Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0043167 (pertussis)
 19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ADP-ribosylation of membrane G proteins is difficult to achieve in tissues that are rich in membrane-bound NAD glycohydrolase (NAD+ glycohydrolase, EC 3.2.2.5). For many animal species this problem can be surmounted by inhibiting NAD hydrolysis with a combination of the anti-tuberculous drug, isonicotinic acid hydrazide, and the NAD analog, 3-acetylpyridine adenine dinucleotide, which act synergistically. In their presence, the ADP-ribosylation of cholera and pertussis toxin substrates reach plateau levels even with only 10 microM NAD. Although 3-acetylpyridine adenine dinucleotide acts as a weak substrate for the toxins, it is simple to estimate its contribution to the ADP-ribosylation and thus to determine the total amount of ADP-ribosylation substrate present in a tissue sample. NAD glycohydrolases that are insensitive to isonicotinic acid hydrazide are also less sensitive to 3-acetylpyridine adenine dinucleotide, but may be inactivated by dithiothreitol. Isonicotinic acid hydrazide adenine dinucleotide, the product of an exchange reaction catalysed by NAD glycohydrolase, runs with NAD in most thin-layer chromatographic systems. It can be separated from NAD, and quantitated, if the chromatographic solvent contains benzaldehyde. Isonicotinic acid hydrazide itself inhibits NAD glycohydrolase. It need not first be converted into isonicotinic acid hydrazide adenine dinucleotide.
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PMID:ADP-ribosylation of membrane proteins by bacterial toxins in the presence of NAD glycohydrolase. 283 27

We examined the characteristics of PTH resistance in vitamin D-deficient rats employing renal membranes in vitro. Homologous desensitization was characterized by diminished PTH-stimulated adenylate cyclase activity and was associated with a reduction in PTH-binding capacity, but not affinity. Heterologous desensitization was also seen, as manifested by decreased calcitonin (CT)-stimulated adenylate cyclase activity with normal CT receptor binding. The reduced capacity of the nonhormonal effectors NaF and guanylylimidodiphosphate to stimulate adenylate cyclase indicated a postreceptor defect at the level of the guanyl nucleotide-binding protein (G protein), whereas a normal forskolin response was consistent with a fully functional catalytic component. The G protein deficiency was confirmed by demonstrating that the addition of extracts of vitamin D-sufficient membranes to preparations of vitamin D-deficient membranes restored the normal responses to NaF and guanylylimidodiphosphate. In addition, cholera toxin- and pertussis toxin-catalyzed labeling of vitamin D-deficient renal membranes with [32P]NAD revealed a decrease in both the stimulatory and inhibitory binding proteins. Experiments with testicular membranes in vitro indicated that the adenylate cyclase abnormality was absent in tissue lacking PTH receptors. The results suggest that a major contribution to PTH resistance in vitamin D-deficient animals is a postreceptor defect at the level of the G proteins and that this defect is manifest only in tissue expressing the PTH receptor.
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PMID:Parathyroid hormone desensitization in renal membranes of vitamin D-deficient rats is associated with a postreceptor defect. 283 76

The avian pineal gland is a photoreceptive organ that has been shown to contain postjunctional alpha 2-adrenoceptors that inhibit melatonin synthesis and/or release upon receptor activation. Physiological response and [32P]ADP ribosylation experiments were performed to investigate whether pertussis toxin-sensitive guanine nucleotide-binding proteins (G-proteins) were involved in the transduction of the alpha 2-adrenergic signal. For physiological response studies, the effects of pertussis toxin on melatonin release in dissociated cell cultures exposed to norepinephrine were assessed. Pertussis toxin blocked alpha 2-adrenergic receptor-mediated inhibition in a dose-dependent manner. Pertussis toxin-induced blockade appeared to be noncompetitive. One and 10 ng/ml doses of pertussis toxin partially blocked and a 100 ng/ml dose completely blocked norepinephrine-induced inhibition. Pertussis toxin-catalyzed [32P]ADP ribosylation of G-proteins in chick pineal cell membranes was assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Membranes were prepared from cells that had been pretreated with 0, 1, 10, or 100 ng/ml pertussis toxin. In the absence of pertussis toxin pretreatment, two major proteins of 40K and 41K mol wt (Mr) were labeled by [32P]NAD. Pertussis toxin pretreatment of pineal cells abolished [32P] radiolabeling of the 40K Mr G-protein in a dose-dependent manner. The norepinephrine-induced inhibition of both cAMP efflux and melatonin release, as assessed by RIA of medium samples collected before membrane preparation, was also blocked in a dose-dependent manner by pertussis toxin. Collectively, these results suggest that a pertussis toxin-sensitive 40K Mr G-protein labeled by [32P]NAD may be functionally associated with alpha 2-adrenergic signal transduction in chick pineal cells.
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PMID:A pertussis toxin-sensitive G-protein mediates the alpha 2-adrenergic receptor inhibition of melatonin release in photoreceptive chick pineal cell cultures. 283 56

Tumor necrosis factor (TNF) is a monokine that induces pleiotropic events in both transformed and normal cells. These effects are initiated by the binding of TNF to high affinity cell surface receptors. The post-receptor events and signaling mechanisms induced by TNF, however, have remained unknown. The present studies demonstrate the presence of a single class of high affinity receptors on membranes prepared from HL-60 promyelocytic leukemic cells. The interaction of TNF with these membrane receptors was associated with a 3.8-fold increase in specific binding of the GTP analogue, GTP gamma S. Scatchard analysis of GTP gamma S binding data demonstrated that TNF stimulates GTP binding by increasing the affinity of available sites. The TNF-induced stimulation of GTP binding was also associated with an increase in GTPase activity. Moreover, the increase in GTPase activity induced by TNF was sensitive to pertussis toxin. The results also demonstrate that TNF similarly increased GTP binding and pertussis toxin-sensitive GTPase activity in membranes from mouse L929 fibroblasts, thus indicating that these effects are not limited to hematopoietic cells. Analysis of HL-60 membranes after treatment with pertussis toxin in the presence of [32P]NAD revealed three substrates with relative molecular masses of approximately Mr 41,000, 40,000, and 30,000. In contrast, L929 cell membranes had only two detectable pertussis toxin substrates of approximately Mr 41,000 and 40,000. Although the Mr 41,000 pertussis toxin substrate represents the guanine nucleotide-binding inhibitory protein Gi, the identities of the Mr 40,000 and Mr 30,000 substrates remain unclear. In any event, inhibition of the TNF-induced increase in GTPase activity and ADP-ribosylation of Gi by pertussis toxin suggested that TNF might act by increasing GTPase activity of the Gi protein. However, the results further indicate that TNF has no detectable effect on basal or prostaglandin E2-stimulated cAMP levels in HL-60 cells. Taken together, these findings indicate that a pertussis toxin-sensitive GTP-binding protein other than Gi, and possibly the Mr 40,000 substrate, is involved in the action of TNF. Finally, the demonstration that pertussis toxin inhibited TNF-induced cytotoxicity in L929 cells supports the presence of a GTP-binding protein which couples TNF-induced signaling to a biologic effect.
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PMID:Effect of tumor necrosis factor on GTP binding and GTPase activity in HL-60 and L929 cells. 283 80

In a previous study we reported that FSH receptors in bovine testes membranes are physically and functionally associated with a guanine nucleotide-binding protein (N protein). In this study we examined the mechanism whereby GTP binding to N protein regulates FSH binding to its receptors. Binding of FSH to receptors decreased in the presence of GTP in a dose-dependent and noncompetitive manner. This effect did not require the presence of Mg+2 and is in contrast to the reported requirement for Mg+2 for GTP effects on human CG binding to ovarian receptors. Equilibrium binding experiments indicated that decreased hormone binding in the presence of GTP was not due to a decrease in the number of FSH receptors per se; rather, the altered binding isotherm was the result of a decrease in affinity of receptors for FSH. Moreover, the dissociation of [125I]human FSH from preformed FSH-receptor complex was rapid in onset and significantly accelerated in the presence of GTP. In a series of nucleotides, GTP was most effective in causing this effect. Evidently, occupancy of GTP binding sites on the N protein, including low affinity and high capacity sites, is necessary for GTP regulation of FSH binding to receptors. The fact that pretreatment of bovine testis membranes with cholera toxin plus NAD, but not pertussis toxin plus NAD, eliminates the GTP effect on FSH binding to its receptors suggests that the GTP regulatory binding protein mediating the GTP regulation of FSH binding is probably Ns and not Ni. Further characterization of FSH receptor sensitivity to GTP, however, indicated that the N protein involved does not exhibit all of the characteristics reported for Ns. For example, the affinity of GTP for N protein is relatively low even under conditions where GTP hydrolysis has a minimal effect in reducing the total concentration of GTP. Also, the absence of a requirement for Mg+2 in high affinity FSH receptor-N protein coupling is different from the requirement for Mg+2 seen with the beta-adrenergic receptor and Ns. Moreover, the N protein which mediates GTP regulation of FSH-receptor binding appears to be relatively insensitive to N-ethylmaleimide, unlike the N-ethylmaleimide sensitivity of the turkey erythrocyte Ns. These results suggest that differences may exist in the structure-function features of GTP regulatory binding protein associated with different types of hormone ligands and receptors.
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PMID:Regulation of follicle-stimulating hormone binding to receptors on bovine calf testis membranes by cholera toxin-sensitive guanine nucleotide binding protein. 284 May 71

Cultured rat glioma C6 cells exfoliate membrane vesicles which have been termed 'exosomes' into the culture medium. The exosomes contained both stimulatory and inhibitory GTP-binding components of adenylate cyclase (the stimulatory, Gs, and the inhibitory, Gi, regulatory components) and beta-adrenergic receptors but were devoid of adenylate cyclase activity. It was therefore apparent that the catalytic component of adenylate cyclase was either not exfoliated or was inactivated during the exfoliation process. The presence of Gs or Gi in the exosomes was detected by ADP ribosylation using [alpha-32P]NAD in the presence of cholera or pertussis toxins, respectively. The exosomal concentration of each of the two components was estimated to be about one fifth of that of the cell membrane when expressed on a per mg protein basis. Exosomal Gs was almost as active as the membrane-derived Gs in its ability to reconstitute NaF- and guanine nucleotide-stimulated adenylate cyclase activity in membranes of S49 cyc- cells, which lack a functional Gs. The ability of exosomal Gs to reconstitute isoproterenol-stimulated activity, however, was much lower than that of membrane Gs. The density of beta-adrenergic receptors in the exosomes was much less than that found in the membranes. Although the exosomal receptors bound the antagonist iodocyanopindolol with the same affinity as receptors from the cell membrane, the affinity for the agonist isoproterenol was 13- to 18-fold lower in the exosomes. In addition, this affinity was not modulated by GTP in the exosomes. Thus, exfoliated beta-adrenergic receptors seem to be impaired in their ability to couple to and activate Gs. This was directly tested by coupling the receptors to a foreign adenylate cyclase using membrane fusion. The fusates were then assayed for agonist-stimulated activity. While significant stimulation of the acceptor adenylate cyclase was obtained using C6 membrane receptors, the exosomal receptors were completely inactive. Thus during exfoliation, there appear to be changes in the components of the beta-adrenergic-sensitive adenylate cyclase that results in a nonfunctional system in the exosomes.
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PMID:Exfoliation of the beta-adrenergic receptor and the regulatory components of adenylate cyclase by cultured rat glioma C6 cells. 287 68

Pertussis toxin catalyzed ADP-ribosylation of the guanyl nucleotide binding protein transducin was stimulated by adenine nucleotide and either phospholipids or detergents. To determine the sites of action of these agents, their effects were examined on the transducin-independent NAD glycohydrolase activity. Toxin-catalyzed NAD hydrolysis was increased synergistically by ATP and detergents or phospholipids; the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS) was more effective than the nonionic detergent Triton X-100 greater than lysophosphatidylcholine greater than phosphatidylcholine. The A0.5 for ATP in the presence of CHAPS was 2.6 microM; significantly higher concentrations of ATP were required for maximal activation in the presence of cholate or lysophosphatidylcholine. In CHAPS, NAD hydrolysis was enhanced by ATP greater than ADP greater than AMP greater than adenosine; ATP was more effective than MgATP or the nonhydrolyzable analogue adenyl-5'-yl imidodiphosphate. GTP and guanyl-5'-yl imidodiphosphate were less active than the corresponding adenine nucleotides. Activity in the presence of CHAPS and ATP was almost completely dependent on dithiothreitol; the A0.5 for dithiothreitol was significantly decreased by CHAPS alone and, to a greater extent, by CHAPS and ATP. To determine the site of action of ATP, CHAPS, and dithiothreitol, the enzymatic (S1) and binding components (B oligomer) were resolved by chromatography. The purified S1 subunit catalyzed the dithiothreitol-dependent hydrolysis of NAD; activity was enhanced by CHAPS but not ATP. The studies are consistent with the conclusion that adenine nucleotides, dithiothreitol, and CHAPS act on the toxin itself rather than on the substrate; adenine nucleotides appear to be involved in the activation of toxin but not the isolated catalytic unit.
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PMID:Stimulation of the thiol-dependent ADP-ribosyltransferase and NAD glycohydrolase activities of Bordetella pertussis toxin by adenine nucleotides, phospholipids, and detergents. 287 21

The heat-stable enterotoxin (STa) of E. coli activates intestinal guanylate cyclase and leads to increased cGMP levels by an as yet undetermined mechanism. In comparing this cGMP system to other known toxin-mediated alterations in cAMP metabolism, we observed that pertussis toxin caused lower levels of intestinal cGMP synthesis in response to purified STa. Another participant in ADP-ribosylation reactions, NAD, enhanced the ability of STa to activate guanylate cyclase, yet had no effect on basal enzyme activity. Niacinamide and isoniacinamide also had no effect on basal activity, but attenuated the STa activation. These results are discussed in relation to current models of hormone/toxin-sensitive adenylate cyclase, and may suggest an involvement of guanine-nucleotide-binding proteins in intestinal cGMP metabolism.
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PMID:Activation of guanylate cyclase by E. coli heat-stable enterotoxin (STa). Modulation by NAD and pertussis toxin. 287 59

Prostaglandin E2 (PGE2) was found to bind specifically, reversibly, and in a protein-dependent manner to a single class of high affinity (KD approximately equal to 20 nM) binding sites in membranes prepared from canine renal outer medulla. PGE2 binding activity was solubilized from these membranes in a stable form (t1/2 greater than 14 days) in the absence of ligand in 75% yields using digitonin. The characteristics of PGE2 binding to membranes and solubilized protein were similar with respect to pH dependence, KD for PGE2, and order of potency of prostaglandins (PGE2 approximately PGE1 greater than PGF2 alpha greater than PGD2) in inhibiting the binding of [3H]PGE2. Importantly, the extents of binding of PGE2 to membranes and to a solubilized preparation partially purified by chromatography on wheat germ agglutinin-Affi-Gel 10 were both increased about 2-fold by GDP and GTP and its analogs. Treatment of the digitonin-solubilized PGE2 binding activity with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid (CHAPS) rendered the binding activity insensitive to stimulation by GTP and decreased the apparent molecular weight of the peak of PGE2 binding activity from about 175,000 to about 65,000. These results suggest that the PGE2 binding activity resides in a protein which is tightly associated with, but distinct from, a guanine nucleotide regulatory (N) protein. PGE2 (greater than or equal to 10 nM) was found to stimulate GTPase activity of renal outer medullary membranes, and this stimulation was eliminated by pretreatment of membranes with pertussis toxin and NAD, but not cholera toxin and NAD. Treatment of both particulate and solubilized preparations of PGE2 binding activity with pertussis toxin plus NAD also eliminated the ability of GTP to stimulate PGE2 binding. This evidence indicates that it is the inhibitory guanine nucleotide regulatory protein, Ni, with which the PGE2 binding activity is associated. Thus, this PGE2 binding activity is an inhibitory PGE2 receptor, quite possibly one that mediates inhibition of vasopressin-induced cAMP formation in the medullary thick ascending limb and/or collecting tubule of the kidney.
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PMID:Association of a solubilized prostaglandin E2 receptor from renal medulla with a pertussis toxin-reactive guanine nucleotide regulatory protein. 287 97

Because of certain similarities between acetyl-CoA carboxylase (ACC) and tubulin, and the recent demonstration of the ADP-ribosylation of tubulin by cholera toxin, we have investigated a potential role for ADP-ribosylation in the regulation of ACC activity. Incubation of purified rat liver ACC with cholera toxin in the presence of millimolar concentrations of [adenylate-32P]NAD results in a time-dependent incorporation of ADP-ribose into ACC of greater than 2 mol/mol of enzyme subunit, accompanied by a marked inactivation of enzyme activity. This effect is not mimicked by pertussis toxin, ADP-ribose, or ribose 5-phosphate. Incubation of labeled ACC with snake venom phosphodiesterase and alkaline hydrolysis release 32P-products tentatively identified by high-performance liquid chromatography as 5'-[32P]AMP and [32P]ADP-ribose, respectively. These data are consistent with a mono-ADP-ribosylation of ACC catalyzed by cholera toxin. Phosphodiesterase treatment of inactivated ACC partially restores enzyme activity. The effects of ADP-ribosylation of ACC are expressed both as a decrease in the enzyme Vmax and as an increase in the apparent Ka for citrate. These results suggest that ACC might be a substrate for endogenous ADP-ribosyltransferases and that this covalent modification could be an important regulatory mechanism for the modulation of fatty acid synthesis in vivo.
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PMID:Regulation of acetyl-CoA carboxylase by ADP-ribosylation. 287 58


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