) did not affect the pH activity relationship of basal and hormone-stimulated adenylate cyclase activity and did not change the dependence of enzyme activity on magnesium ion concentration. The inhibitory action of heparin cannot be solely attributed to interference with either catalysis or hormone binding. The possibility is considered that the highly charged herapin molecule interferes with enzyme receptor coupling, by restricting the mobility of these components or by effecting their conformation.  相似文献   

12.
Summary The effects of purified Ca2+, phospholipid-dependent protein kinase (C-kinase) were studied on adenylate cyclase activity from rat brain striatum. C-kinase treatment of the membranes stimulated adenylate cyclase activity, the maximal stimulation between 50–80% was observed at 3.5 U/ml, whereas the catalytic subunit of cAMP dependent protein kinase did not show any effect on enzyme activity. The inclusion of Ca2+ and phosphatidyl serine did not augment the percent stimulation of adenylate cyclase by C-kinase, however EGTA inhibited the stimulatory effect of C-kinase on enzyme activity. Furthermore, the known inhibitors of C-kinase such as polymyxin-B and 1-(5-Isoquinoline sulfonyl)-2-methylpiperazine dihydrochloride (H-7) also inhibited the stimulatory effect of C-kinase on adenylate cyclase activity. In addition, in the presence of GTP the stimulatory effects of C-kinase on basal and N-Ethylcarboxamide adenosine- (NECA-), dopamine-(DA) and forskolin- (FSK) sensitive adenylate cyclase activities were augmented. On the other hand, the inhibitory effect of high concentrations of GTP on enzyme activity was attenuated by C-kinase treatment. In addition, oxotremorine inhibited adenylate cyclase activity in a concentration dependent manner, with an apparent Ki of about 10 µM and C-kinase treatment almost completely abolished this inhibition. These data suggest that C-kinase may play an important role in the regulation of adenylate cyclase activity possibly by interacting with a guanine nucleotide regulatory protein.Abbreviations C-kinase Ca2– phospholipid-dependent protein kinase - NECA N-Ethylcarboxamide adenosine - DA Dopamine - FSK Forskolin - PMA Phorbol 12-(-Myristate), 13-Acetate, H-7, 1-(5-isoquinoline sulfonyl)-2-methylpiperazine dihydrochloride Presented in part at the VIth International Conference on Cyclic nucleotides, calcium and protein phosphorylation signal transduction in biological systems. September 2-6, 1986, Bethesda, MD (USA).M.B.A.-S. was Canadian Heart Foundation Scholar during the course of these studies.  相似文献   

13.
Liver plasma membranes isolated from hypophysectomized rats were treated with 0.1 M Lubrol-PX, a nonionic detergent, and centrifuged at 165,000 × g for 1 hour. Adenylate cyclase activity remaining in the supernate had a specific activity that was at least equal to that of the particulate enzyme. The activity of the solubilized, non-sedimentable adenylate cyclase, as well as the membrane bound enzyme, was increased by GTP, ITP, and GMP-PCP at 10?4 M. The activity of the solubilized, non-sedimentable enzyme increased linearly with GTP from 10?6 to 10?4 M but there was no further increase in the activity of the solubilized enzyme with 10?3 M GTP. In contrast, the particulate liver membrane enzyme activity increased exponentially with GTP from 10?6 to 10?4 M and was further increased by 10?3 M GTP. These data indicate that GTP, ITP or GMP-PCP have direct effects on solubilized adenylate cyclase. This effect is in addition to a role of nucleotides in modifying membrane structure (16).  相似文献   

14.
To test the hypothesis that guanine nucleotides activate adenylate cyclase by a covalent mechanism involving pyrophosphorylation of the enzyme, we studied the effect of a novel GTP analog, guanosine 5′, α-β-methylene triphosphate (Gp(CH2)pp), with a methylene bond in the α-β-position that is stable to enzymatic hydrolysis. Gp(CH2)pp was as effective as GTP in stimulating rat reticulocyte adenylate cyclase in the presence of isoproterenol. Previously only guanine nucleotides with modified terminal phosphates such as guanylyl 5′-imidodiphosphate (Gpp(NH)p) were thought capable of causing persistent activation of adenylate cyclase. Gp(CH2)pp, however, caused persistent activation of rat reticulocyte and turkey erythrocyte adenylate cyclase. We conclude that guanine nucleotides do not activate adenylate cyclase by a pyrophosphorylation mechanism and that a modified γ-phosphate is not essential in guanine nucleotides for generation of the irreversibly-activated enzyme state.  相似文献   

15.
Summary n-Alkanols (from methanol to decanol) have a biphasic effect on rat cardiac adenylate cyclase either basal or stimulated by GTP, GppNHp, NaF or hormones (isoproterenol, glucagon, secretin) in the presence of GTP. At high concentration, all the enzyme activities are inhibited. At low concentration, adenylate cyclase activity is either unchanged or potentiated depending on both the stimulus and the alkanols involved. Potentiation is due to an increase of maximum velocity with no change in the activation constant of the enzyme. Basal activity is unchanged as well as the isoproterenol-and glucagon-stimulated enzyme. The secretin-stimulated enzyme is potentiated. It is the guanyl nucleotide regulatory protein-mediated stimulation of adenylate cyclase which is mainly affected. An attempt was made to relate these effects on adenylate cyclase with physical parameters of the alkanols (partition coefficient). From the data obtained as a function of the alkanol chain-length and of temperature on the adenylate cyclase stimulated by GTP, GppNHp, NaF and permanently activated, it is concluded that the increase in efficacy observed in the presence of alkanol is due to an interaction with the protein moeity particularly with the guanyl nucleotide regulatory protein.  相似文献   

16.
The effect of vasoactive intestinal peptide (VIP) on prolactin (PRL) secretion from pituitary cells is reviewed and compared to the effect of thyrotropin releasing hormone (TRH). These two peptides induced different secretion profiles from parafused lactotrophs in culture. TRH was found to increase PRL secretion within 4 s and induced a biphasic secretion pattern, while VIP induced a monophasic secretion pattern after a lag time of 45–60 s.The secretion profiles are compared to changes in adenylate cyclase activity, production of inositol polyphosphates, changes in intracellular calcium concentrations and changes in electrophysiological properties of the cell membrane.Abbreviations AC adenylate cyclase - DG diacyglycerol - GH growth hormone - GTP guanosine trisphosphate - Gi GTP binding proteins that mediate inhibition of adenylate cyclase and that are pertussis toxin sensitive - Gs GTP binding protein that mediates stimulation of adenylate cyclase - GH cells clonal rat pituitary tumor cells producing PRL and/or growth hormone - GH3 GH4C1 and GH4B6 subclones of GH cells - PKA protein kinase A - PKC protein kinase C - PLC phospholipase C - PRL prolactin - TPA 12-O-tetradecanoyl phorbol 13-acetate - TRH thyrotropin releasing hormone - VIP vasoactive intestinal peptide  相似文献   

17.
Abstract: The conditions in which Leu5-enkephalin inhibition of striatal adenylate cyclase was observed were defined. It was determined that enkephalin inhibition was dependent on GTP. The apparent Km for GTP in opiate inhibition was determined to be 0.5 and 2 μM when 0.1 mM- and 0.5 mM-ATP were used as substrate. ITP, but not CTP or UTP, could substitute for GTP in the reaction. Though the addition of monovalent cations—Na+,K+, Li+, Cs+, and choline+—stimulated striatal adenylate cyclase activity, enkephalin inhibition of striatal adenylate cyclase did not require Na+ when theophylline was used as the phosphodiesterase inhibitor. Under optimal conditions, i.e., 20 μM-GTP and 100 mM-Na+, Leu5-enkephalin inhibited the striatal adenylate cyclase activity by 23–27%. When the enkephalin regulation of the cyclase activity was further characterized, it was observed that Leu5-enkephalin inhibited the rate of the enzymatic reaction. Kinetic analysis revealed that the opioid peptide decreases Vmax values but not the Km values for the substrates Mg2+ and Mg-ATP. Agents such as MnCl2, NaF, and guanyl-5′-ylimido-diphosphate, which directly activated the adenylate cyclase, antagonized the opiate inhibition. Levorphanol and (–)naloxone were more potent than dextrorphan and (+)naloxone in inhibiting adenylate cyclase and in reversing the enkephalin inhibition, respectively. There were differences in the potencies of various opiate peptides in their inhibition of striatal adenylate cyclase activity, with Met5- > Leu5-enkephalin > β-endorphin. The opiate receptor through which the enkephalin inhibition was observed is most likely δ in nature, since in the presence of either Na+ or K+, the magnitude of the alkaloid inhibition was reduced, whereas the peptide inhibition was either potentiated or not affected.  相似文献   

18.
In hamster adipocyte ghosts, ACTH and β-adrenergic agonists stimulate adenylate cyclase by a GTP-dependent process; in contrast, inhibition of the enzyme by hormonal factors requires both GTP and sodium ions. The interaction of various monovalent cations and guanine nucleotides was studied on basal, stimulated and inhibited adenylate cyclase activities. In the presence of GTP (0.03–10 μM), which reduced basal activity by up to 90%, monovalent cations (10–500 mM, added as chloride salts) increased the enzyme activity by up to about 8-fold. The potency order obtained was Na+>Li+>K+>choline. The stable GTP analogue, guanylyl-5′-imidodiphosphate, which like GTP was capable of decreasing basal activity, diminished the cation-induced activation. The stimulatory effects of ACTH and isoproterenol on adipocyte adenylate cyclase activity were impaired by the cations in the potency order, Na+>Li+>K+>choline. Additionally, NaCl shifted the concentration-response for ACTH to the right and caused an increase in the maximal activation by the hormone. Similar to basal activity, fluoride-stimulated activity was increased by NaCl, when GTP was present. The inhibitory effect of prostaglandin E1 on basal adipocyte adenylate cyclase activity was revealed by the cations in the above mentioned potency order by an apparent reversal of the cation-induced activation. In the presence of NaCl, the ACTH- or fluoride-stimulated activities were also reduced by prostaglandin E1, but the inhibitory hormonal factor did not reverse the NaCl-induced shift in the concentration-response curve for ACTH. Guanylyl-5′-imidodiphosphate completely prevented hormonal inhibition. The data suggest that monovalent cations interact with the guanine nucleotide-binding regulatory component of the adipocyte adenylate cylase system and that this interaction somehow changes the properties of this component, now revealing hormone-induced inhibition partially impairing hormone-induced stimulation.  相似文献   

19.
Summary The characteristics of the cholera toxin-stimulated adenylate cyclase of toad (Bufus marinus) and rat erythrocyte plasma membranes have been examined, with special emphasis on the response to purine nucleotides, fluoride, magnesium and catecholamine hormones. Toad erythrocytes briefly exposed to low concentrations of cholera toxin (40,000 to 60,000 molecules per cell) and incubated 2 to 4 hr at 30°C exhibit dramatic alterations in the kinetic and regulatory properties of adenylate cyclase. The approximateK m for ATP, Mg++ increases from about 1.8 to 3.4mm in the toxinstimulated enzyme. The stimulation by cholera toxin increases with increasing ATP, Mg++ concentrations, from 20% at low levels (0.2mm) to 500% at high concentrations (greater than 3mm). Addition of GTP, Mg++ (0.2mm) restores normal kinetic properties to the toxin-modified enzyme, such that stimulation is most simply explained by an elevation ofV max. GTP enhances the toxin-treated enzyme activity two-to fourfold at low ATP concentrations, but this effect disappears at high levels of the substrate. At 0.6mm ATP and 5mm MgCl2 the apparentK a for GTP, Mg++ is 5 to 10m. The control (unstimulated) enzyme demonstrates a very small response to the guanyl nucleotide. 5-ITP also stimulates the toxin-treated enzyme but cGMP, guanine, and the pyrimidine nucleotides have no effect. Cholera toxin also alters the activation of adenylate cyclase by free Mg++, decreasing the apparentK a from about 25 to 5mm. (–)-Epinephrine sensitizes the toad erythrocyte adenylate cyclase to GTP and also decreases the apparentK a for free metal. Sodium fluoride, which cause a 70- to 100-fold activation of enzyme activity, has little effect on sensitivity to GTP, and does not change the apparentK a for Mg++; moreover, it prevents modulation of these parameters by cholera toxin. Conversely, cholera toxin severely inhibits NaF activation, and in the presence of fluoride ion the usual three- to fivefold stimulation by toxin becomes a 30 to 60% inhibition of activity. The toxin-stimulated enzyme can be further activated by catecholamines; in the presence of GTP the (–)-epinephrine stimulation is enhanced by two- to threefold. The increased catecholamine stimulation of toad erythrocyte adenylate cyclase induced by cholera toxin is explained primarily by an increase in the maximal extent of activation by the hormones. Rat erythrocyte adenylate cyclase is also modified by cholera toxin. In the mammalian system the apparent affinity for the hormone appears to be increased. Cholera toxin thus induces profound and nearly permanent changes in adenylate cyclase by a unique process which mimics the stimulation by hormones in important ways, and which also accentuates the normal hormonal response. The relevance of these findings to the mechanism of action of cholera toxin is considered.Part of this work was reported at the 1974 meeting of the Federation of American Societies for Experimental Biology (Bennett & Cuatrecasas, 1974).  相似文献   

20.
The potentiation of corticotropin-releasing factor (CRF)-stimulated cAMP production by vasopressin (VP) in the pituitary cell was investigated by studies on the interaction of CRF, VP, and the protein kinase C activator, phorbol 12-myristate 13-acetate (PMA) on cAMP, adenylate cyclase and phosphodiesterase. Addition of VP or PMA (0.01-100 nM) alone did not alter cellular cAMP content, but markedly increased the effect of 10 nM CRF with ED50 of about 1 nM. Treatment of the cells with 200 ng/ml pertussis toxin for 4 h increased CRF-stimulated cAMP accumulation by 3.2-fold, an effect that was not additive to those of VP and PMA. Incubation of pituitary cells with 2 mM 1-methyl-3-isobutylxanthine increased CRF-stimulated cAMP accumulation and decreased the relative effect of VP and PMA, suggesting that the actions of VP and PMA are partially due to inhibition of phosphodiesterase. This was confirmed by the demonstration of a 30% inhibition of the low-affinity phosphodiesterase activity in cytosol and membranes prepared from cells preincubated with VP or PMA. In intact cells, following [3H]adenine prelabeling of endogenous ATP pools, measurement of adenylate cyclase in the presence of 1-methyl-3-isobutylxanthine showed no effect of VP and PMA alone, but did show a 2-fold potentiation of the effect of CRF. Measurement of adenylate cyclase in pituitary homogenates by conversion of [alpha-32P]ATP to [32P]cAMP showed a paradoxical GTP-dependent inhibition by VP of basal and CRF-stimulated adenylate cyclase activity, suggesting that the VP receptor is coupled to an inhibitory guanyl nucleotide-binding protein. Pertussis toxin pretreatment of the cells prevented the VP inhibition of adenylate cyclase activity observed in pituitary cell homogenates. These findings indicate that besides inhibition of phosphodiesterase, VP has a dual interaction with the pituitary adenylate cyclase system; a direct inhibitory effect, manifested only in broken cells, that is mediated by a receptor-coupled guanyl nucleotide-binding protein, and a physiologically predominant indirect stimulatory effect in the intact cell, mediated by protein kinase C phosphorylation of one of the components of the CRF-activated adenylate cyclase system.  相似文献   

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