Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Retro-orbital tissue membranes have been shown to have adenylate cyclase activity which can be stimulated by thyrotropin and by an exophthalmogenic factor derived from the thyrotropin molecule by partial pepsin digestion. This stimulable activity is maximal after 15 min and is optimal in the presence of 3 mM magnesium and 1.5 mM ATP. Calcium salts are exquisitely inhibitory to the hormonal stimulation; sodium, lithium, and ammonium salts are significantly less inhibitory. Thyrotropin and the exophthalmogenic factor induce similar maximal levels of stimulation but a 4- to 5-fold higher concentration of exophthalmogenic factor is required to achieve this level. Fluoride stimulates adenylate cyclase activity 2- to 3-fold higher than either thyrotropin or the exophthalmogenic factor; thyrotropin, luteinizing hormone, the beta subunit of thyrotropin, and the alpha subunit of thyrotropin have relative activities for stimulation of cyclase activity of 100:2:2 less than 0.5. Several other polypeptide and glycoprotein hormones have no effect. The gamma-globulin from patients with malignant exophthalmos has no significant effect on cyclase activity either alone or in the presence of maximal levels of thyrotropin or the exophthalmogenic factor; this gamma-globulin does, however, stimulate cyclase activity at submaximal hormone levels. Trypsin not only destroys the hormone-stimulable adenylate cyclase activity on retro-orbital tissue plasma membranes, but also destroys it on the 15,000 to 30,000 molecular weight receptor fragment released from the membranes by the tryptic action.
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PMID:Stimulation of adenylate cyclase activity in retro-orbital tissue membranes by thyrotropin and an exophthalmogenic factor derived from thyrotropin. 5 Oct 22

Soluble adenylate cyclase [EC 4.6.1.1] accumulates in the culture medium of exponentially growing Bordetella pertussis (300-900 pmol of cAMP formed/min per ml of 24 hr culture supernatant). In addition, there is an extracytoplasmic adenylate cyclase which enables the intact organisms to form [32P] cAMP (adenosine 3':5'-cyclic monophosphate) from exogenous [alpha-32P] ATP (200-1200 nmol of cAMP formed/min per g wet weight of cells) and which comprises 20-45% of the total adenylate cyclase activity. In contrast, only 1.7 and 2.4% of the total cell malate dehydrogenase [EC 1.1.1.37] and alkaline phosphatase [EC 3.1.3.1], respectively, are detectable in the intact cell. Trypsin treatment of intact organisms destroys 96% of the extracytoplasmic adenylate cyclase, but does not reduce the total cell malate dehydrogenase or a small pool of intracellular adenylate cyclase. Four compartments of adenylate cyclase in B. pertussis are proposed; (A) soluble enzyme in the culture supernatant (up to 20% of the total activity); (B) enzyme associated with intact cells and measurable without cell disruption (20-45%); (C) extracytoplasmic enzyme sensitive to trypsin, but not measurable in intact cells at standard substrate concentrations (40-60%); and (D) intracellular enzyme (7-9%). In comparison with previously studied bacterial adenylate cyclases, the extracytoplasmic location appears to be unique to the B. pertussis enzyme.
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PMID:Extracytoplasmic adenylate cyclase of Bordetella pertussis. 18 May 29

Trypsin increases intracellular levels of cylic AMP (cAMP) in lymphocytes. The trypsin-induced increase in cAMP is blocked by specific trypsin inhibitors and by high concentrations of different proteins. Several proteolytic enzymes from various sources, including other pancreatic proteases, do not cause an increase in cAMP under the same experimental conditions. Immobilized trypsin induced the same increase in cAMP as does free trypsin. The trypsin-induced rise in cAMP is not due to inhibition of cAMP phosphodiesterase, but consistent activation of adenylate cyclase by trypsin could not be demonstrated. The extent of the trypsin-induced increase in intracellular cAMP correlates with the type of the lymphocyte and with the state of maturity attained by the cells. Transformed lymphocytes and nonlymphoid cells do not react at all.
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PMID:Trypsin-induced increase in intracellular cyclic AMP of lymphocytes. 18 38

The mechanism of activation of adenylate cyclase by guanylyl-5'-imidodiphosphate [Gpp(NH)p] and NaF has been investigated by studying the reconstitution of Gpp(NH)p and NaF sensitivity of an enzyme rendered insensitive to these agents by differential detergent extraction of a particulate brain enzyme. Such reconstitution can be achieved by the addition of macromolecular regulatory factors from membranes of various tissues. Trypsin digestion and thermal inactivation provide evidence for the existence of two distinct regulatory functions, one capable of restoring the Gpp(NH)p response and another the NaF response. The regulatory protein(s) seem to interact with their respective activators in an easily reversible, divalent cation-independent reaction. This appears to be followed by a high-affinity interaction between the catalytic and regulatory components of adenylate cyclase in a slow, temperature-dependent, divalent cation-dependent process tha produces the persistently activated state of the enzyme. The enzyme activation can be reversed by methods that separate catalytic from regulatory components and the resulting enzyme activity can be restimulated by the reconstitution technique.
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PMID:Properties of the interaction of fluoride- and guanylyl-5'-imidodiphosphate-regulatory proteins with adenylate cyclase. 27 84

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

Adenylate cyclase activity of a rat embryo fibroblast cell line (F111) is markedly increased by brief treatment with 1:300 trypsin. The degree of stimulation depends upon the length of time the cells are treated and the concentration of trypsin. Crystalline trypsin produced a stimulation similar to that obtained with 1:300 trypsin. Further, the addition of soybean trypsin inhibitor blocked the stimulation of adenylate cyclase by 1:300 trypsin. Trypsin-treated adenylate cyclase responds to PGE1, but there is no increase over that of untreated enzyme. This result and the increase in fluoride-stimulated levels of activity suggest that the trypsin is acting upon the catalytic unit of the enzyme.
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PMID:Adenylate cyclase stimulation by trypsin. 120 92

A truncated Bordetella pertussis cya gene product was expressed in Escherichia coli and purified by affinity chromatography on calmodulin-agarose. Trypsin cleavage of the 432-residue recombinant protein (Mr = 46,659) generated two fragments of 28 kDa and 19 kDa. These fragments, each containing a single Trp residue, were purified and analyzed for their catalytic and calmodulin-binding properties. The 28-kDa peptide, corresponding to the N-terminal domain of the recombinant adenylate cyclase, exhibited very low catalytic activity, and was still able to bind calmodulin weakly, as evidenced by using a fluorescent derivative of the activator protein. The 19-kDa peptide, corresponding to the C-terminal domain of the recombinant adenylate cyclase, interacted only with calmodulin as indicated by a shift in its intrinsic fluorescence emission spectrum or by the enhancement of fluorescence of dansyl-calmodulin. T28 and T19 fragments exhibited an increased sensitivity to denaturation by urea as compared to uncleaved adenylate cyclase, suggesting that interactive contacts between ordered portions of T28 and T19 in the intact protein participate both in their own stabilization and in stabilization of the whole tertiary structure. The two fragments reassociated into a highly active calmodulin-dependent species. Reassociation was enhanced by calmodulin itself, which 'trapped' the two complementary peptides into a stable, native-like, ternary complex, which shows similar catalytic properties to intact adenylate cyclase.
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PMID:Isolation and characterization of catalytic and calmodulin-binding domains of Bordetella pertussis adenylate cyclase. 200 7

A truncated, 432 residue long, Bordetella pertussis adenylate cyclase expressed in Escherichia coli was analyzed for intrinsic fluorescence properties. The two tryptophans (Trp69 and Trp242) of adenylate cyclase, each situated in close proximity to residues important for catalysis or binding of calmodulin (CaM), produced overlapping fluorescence emission bands upon excitation at 295 nm. CaM, alone or in association with low concentrations of urea, induced important modifications in the spectra of adenylate cyclase such as shifts of the maxima and change in the shape of the bands. From these changes and from the fluorescence spectrum of a modified form of adenylate cyclase, in which a valine residue was substituted for Trp242, it was deduced that, upon binding of CaM to the wild-type adenylate cyclase, only the environment of Trp242 was affected. The fluorescence maximum of this residue, which is more exposed to the solvent than Trp69 in the absence of CaM, is shifted by 13 nm to shorter wavelength upon interaction of protein with its activator. Trypsin cleaved adenylate cyclase into two fragments, one carrying the catalytic domain, and the second carrying the CaM-binding domain (Ladant et al., 1989). The isolated peptides conserved most of the environment around their single tryptophan residues, as in the intact adenylate cyclase, which suggests that the two domains of truncated B. pertussis adenylate cyclase also conserved most of their three-dimensional structure in the isolated forms.
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PMID:Intrinsic fluorescence of a truncated Bordetella pertussis adenylate cyclase expressed in Escherichia coli. 226 68

I have shown that cyclic AMP stimulates sugar uptake in rat thymocytes. However, trypsin treatment, which increases rat thymocyte cyclic AMP concentration, fails to increase sugar uptake. The purpose of the present study is to examine this seeming inconsistency, and to evaluate further the function of trypsin. Mild trypsin treatment of rat thymocytes produced a dose-related increase in cellular cyclic AMP concentration. Trypsin produced the same proportionate increase in cyclic AMP concentration in the presence or absence of optimal concentrations of the phosphodiesterase inhibitor 3-isobutyl-l-methylxanthine, which suggests that trypsin acts to increase thymocyte cyclic AMP concentration by stimulating adenylate cyclase activity. Trypsin at concentrations of 0.3 mg/ml and less had no effect on the uptake of the glucose analogue 2-deoxy-D-glucose (2-DG), whereas at concentrations of 1 mg/ml and higher trypsin produced a small, dose-related, decrease in basal 2-DG uptake, becoming significantly lower than control values only at 5 mg/ml (-22.7%, P less than 0.05). Thymocyte sugar transporters, characterized by means of cytochalasin B binding, consist of a single class of sites with an apparent KD of 0.15 microM and maximum binding capacity of 2.73 pmol/20 x 10(6) cells (8.4 x 10(4) sites/thymocyte). Trypsin produced a dose-related decrease in the sugar-displaceable binding of cytochalasin B, so that at 5 mg of trypsin/ml the number of sugar transporters was decreased by approx. 50%. Thus trypsin treatment of rat thymocytes on the one hand increases cellular cyclic AMP concentration, which itself potentiates 2-DG uptake, and on the other hand decreases the number of sugar transporters, which itself decreases cellular sugar uptake, indicating that the apparent effect of trypsin on thymocyte 2-DG uptake is the result of the balance of its effects on these two systems.
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PMID:The effect of trypsin on sugar uptake in rat thymocytes. Modulation of cellular cyclic AMP concentration and the sugar-transport system. 282 42

The synthesis of lauroyl sucrose capable of solubilizing 100% of beta-adrenergic receptors from bovine cerebellum membranes has been carried out. The preparative procedure for isolation of homogeneous beta-adrenergic receptors including affinity chromatography on the novel support, oxprenolol-Sepharose, is described. According to SDS-PAAG electrophoresis data, the Mr value for the beta-adrenergic receptor is 61 kD. The purified beta-adrenergic receptor can interact with the purified GTP-binding regulatory protein of adenylate cyclase (Gs) after their reconstitution into liposomes. Trypsin treatment of the purified receptor does not interfere with its functional properties, nor does it change the hydrodynamic parameters under non-denaturing conditions despite the fact that the polypeptide chain of the receptor is cleaved by trypsin.
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PMID:[Isolation of a homogeneous functionally active beta-adrenergic receptor from bovine cerebellum using lauroyl sucrose. Effect of trypsin on receptor activity]. 285 8


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