Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

An adenylate cyclase [ATP pyrophosphatelyase (cyclizing), EC 4.6.1.1] preparation that is not stimulated by NaF,5'-guanylyl imidodiphosphate, or Ca2+.calmodulin has been isolated from bovine cerebral cortex by Affi-Gel Blue chromatography and calmodulin-Sepharose chromatography. Sensitivity to these effectors was restored by incubation of the adenylate cyclase preparation with detergent-solubilized protein from bovine cerebral cortex. Reconstitution of of Ca2+.calmodulin activation required the presence of 5'-guanylyl imidodiphosphate. The factor required for restoration of Ca2+.calmodulin stimulation was sensitive to heat, trypsin digestion, and N-ethylmaleimide. These observations suggest that this adenylate cyclase activity requires the presence of one or more guanyl nucleotide binding subunits for calmodulin sensitivity.
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PMID:Evidence for a dissociable protein subunit required for calmodulin stimulation of brain adenylate cyclase. 29 63

GTP and hormones activate, synergistically, adenylate cyclase in purified plasma membranes from rat adipocytes. Addition of chelating reagents (EDTA or ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid) or thiol-reducing reagents (dithiothreitol or 2-mercaptoethanol) results in marked inhibition of enzyme activity without altering the synergistic stimulatory effects of GTP and hormones. The inhibitory effects of the reagents required the presence of GTP, indicating that inhibition involves a GTP-dependent process. This process is separate from the GTP-dependent process responsible for activation of the enzyme since it is selectively abolished by pretreatment of fat cell membranes with trypsin. It is suggested that inhibition and activation of fat cell adenylate cyclase by GTP occur through distinct regulatory processes.
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PMID:GTP stimulates and inhibits adenylate cyclase in fat cell membranes through distinct regulatory processes. 41 Aug 10

Basal adenylate cyclase activity in rat lung homogenate was low prenatally but increased several-fold after birth and remained elevated to maturity. The results also demonstrate the appearance of some factor(s) in the lung cytoplasm at a certain age which markedly activated adenylate cyclase. During late gestation and early neonatal life, when the cytoplasmic factor(s) was low or absent, basal adenylate cyclase activity was low and norepinephrine and NaF produced maximum activation of the enzyme. However, when the cytoplasmic factor(s) appeared in the adult lungs, basal adenylate cyclase activity was elevated and both norepinephrine and NaF produced little or no activation of the enzyme. These data suggest a role for the cytoplasmic factor(s) in regulating rat lung adenylate cyclase. The cytoplasmic factor(s) appeared to be a protein since it was inactivated by trypsin digestion and by heating to 75 degrees C. Activation of adenylate cyclase was not due to small ions or other low molecular weight components of the cytoplasm as dialysis of the supernatant did not alter its activation of adenylate cyclase. The cytoplasmic factor(s) did not appear to be either GTP or calcium-dependent regulator of cyclic AMP phosphodiesterase as these did not activate the rat lung adenylate cyclase.
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PMID:Regulation of rat lung adenylate cyclase by cytoplasmic factor(s) during development. 44 79

Adenylate cyclase was solubilized from rat brain particulate fraction with the nonionic detergent, Nonidet P-40. Incubation of detergent-solubilized adenylate cyclase with liposomes prepared from egg yolk phosphatidylcholine results in virtually quantitative incorporation of the enzyme activity into phospholipid vesicles. Incorporation of adenylate cyclase into liposomes results in an approximately 10- to 20-fold purification relative to the solubilized preparation giving a final specific activity of about 50 nmol of cAMP min-1 mg-1. The detergent-solubilized adenylate cyclase migrates as a broad band between 14 and 33% sucrose on density gradient centrifugation, separated from the endogenous phospholipid. Following overnight incubation of the solubilized enzyme with exogenous phospholipid, all enzyme activity is found in a narrow band between 7 and 9% sucrose, co-migrating with the phospholipid. The adenylate cyclase could not be released from the liposomes by extraction with high ionic strength, low ionic strength-EDTA, or sonication. Treatment of liposomal adenylates cyclase with soluble proteases or immobilized trypsin destroys enzyme activity. Thus, it is likely that a functionally important part of the enzyme molecule is exposed on the outer surface of the liposome. Optimal conditions for the incorporation of adenylate cyclase into liposomes, and some effects of manipulating the phospholipid composition on enzyme activity are reported.
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PMID:Incorporation of rat brain adenylate cyclase into artificial phospholipid vesicles. 48 8

Some of the effects of native bovine parathyroid hormone and of the synthetic aminoterminal 1-34 fragment on the adenylate cyclase activity of human fat cell ghosts were studied. Saturating concentrations of both hormone preparations caused a significant increase of enzyme activity by about 200-300%. Guanosine 5'-triphosphate (0.1 mM) inhibited basal enzyme activity but had no substantial effect on parathyroid hormone-stimulated enzyme activity. The guanosine 5'-triphosphate analogue, 5'-guanylyl-imidodiphosphate, produced about a threefold enhancement of basal and parathyroid hormone-stimulated enzyme activities under standard conditions (5 mM Mg+2, 1mM ATP, pH 8.0, 30 degrees C). Activation by parathyroid hormone was not influenced by beta-adrenergic blockade in contrast to stimulation by epinephrine. The sensitivity of the enzyme system to the native and the synthetic parathyroid hormone was, however, abolished after pretreatment of the fat cells with trypsin (1 mg/ml). The stimulatory effects of epinephrine and NaF were not affected by pretreatment with trypsin. The results suggest that human fat cells, like rat adipocytes, contain a multireceptor-coupled adenylate cyclase.
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PMID:Adenylate cyclase of human fat cell ghosts. Stimulation of enzyme activity by parathyroid hormone. 55 1

The effects of epinephrine and NaF on the membrane preparations of adenylate cyclase from rabbit heart were studied. After preincubation with epinephrine or NaF at 37 degrees C and subsequent washing of the membranes at 4 degrees C from the effectors, adenylate cyclase passes into the activated state and loses its sensitivity to epinephrine and NaF. The effect may be "reversed" by preincubation of the membranes at 37 degrees C. The addition of ATP to the preincubation media does not affect the regulatory and catalytic properties of the enzyme. It is assumed that adenylate cyclase regulation by hormones and fluoride ions may occur without hypothetical processes of phosphorylation and dephosphorylation of the enzyme. The effect of preincubation is probably due to the temperature-dependent association and dissociation of the enzyme-receptor complex in the membrane. Epinephrine and NaF partially protect the cyclase against trypsin-induced inactivation, which is indicative of structural or conformational changes of the adenylate cyclase complex during its interaction with activators.
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PMID:[Mechanisms of heart adenylate cyclase activation by epinephrine and fluoride ions]. 58 34

Adenylate cyclase activity measured in membranes of cultured normal rat kidney (NRK) fibroblasts was markedly increased by prior treatment of the intact cells with trypsin. Cell population density influenced the extent of activation observed. Trypsin treatment of sparse cells significantly enhanced adenylate cyclase activity, whereas similar treatment of confluent cells caused only a slight increase in adenylate cyclase activity. The degree of activation noted after trypsin treatment also varied depending on the adenylate cyclase function measured. Activity determined in the presence of GTP alone showed the greatest increase after trypsin treatment. Similar enhancement of adenylate cyclase activity of a washed cell membrane preparation was achieved by the addition of low concentrations of trypsin directly to the adenylate cyclase reaction mixture. The membranes of confluent NRK fibroblasts initially exhibited higher adenylate cyclase activity than did membranes of sparse cells. The present results suggest that this change in adenylate cyclase activity at cell confluence is not due to an increase in the amount of adenylate cyclase in the cell membrane but rather to a change in membrane components that regulate its activity. Proteolytic activation of adenylate cyclase appears to result from degradation of cell membrane proteins that modulate the activity of this enzyme.
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PMID:Activation of adenylate cyclase in cultured fibroblasts by trypsin. 61 59

The role of cytosol components in the loss of rat liver adenylate cyclase activity which occurs during the preparation of particulate fractions from crude homogenates was studied. Epinephrine (5 micron)-, glucagon (10 micron)-, and fluoride (5 mM)- stimulated activities of twice-washed particulates were 31%, 58% and 67% of the homogenate activities, respectively. Addition of cytosol (100,000 X g supernatant devoid of adenylate cyclase activity) restored these activities to 82%, 88% and 80%. Cytosol also increased particulate basal activity from 60% of homogenate activity to 98%. The cytosol components capable of increasing adenylate cyclase activity were heat labile, nondialyzable, stable to freezing at -20 degrees, resistant to change of pH between 2 and 12, and unaffected by EGTA and NAD. Pretreatment with pepsin destroyed the effects of cytosol on both epinephrine- and glucagon-sensitive activities, whereas trypsin destroyed the effect of cytosol only on epinephrine-sensitive activity. The cytosol effect on adenylate cyclase was specific, since several purified proteins and ubiquitin, did not stimulate enzyme activity. Only part of the cytosol effect could be attributed to its GTP content. GTP at the concentration present in cytosol stimulated epinephrine-sensitive activity but significantly less than did cytosol, while GTP had no effect on glucagon-sensitive activity. Dialyzed cytosol retained its effectiveness even after removal of most (97%) of its GTP to a concentration where GTP had only a minimal effect on epinephrine-sensitive activity. Cytosol, unlike GTP, stimulated rather than inhibited activation by fluoride. Cytosol thus appears to contain at least two different protein components, which increase the activity of the two hormone-sensitive adenylate cyclases and presumably account in part for losses of adenylate cyclase activities seen during the preparation of particulates from homogenates.
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PMID:Activation of epinephrine and glucagon-sensitive adenylate cyclases of rat liver by cytosol protein factors. Role in loss of enzyme activities during preparation of particulate fractions, quantitation and partial characterization. 72 79

The cytosolic fraction from rat liver enhanced the basal and glucagon-sensitive adenylate cyclase (EC 4.6.1.1) of hepatic plasma membranes and revealed its (R)-(-)-epinephrine sensitivity. Such phenomena were usually obtained by the addition of low concentrations of GTP to the medium employed for the cyclase assay. Comparative studies of the behavior of the cytosolic factor and GTP in response to various treatments were performed. We present evidence that the stimulatory activity of the soluble factor was reduced after treatment by alkaline phosphatase, by the nucleotide phosphohydrolases present in the plasma membranes, and by trypsin. These results strongly suggest that the soluble activator is a nucleotide-protein complex and further demonstrate that GTP may be of physiological significance in the regulation of the adenylate cyclase system.
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PMID:Activation of epinephrine-sensitive adenylate cyclase in rat liver by cytosolic protein-nucleotide complex. 85 3

Adenylate cyclase activity in a Lubrol 12A9 extract of wild type S49 lymphoma plasma membranes is completely inactivated by incubation at 37 degrees for 20 min. Activity is restored by mixing this heated extract of wild type membranes with an unheated detergent extract of membranes from a variant clone that lacks measureable adenylate cyclase activity (AC-). The factor(s) donated by the AC- extract is labile to heating at 30 degrees (t1/2 = 3 min) or to treatment with N-ethylmaleimide or trypsin. The factor(s) donated by the heated wild type extract is also sensitive to proteases or N-ethylmaleimide. This extract displays more complex inactivation kinetics at 50 degrees, consistent with the existence of separate factors necessary for the stimulatory effects of NaF and guanyl-5'-yl-imidodiphosphate. We suggest that at least two proteins are necessary for adenylate cyclase activity and that one of these is retained in the phenotypically adenylate cyclase-deficient variant.
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PMID:Resolution of some components of adenylate cyclase necessary for catalytic activity. 90 46


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