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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The preparation of a partially purified plasma membrane fraction from bovine adrenal cortex is described. Adenylate cyclase in this particulate preparation retained high sensitivity to ACTH and is also stimulated by 5'-guanylyl-imidodiphosphate [Gpp(NH)p]. GTP, in contrast to Gpp(NH)p, had very little intrinsic activity to stimulate activity to stimulate
adenylate cyclase
. GTP could however, with high affinity, inhibit the Gpp(NH)p effects on
adenylate cyclase
. When the concentration of creatine phosphate, a component of the ATP-regenerating system in the
adenylate cyclase
assay mixture, was lowered from 20 to 2 mM (at 0.1 mM ATP, 5 MM MG2+) GTP, dGTP and other nucleotides like ITP and much less UTP or
CTP
gained considerable intrinsic activity in the presence of ACTH to stimulate
adenylate cyclase
. The apparent affinities of the nucleotides for ACTH-stimulated
adenylate cyclase
from bovine adrenal cortex (at 2 mM creatine phosphate) were, GTP = dGTP greater than Gpp(NH)p greater than Gpp(CH2)p (5'-guanylyl-beta, gamma-methylene-diphosphonate) greater than ITP greater than UTP greater than
CTP
. These findings indicate that regulatory nucleotide binding sites exist for bovine adrenal cortex
adenylate cyclase
. Their specificity is similar to the nucleotide sites modulating angiotensin binding in bovine adrenal cortex plasma membranes (Glossmann et al., 1974a). The regulatory nucleotide binding sites for the adrenal cortex
adenylate cyclase
complex can also be identified under conditions where only Gpp(NH)p has high intrinsic activity (e.g. at 20 mM creatine phosphate) but other nucleotides like GTP act as antagonists. Both stimulants, ACTH and Gpp(NH)p, appear to remain firmly bound to the particulate membrane preparation, as suggested by preincubation experiments.
...
PMID:Bovine adrenal cortex adenylate cyclase: properties of the particulate enzyme and effects of guanyl nucleotides. 17 90
The prostaglandin endoperoxide prostaglandin H2 (15-hydroxy-9alpha, 11alpha-peroxidoprosta-5,13-dienoic acid) inhibits basal and hormone-stimulated
adenylate cyclase
in fat cell ghosts. This inhibition by prostaglandin H2 has been found to be antagonized by GTP and Gpp(NH)p. Dose response studies have shown GTP and Gpp(nh)p to be maximally effective at 3.3 muM, the lowest concentration tested. Although the system is exceedingly sensitive to modulation by GTP or Gpp(NH)p UTP,
CTP
, GMP, and cyclic GMP did not antagonize the antihormone activity of prostaglandin H2. Kinetic studies indicate that the GTP or Gpp(NH)p antagonism of prostaglandin H2 is observable on initial rates of cyclic AMP synthesis, and persists throughout the
adenylate cyclase
measurements. Preincubation of fat cell ghosts with GTP followed by washing and resuspension results in a prostaglandin H2-sensitive
adenylate cyclase
system. However, the same preincubation experiment with Gpp(NH)p produces an irreversible antagonism of the prostaglandin H2 inhibition of hormone-stimulated
adenylate cyclase
. It is suggested that prostaglandin H2 stabilizes the fat cell
adenylate cyclase
system in a state that is resistant to hormone stimulation, and GTP or Gpp(NH)p overcome this stabilization.
...
PMID:Antagonism of the prostaglandin endoperoxide imhibition of hormone-stimulated adenylate cyclase by guanosine triphosphate and 5'-guanylyl-imidodiphosphate. 18 30
Determination of specific GTPase (EC 3.6.1.--) activity in turkey erythrocyte membranes was achieved using low concentration of GTP (0.25 muM), inhibition of nonspecific nucleoside triphosphatases by adenosine 5'(beta,gamma-imino-triphosphate (App(NH)p) and suppression of the transfer of gamma-32P from GTP to ADP with an ATP regeneration system. Under these conditions catacholamines caused a 30--70% increase in GTP hydrolysis. The stimulation of GTPase activity by catecholamines required the presence of Mg2+ or Mn2+. DIfferent batches of membranes revealed the following specific activities (pmol 32Pi/mg protein min): basal GTPase (determined in the absence of catecholamine), 6-- 11; catecholamine-stimulated TTPase, 3--7; and residual non-specific NTPase 3--5. The stimulation of GTPase activity by catecholamines fulfilled the stereospecific requirements of the beta-adrenergic receptor, and was inhibited by propranolol. The concentrations of DL-isoproterenol which half-maximally activated the GTPase and
adenylate cyclase
were 1 and 1.2 muM, respectively. The following findings indicate that the catecholamine-stimulated GTPase is independent of the catalytic production of cyclic AMP by the
adenylate cyclase
. Addition of cyclic AMP to the GTPase assay did not change the rate of GTP hydrolysis. Furthermore, treatment of the membrane with N-ethylmaleimide (MalNEt) at 0 degrees C which caused 98% inhibition of the
adenylate cyclase
, had no effect on the catecholamine-stimulated GTPase. The affinity and specificity for GTP in the GTPase reactions are similar to those previously reported for the stimulation of the
adenylate cyclase
. The apparent Km for GTP in the basal and the catecholamine-stimulated GTPase reaction was 0.1 muM. These GTPase activities were inhibited by ITP but not by
CTP
and UTP. It is proposed that a catecholamine-stimulated GTPase is a component of the turkey erythrocyte
adenylate cyclase
system.
...
PMID:Catecholamine-stimulated GTPase activity in turkey erythrocyte membranes. 18 66
1. Adenylate cyclase in plasma membranes from rat liver was stimulated by prostaglandin E1, and to a lesser extent by prostaglandin E2. Prostaglandin F1alpha and A1 did not stimulate the cyclase. The prostaglandin E1-mediated activation was found to require GTP when the substrate ATP concentration was reduced from 3 mM to 0.3 mM in the reaction mixture. Adenylate cyclase of the plasma membranes from rat ascites hepatomas AH-130 and AH-7974 was not stimulated by prostaglandin E1 in the presence or the absence of GTP, although the basal activity of
adenylate cyclase
as well as its stimulation by GTP alone were similar to normal liver plasma membranes. 2. Liver plasma membranes were found to have two specific binders for [3H] prostaglandin E1 with dissociation constants of 17.6-10(-9) M and 13.6-10(8) M (37 degrees C) and one specific binder for [3H]prostaglandin F2alpha with a dissociation constant of 2.31-10(8) M (37 degrees C). The specific binders for prostaglandin E1 could not be detected in the hepatoma plasma membranes. 3. Binding of [3H] prostaglandin E1 to the liver plasma membranes was exchange by, GTP dGPT, GDP, ATP and GMP-P(N)P, but not by GMP, CGMP, DTTP, UTP or
CTP
. The increase in the binding of [3H] prostaglandin E1 was found to be due to the increased affinity of the specific binders to prostaglandin F2alpha was not affected by GTP. 4. GTP alone was found to increase V of
adenylate cyclase
of liver plasma membranes, while GTP plus prostaglandin E1 was found to decrease Km of
adenylate cyclase
in addition to the increase of V to a further extent.
...
PMID:Prostaglandin receptor-adenylate cyclase system in plasma membranes of rat liver and ascites hepatomas, and the effect of GTP upon it. 18 13
Treatment of cultured normal rat kidney cells with virazole or mycophenolic acid which are inhibitors of IMP dehydrogenase decreases by 50 to 70% the ability of prostaglandin E1 or isoproterenol to elevate cAMP levels. Inhibition is maximal by 2 h. The response to cholera toxin is not significantly decreased. Basal cAMP is not affected. Under these conditions, GTP is decreased by 80%, ATP is only 10 to 15% decreased, and UTP and
CTP
are slightly increased. Normal GTP levels and the responses to prostaglandin E1 and isoproterenol are restored if guanosine, but not inosine, is added with the inhibitor. The response to isoproterenol is recovered within 5 min after removal of mycophenolic acid. Desensitization to prostaglandin E1 or isoproterenol stimulation occurs under conditions where GTP is 80% decreased. These results in intact cells provide direct evidence for a role for GTP in the activation of
adenylate cyclase
and support previous conclusions from studies with cell homogenates.
...
PMID:Evidence in intact cells for an involvement of GTP in the activation of adenylate cyclase. 21 45
ATP increases microtubule steady state assembly and disassembly rates in vitro in a concentration-dependent manner. Bovine brain microtubules, composed of 75% tubulin and 25% high molecular weight microtubule-associated proteins (MAPs), were purified by three cycles of assembly and disassembly in the absence of ATP. When assembled to steady state, these microtubules add dimers at one end and lose them at the other in a unidirectional assembly-disassembly process. In the presence of 1.0 mM ATP the unidirectional flow of tubulin from one end of the microtubules to the other increases as much as 20 fold, as revealed by loss of 3H-GTP from uniformly labeled microtubules under GTP chase conditions and by the rate of disassembly following addition of 50 microM podophyllotoxin. UTP,
CTP
and 5' adenylylimidodiphosphate (AMP-PNP) cannot substitute for ATP in producing this effect. Furthermore, the increase in steady state flow rate persists afer ATP is removed. Thus microtubules assembled in ATP and centrifuged through sucrose cushions to separate them from nucleotides continue to exhibit increased rates in the next assembly cycle in the absence of ATP. It is possible that an ATP-dependent microtubule protein kinase is responsible for the observed increase in tubulin flow rate. A kinase activity associated with brain MAPs has been reported to be cAMP-dependent (Sloboda et al., 1975). We have found an
adenylate cyclase
activity associated with these microtubules. Whether the
adenylate cyclase
is a contaminant or due to a specific microtubules-associated protein, and whether its activity is functionally linked to the increased rate of assembly and disassembly in the presence of ATP, remain to be determined.
...
PMID:Regulation of the microtubule steady state in vitro by ATP. 22 60
Inhibition of the
adenylate cyclase
activity in homogenates of mouse neuroblastoma-glioma hybrid cells (NG108-15) by the opioid peptide [D-Ala2,Met5]enkephalin amide (AMEA) requires the presence of Na+ and GTP. In this process, the selectivity for monovalent cations is Na+ greater than or equal Li+ greater than K+ greater than choline+; ITP will replace GTP but ATP, UTP, or
CTP
will not. The apparent Km for Na+ is 20 mM and for GTP it is 1 microM. Under saturating Na+ and GTP conditions, the apparent Ki for AMEA-directed inhibition is 20 nM for basal and 100 nM for prostaglandin E1-activated
adenylate cyclase
activity. For both cyclase activities, maximal inhibition is only partial (i.e., approximately 55% of control in each case). In intact viable NG108-15 cells, the decrease in basal and prostaglandin E1-stimulated intracellular cyclic AMP concentrations by AMEA is also dependent upon extracellular Na+. The enkephalin-directed reductions in cyclic AMP concentrations are at least 75%. The specificity of the monovalent cation requirement for enkephalin action on intact cells is the same as for enkephalin regulation of homogenate
adenylate cyclase
activity. Based on these data, a model is presented in which the transfer of information from opiate receptors to
adenylate cyclase
requires active separate membrane components, which correspond to the sites of action of Na+ and GTP in this process.
...
PMID:Coupling of opiate receptors to adenylate cyclase: requirement for Na+ and GTP. 23 Apr 86
Cholinergic agonists inhibit the basal and PGE1-activated
adenylate cyclase
activity in membranes isolated from the mouse neuroblastoma x glioma hybrid cell NG108-15. Inhibition is observed with acetylcholine, acetyl-beta-methylcholine and carbachol and is blocked by two specific muscarinic antagonists, atropine and quinuclydinylbenzilate. Inhibition of basal and PGE1-activated activity is only partial. Carbachol-directed inhibition has an apparent Km of 6 microM in the presence or absence of PGE1. Both the guanine nucleotide GTP and the monovalent cation Na+ are required for this muscarinic inhibition of basal and PGE1-activated NG108-15
adenylate cyclase
. The selectivity observed for monovalent cations (all chloride salts) in this process is Na+ congruent to Li+ greater than K+ greater than Choline+ with the ED50 for Na+ congruent 40 microM. Of the nucleotides tested, only IT (and not ATP, UTP or
CTP
) replaces GTP in this process. GTP at 10 microM represents a saturating nucleotide concentration. Opiate-directed inhibition of NG108-15
adenylate cyclase
has recently been shown to exhibit a similar requirement for GTP and Na+ [Blume, A. J., Lichtshtein, D. and Boone, G. (1979) Proc. National Academy of Sciences, USA, in press]. The data presented here therefore support the hypothesis that the general transfer of inhibitory information from membrane receptors to
adenylate cyclase
involves both a Na+ and GTP-sensitive process.
...
PMID:Muscarinic receptor regulation of NG108-15 adenylate cyclase: requirement for Na+ and GTP. 52 45
These studies examined the structural specificity for guanine nucleotide-facilitated hormonal activation and guanine nucleotide stabilization of cardiac
adenylate cyclase
. 1. The phosphonate analogues of GTP, p[CH(2)]ppG (guanosine 5'-[betagamma-methylene]-triphosphate) and pp[CH(2)]pG (guanosine 5'-[alphabeta-methylene]triphosphate), were the most effective activators of
adenylate cyclase
. Other nucleotides producing significant activation (P<0.01) were, in decreasing order of activation: ITP, GDP, GMP, GTP, XTP,
CTP
, p[NH]ppG (guanosine 5'-[betagamma-imido]triphosphate), dGTP and 2'-O-methyl-GTP. Guanosine, cyclic GMP, UTP and ppppG (guanosine tetraphosphate) had no effect, and 7-methyl-GTP caused a decrease in the activity. 2. Preincubation of membranes at 37 degrees C for 15min before assay at 24 degrees C produced an 80% decrease in
adenylate cyclase
activity, and preincubation with p[CH(2)]ppG and pp[CH(2)]pG protected and resulted in a net increase in activity. Other nucleotides that completely or partially preserved activity in decreasing order of effectiveness were p[NH]ppG, GDP, GTP, dGTP, ITP, ppppG, 2'-O-methyl-GTP, GMP,
CTP
and XTP. Several compounds had no effect, including guanosine, cyclic GMP and UTP, whereas preincubation with 7-methyl-GTP produced a further decrease (P<0.05) in activity. 3. The concentration-dependence for activation and stabilization by the naturally occurring guanine nucleotides was examined in the absence of a regenerating system and revealed GMP to have no stabilizing effect and to be less potent than either GDP or GTP in activating
adenylate cyclase
. 4. A significant correlation (r=0.90) was found between the properties of activation and stabilization for the compounds examined. These findings are consistent with there being a single nucleotide site through which both the activation and stabilization of
adenylate cyclase
are mediated.
...
PMID:Specificity for guanine nucleotide activation and stabilization of rabbit cardiac adenylate cyclase. 54 33
The activation of
adenylate cyclase
by NaF was dependent on the previous incubation time and the concentration of F-. The activation by F- was irreversible and Mg2+ was required for the maximum effect. Turbidity of microsome suspension was also greatly increased by F- plus Mg2+. These effects on
adenylate cyclase
and membrane turbidity were specific for F- and F- saturation curves for both were similar, though Mg2+-saturation curves for both were dissimilar. The increase in turbidity induced by F- plus Mg2+ was rapidly reversed by ATP, GTP, ITP, UTP and
CTP
. However, ITP only, among all the triphospho-nucleotides tested, reversed the activity of
adenylate cyclase
previously activated by NaF plus MgC12. The activity of the enzyme reversed by ITP was not, however, re-enhanced by the presence of NaF in the assay medium. These results suggest the possiblity that F- induces a change in the membrane structure itself, and this change can be reversed by incubation with ITP. Consequently,
adenylate cyclase
may be conformed either to an activated or an unactivated state.
...
PMID:F-induced changes and its reversal by ITP in membrane turbidity and adenylate cyclase activity of chick brain microsomes. 94 Feb 28
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