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)

Vero cell cytotoxins and cytotonic enterotoxins produced by E. coli are toxic proteins, which have been implicated in a number of specific diseases in humans and animals. Nomenclature for these toxins is complicated by the existence of different names for the same toxin. The Vero cell cytotoxins are called verotoxins because they are lethal for Vero cells in culture; they are also known as Shiga-like toxins (SLTs) because they are clearly related to Shiga toxin in structure, amino acid sequence, mechanism of action, and biological activity. SLTs belong to two classes. SLT-I is identical with Shiga toxin and is in a class by itself (class I). The other SLTs are closely related to each other and form a second class (class II). Class II SLTs include SLT-II, SLT-IIv, SLT-IIvha, SLT-IIvhb, and SLT-IIva. All SLTs that have been investigated are A-B subunit protein toxins, whose A subunits possess N-glycosidase activity against 28S rRNA and cause inhibition of protein synthesis in eukaryotic cells. These toxins are enterotoxic as well as cytotoxic. SLTs produced in the intestine are absorbed into the blood stream and affect vascular endothelial cells in target organs. They may also have a direct toxic effect on enterocytes. Diseases in which E. coli SLTs have been implicated include diarrhea, hemorrhagic colitis, and hemolytic uremic syndrome in humans and edema disease in pigs. Variation in receptor specificities among SLTs may be the reason for different disease syndromes in different host species. The E. coli enterotoxins belong to three distinct classes: heat-labile enterotoxin (LT), heat-stable enterotoxin type I or type a (STI, STa), and heat-stable enterotoxin type II or type b (STII, STb). There is clear evidence that these cytotonic enterotoxins play an essential role in diarrheal disease. LT is an A-B subunit protein toxin, closely related to cholera toxin. Following binding of LT to receptors in enterocytes the A subunit is internalized. The enzymatically active A subunit transfers ADP-ribose from NAD to a GTP-dependent adenylate cyclase regulatory protein, thereby elevating intracellular levels of adenylate cyclase. The increased levels of cyclic AMP cause stimulation of A kinase and lead to hypersecretion of electrolytes and fluid. STI is a small peptide of 18 or 19 amino acids. It binds to receptors in enterocytes and stimulates particulate guanyl cyclase. Elevated intracellular cyclic GMP stimulates G kinase, resulting in increased Cl- secretion and impaired absorption of Na+Cl-. STII is a peptide toxin whose mechanism of action is unknown.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Escherichia coli cytotoxins and enterotoxins. 139 38

The conversion of the ATP-analogue adenylyl(beta,gamma-methylene)diphosphonate (AMPPCP) to cyclic AMP by adenylate cyclase of rat liver membranes was demonstrated using a radioimmunoassay for cyclic AMP. The conversion was only insignificantly lower than with adenylylimidodiphosphate (AMPPNP), another ATP-analogue which is usually used in the histochemical adenylate cyclase assay. The unspecific phosphate production was lower with AMPPCP as compared to AMPPNP. Therefore AMPPCP is considered to be a more suitable substrate for the histochemical assay. Unspecific phosphate deposition in the histochemical assay was due to ATP:pyrophosphatase activity and could be significantly inhibited by 1 mM NAD. However, a residual phosphate deposition due to cleavage of NAD could not be suppressed. Adenylate cyclase activity could be markedly activated by 5 x 10(-5) M forskolin, an activator of the catalytic subunit of the enzyme, and inhibited by 1 mM 2'5'-dideoxyadenosine, a specific inhibitor of adenylate cyclase. Adenylate cyclase was localized predominantly in the sinusoidal part of the plasma membrane, while ATP-pyrophosphatase seemed to be restricted to the canalicular part. It is concluded that at least three parallel assays are necessary for routine histochemical demonstration of adenylate cyclase, namely (1) basal activity (2) activation by forskolin and (3) inhibition by 2'5'-dideoxyadenosine, to demonstrate a specific enzyme reaction.
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PMID:Re-evaluation of the specificity of adenylyl (beta,gamma-methylene)diphosphonate as a substrate for adenylate cyclase. 171 7

Gonad-stimulating substance (GSS) secreted from radial nerves induces meiotic maturation of starfish oocytes by stimulating production of 1-methyladenine (1-MeAde) in ovarian follicle cells. We have previously shown that cAMP mediates the action of GSS on 1-MeAde synthesis by starfish ovarian follicle cells. The present study examines the possible involvement of guanine nucleotide-binding regulatory proteins (G-proteins) and adenylate cyclase in the action of GSS on 1-MeAde production by starfish (Asterina pectinifera) follicle cells. GSS slightly stimulated adenylate cyclase activity in crude membrane preparations of follicle cells. GTP markedly enhanced this action of GSS in a dose-dependent manner. Nonhydrolyzable GTP analogs such as guanosine 5'-O-(3-thiotriphosphate) and 5'-guanylylimidodiphosphate, NaF, and forskolin also stimulated adenylate cyclase activity. In addition, chorela toxin (CT) stimulated adenylate cyclase activity in membrane preparations in the presence of NAD and GTP. Unlike adenylate cyclase, phosphodiesterase activity was not influenced by GSS. When crude membranes of follicle cells were incubated with [alpha-32P]NAD in the presence of CT and pertussis toxin, 45-kDa and 41-kDa proteins were ADP-ribosylated, respectively, suggesting the presence of two types (stimulatory and inhibitory) of G-proteins. It is concluded that G-proteins and adenylate cyclase play an important role in the action of GSS on 1-MeAde production by starfish ovarian follicle cells.
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PMID:Involvement of G-proteins and adenylate cyclase in the action of gonad-stimulating substance on starfish ovarian follicle cells. 184 1

We have previously shown that FSH receptors are physically and functionally associated with a guanine nucleotide regulatory protein (Gs) in membranes of calf testis. Using N-ethylmaleimide (NEM), forskolin, and cholera toxin as probes, we have investigated the role of low and high affinity GTP-binding sites of stimulatory guanine nucleotide-binding protein of adenylate cyclase (Gs) in the activation of adenylate cyclase. When calf testis membranes were exposed to NEM (1 mM), FSH binding to receptors was slightly (30%) decreased, but the receptors showed continued sensitivity to GTP, resulting in a further decrease in [125I]human FSH binding to receptors. Pretreatment of membranes with NEM (up to 20 microM) produced no effect on GTP-binding. A dose-dependent decrease in high affinity GTP-binding sites, however, was observed at higher (greater than 50 microM) NEM. Adenylate cyclase activity was reduced in response to GTP gamma S or NaF concomitant to a decrease in high affinity GTP-binding sites in membranes treated with 50-100 microM NEM, or completely abolished in membranes exposed to 300 microM NEM. Stimulation by forskolin indicated that the significant inhibition of adenylate cyclase activity occurring in membranes exposed to low NEM (50-100 microM) was not due to inactivation of catalytic unit of adenylate cyclase by NEM. Pretreatment of membranes with 100 micrograms/ml cholera toxin and NAD slightly (18%) reduced specific FSH binding but did not affect Gpp(NH)p-binding. However, adenylate cyclase stimulation by GTP plus FSH in these membranes was significantly enhanced. When membranes were treated with higher concentration of cholera toxin (250 micrograms/ml), the adenylate cyclase stimulation by GTP plus FSH was abolished due to uncoupling of FSH receptors from Gs and a significant decrease in high affinity GTP-binding sites. Our results suggest that high affinity GTP-binding sites of Gs coupled to FSH receptors are essential for FSH and guanine nucleotide activation of adenylate cyclase. The low affinity binding sites bind GTP and thereby regulate FSH binding but are not involved in the activation of adenylate cyclase.
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PMID:Differential roles of high and low affinity guanosine 5'-triphosphate binding sites in the regulation of follicle-stimulating hormone binding to receptor and signal transduction in bovine calf testis membranes. 189 82

Four ADP-ribosyltransferases that acted on non-muscle actin were purified more than 3,000-fold from rat brain extract. The molecular weights of these brain ADP-ribosyltransferases were 66,000 as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration on TSK gel G3000SW. The Km values for NAD were approximately 20 microM. These enzymes were not inhibited by thymidine or nicotinamide, but were inhibited by ADP and ADP-ribose. Two soluble ADP-ribosylation factors purified from rat brain had different effects on the four ADP-ribosyltransferases during the ADP-ribosylation of non-muscle actin. These ADP-ribosyltransferases modified not only actin but also the stimulatory guanine nucleotide-binding protein of adenylate cyclase, Gs, and another guanine nucleotide-binding protein in brain, Go. These findings suggest that the four brain ADP-ribosyltransferases are concerned with nerve functions in the central nervous system.
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PMID:Mono-ADP-ribosylation in brain: purification and characterization of ADP-ribosyltransferases affecting actin from rat brain. 191 76

Two distinct light-regulated G-proteins were found in octopus photoreceptors. Gip, a 41 kDa protein from washed microvilli, was ADP ribosylated by pertussis toxin in the presence of GDP in the dark. Light and GTP analogues were inhibitory as with transducin (Gt; G-protein in vertebrate photoreceptors). G34, a 34 kDa protein from fresh octopus retina, was ADP ribosylated by both cholera and pertussis toxin in the dark. Light inhibited labeling of the 34 kDa protein by both toxins. Unlike Gip, G34 is soluble and is very labile to heat, freezing and thawing. Prolonged incubation of octopus retina with cholera toxin and labeled NAD produced an additional radioactive band at 46 kDa. Labeling of the 46 kDa protein, Gsp, was greatly enhanced by GTP analogues, but inhibited by a GDP analogue as with Gs in hormone-sensitive adenylate cyclase. In contrast to Gip and G34, labeling of the 46 kDa protein (Gsp) was not influenced by light. The two distinct light-regulated G-proteins, Gip and G34, found in octopus photoreceptors might be involved in either phototransduction or photoadaptation. The function of Gsp is not known.
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PMID:Two distinct light regulated G-proteins in octopus photoreceptors. 210 29

The aim of the present study was to investigate whether or not alterations of Gs alpha can be detected with cholera toxin-induced ADP-ribosylation in myocardial membranes from patients with heart failure. Therefore, Gs alpha was radiolabeled by cholera toxin-catalzyed (32P)ADP-ribosylation with (32P)NAD as substrate. In membranes from left ventricular myocardium of six patients with dilated cardiomyopathy classified as NYHA IV and three samples from two non-failing donor hearts, labeling was too weak to allow detection of possible changes in the amount of Gs alpha. Therefore, the cytosolic small molecular weight G protein ARF (ADP-ribosylation factor), a cofactor for cholera toxin-induced ADP-ribosylation of Gs alpha, was partially purified from bovine cerebral cortex. ARF activity was quantified by its ability to enhance auto-ADP-ribosylation of cholera toxin A1-subunit. Gs alpha was identified by comparing the ADP-ribosylation patterns of myocardial membranes, membranes prepared from human leukemia (HL 60) and S 49 mouse lymphoma wild type cells (45 kDa-band present) with membranes of the Gs alpha-deficient S 49 variant cyc- (45 kDa-band missing). In the presence of ARF, specific radiolabeling of the Mr 45,000 subtype of Gs alpha was markedly enhanced. The amounts of Gs alpha as measured by cholera toxin-dependent (32P)-ADP-ribosylation in the presence of ARR were similar in failing and nonfailing human hearts. It is concluded that factors other than Gs alpha are responsible for the altered regulation of the adenylate cyclase complex in heart failure. Moreover, by enhancing cholera toxin-catalyzed ADP-ribosylation, endogenous ADP-ribosylation factor from bovine brain appears to be a useful tool to study Gs alpha even in tissues in which the labeling of Gs alpha is rather weak.
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PMID:Improvement of cholera toxin-catalyzed ADP-ribosylation by endogenous ADP-ribosylation factor from bovine brain provides evidence for an unchanged amount of Gs alpha in failing human myocardium. 210 80

Cellular components of the bronchovascular barrier have been studied in human lungs obtained after death of some patients with acute and chronic lung inflammatory diseases, hypertonic disease, atherosclerosis and chronic glomerulonephritis. Certain oxidative-reductive and hydrolytic enzymes, including NAD-, NADP- diaphorases, lactic dehydrogenase, acid and alkaline monophosphoesterase, ATP-ase, adenylate cyclase and nonspecific esterase were evaluated quantitatively after the histochemical processing of the specimens for the above reactions. Correlation analysis was performed for the bronchial epithelium, endotheliocytes, lymphocytes, plasma and mast cells, as well as macrophages and polymorphonuclear leucocytes. The results showed that there was a significant shift in some of the measured enzymic activities. Moreover, the correlations between different quantitative data were noted and these correlations changed with age. The increase in "rigidity" of the correlations in the elements of the bronchovascular barrier has been demonstrated during the process of ageing.
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PMID:Functional morphology of the bronchovascular barrier of the human lungs during various age periods. 214 10

The expression of guanine nucleotide-binding proteins (G-proteins) was compared in two clonal lines of rat Nb2 node lymphoma cells, the lactogen-dependent Nb2-11C line and the lactogen-independent Nb2-Sp (spontaneous) line. Both cell lines expressed mRNA transcripts for the G-protein species Gs alpha [1.85 kilobases (kb)], Gi2 alpha (2.35 kb), Go alpha (4.1-4.5 kb), and Gi3 alpha (3.5 kb). Gi1 alpha was not detected. ADP ribosylation in the presence of activated cholera or pertussis toxins and [32P]NAD demonstrated the presence of G-proteins in the membrane fractions of both lines. The cholera toxin substrates consisted of two proteins (mol wt, 46.5 and 43.5 kD), while a single protein (mol wt, 41.5 kD) was ADP ribosylated by pertussis toxin. Surprisingly, the cholera toxin-sensitive proteins (Gs) were at least 20-fold less abundant in the Nb2-Sp cells than in the Nb2-11C cells. Since Gs and Gi2 are associated with the adenylate cyclase system and the regulation of intracellular cAMP, the effects of the cAMP analog, (Bu)2cAMP (dbcAMP), on Nb2-11C and Nb2-Sp cell growth were examined. dbcAMP (100 microM) completely inhibited the growth of lactogen-dependent Nb2-11C cells. The inhibitory effect of dbcAMP was exerted at an early point in the cell cycle, as it also inhibited PRL-stimulated c-myc expression measured 3 h after addition of the mitogen. In contrast, dbcAMP had only minor inhibitory effects on lactogen-independent Nb2-Sp cells, increasing their doubling time from 20 to 30 h and slightly reducing their density at confluence. The inhibitory effect of dbcAMP on both cell lines was reversible. Nb2-11C cells resumed growth after a lag period of approximately 3 days. The recovered cells did not arise from selection of a cAMP-resistant subpopulation, since both they and normal untreated Nb2-11C cells remained equally sensitive to dbcAMP. Similarly, Nb2-Sp cells resumed their normal doubling time upon removal of dbcAMP. The observation that the lactogen-independent Nb2-Sp cell line contained 20-fold less cholera toxin-sensitive Gs protein provides circumstantial evidence that dysfunction of the adenylate cyclase system may be implicated in the autonomous growth of these cells. This possibility is strengthened by the observation that Nb2-Sp cells are markedly less sensitive than the Nb2-11C clone to the growth inhibitory effects of an exogenous cAMP analog.
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PMID:The role of G-proteins in the mitogenesis of rat lactogen-dependent and lactogen-independent Nb2 lymphoma cells. 215 99

This study was carried out to clarify the way in which thyrotropin (TSH) and forskolin regulate the adenylylcyclase complex in thyroid follicle cells. We examined the effects of chronic treatment of pig thyroid follicles with TSH or forskolin on the state of G proteins by (a) assaying adenylylcyclase activity, (b) analyzing the ADP-ribosylation of stimulatory G protein (Gs) by cholera toxin, and (c) quantifying the Gs subunits by Western blotting with antipeptide antibodies. Chronic exposure (18 h) of thyroid follicles to a low concentration of TSH (0.01-0.1 milliunit/ml) enhanced the subsequent response of adenylylcyclase to TSH. Higher concentration of TSH (1 milliunit/ml) induced a homologous desensitization of this response. In cells pretreated with forskolin, the TSH-stimulated adenylylcyclase activity was higher than in control cells. The forskolin-or guanosine 5'-(beta, gamma-imido) triphosphate (Gpp(NH)p)-stimulated adenylylcyclase activity was always significantly increased after chronic treatment of cells with TSH or forskolin. Treatment of cultured thyroid follicle membranes with [32P]NAD and cholera toxin resulted in labeling of the Gs alpha (45-52-kDa) component. Culturing follicles with TSH (0.001-1 milliunit/ml) or forskolin (0.01-10 microM) greatly affected the cholera toxin-mediated ADP-ribosylation of the Gs alpha subunit. Gs alpha labeling increased progressively to level off at 1 milliunit/ml TSH or 1 microM forskolin (150-200%). Gs alpha immunoreactivity was increased in parallel (200-300%). The immunoreactivity of G beta subunits in cells cultured with TSH or forskolin was also increased compared with control cells. Cycloheximide abolished the effects of TSH and forskolin on the follicles, suggesting that new protein synthesis is required. These results indicate that Gs protein subunits are up-regulated by TSH and forskolin and suggest that their synthesis in thyroid cells is mediated, at least in part, by a cyclic AMP-dependent mechanism.
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PMID:Cyclic AMP regulation of Gs protein. Thyrotropin and forskolin increase the quantity of stimulatory guanine nucleotide-binding proteins in cultured thyroid follicles. 217 58


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