UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

These studies demonstrate a novel mechanism for the coupling of the muscarinic receptor to phospholipase C activity in embryonic chick atrial cells. In monolayer cultures of atrial cells from hearts of embryonic chicks at 14 days in ovo, carbamylcholine stimulated the sequential appearance of InsP3, InsP2 and InsP1 with an EC50 (concn. causing 50% of maximal stimulation) of 30 microM. In the presence of 15 mM-Li, a 5 min exposure to carbamylcholine (0.1 mM) increased InsP3 levels to a maximum of 47 +/- 12% over basal, InsP2 to 108 +/- 13% over basal and InsP1 to 42 +/- 5% over basal. This effect was blocked by 5 microM-atropine. Incubation of these cells with pertussis toxin (15 h; 0.5 ng/ml) inhibited carbamylcholine-stimulated InsP3, InsP2 and InsP1 formation by 42 +/- 7%, 30 +/- 3% and 48 +/- 7% respectively. The IC50 (concn. causing 50% inhibition) for pertussis toxin inhibition of all three inositol phosphates was 0.01 ng/ml, with a half-time of 6 h at 0.5 ng/ml. This partial sensitivity to pertussis toxin was not due to incomplete ADP-ribosylation of the guanine-nucleotide-binding protein (G-protein), since autoradiography of polyacrylamide gels of cell homogenates incubated with [32P]NAD+ in the presence of pertussis toxin demonstrated that incubation of cells with 0.5 ng of pertussis toxin/ml for 15 h resulted in complete ADP-ribosylation of pertussis toxin substrates by endogenous NAD+. In cells permeabilized with saponin (10 micrograms/ml), 0.1 mM-GTP[S] (guanosine 5'-[gamma-thio]triphosphate) stimulated InsP1 by 102 +/- 15% (mean +/- S.E.M., n = 4), InsP2 by 421 +/- 67% and InsP3 by 124 +/- 33% above basal. Incubation of cells for 15 h with 0.5 ng of pertussis toxin/ml decreased GTP[S]-stimulated InsP1 production in saponin-treated cells by 30 +/- 10% (n = 3), InsP2 production by 45 +/- 7% (n = 4) and InsP3 production by 49 +/- 6% (n = 4). These data demonstrate that in embryonic chick atrial cells at least two independent G-proteins, a pertussis toxin-sensitive G-protein and a pertussis toxin-insensitive G-protein, play a role in coupling muscarinic agonist binding to phospholipase C activation and to inositol phosphate production.
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PMID:Muscarinic cholinergic stimulation of inositol phosphate production in cultured embryonic chick atrial cells. Evidence for a role of two guanine-nucleotide-binding proteins. 212 87

Human alpha-thrombin is known to elicit bone resorption in vitro and has been proposed as a mediator of increased bone turnover in inflammatory diseases. We used UMR 106-H5 rat osteoblast-like osteosarcoma cells to explore the signal transduction mechanism utilized by thrombin in bone. Thrombin produced a dose-dependent increase in the accumulation of [3H]inositol phosphates (IPs) in UMR 106-H5 cells prelabeled with [3H]myo-inositol (EC50 15 U/ml). In saponin-permeabilized cells, GTP gamma S increased [3H]IP production, whereas GDP beta S inhibited the response to both GTP gamma S and thrombin, indicating involvement of a G-protein in thrombin action. Thrombin produced a dose-dependent increase in intracellular free calcium (Cai2+) in UMR 106-H5 cells (EC50 1 U/ml; maximal increase 4-fold), as well as a small (20%) increase in [3H]thymidine incorporation. Treatment of UMR 106-H5 membranes with pertussis toxin (PT) and [32P]NAD+ resulted in labeling of a 40-kDa protein. However, pretreatment of cells with a dose of PT sufficient to produce maximal endogenous labeling of this protein failed to influence thrombin action on IP accumulation, Cai2+, or [3H]thymidine incorporation. In contrast, PT treatment of CCL39 hamster lung fibroblasts significantly blunted thrombin-stimulated [3H]IP accumulation and [3H]thymidine incorporation. These results suggest that thrombin raises Cai2+ in UMR 106-H5 cells by activating polyphosphoinositide-specific phospholipase C. Whereas in fibroblasts and platelets, thrombin receptors appear to couple to both PT-sensitive and PT-insensitive G-proteins, only a PT-insensitive G-protein appears to mediate thrombin action in UMR 106-H5 cells. Either these cells lack the relevant PT-sensitive G-protein or they possess thrombin receptors that selectively couple to a pertussis toxin-insensitive G-protein.
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PMID:Thrombin stimulates inositol phosphate production and intracellular free calcium by a pertussis toxin-insensitive mechanism in osteosarcoma cells. 215 36

The S1 subunit of pertussis toxin catalyses the hydrolysis of NAD+ (NAD+ glycohydrolysis) and the NAD(+)-dependent ADP-ribosylation of guanine-nucleotide-binding proteins. Recently, the S1 subunit of pertussis toxin was shown to be photolabelled by using radiolabelled NAD+ and u.v.; the primary labelled residue was Glu-129, thereby implicating this residue in the binding of NAD+. Studies from various laboratories have shown that the N-terminal portion of the S1 subunit, which shows sequence similarity to cholera toxin and Escherichia coli heat-labile toxin, is important to the maintenance of both glycohydrolase and transferase activity. In the present study the photolabelling technique was applied to the analysis of a series of recombinant-derived S1 molecules that possessed deletions or substitutions near the N-terminus of the S1 molecule. The results revealed a positive correlation between the extent of photolabelling with NAD+ and the magnitude of specific NAD+ glycohydrolase activity exhibited by the mutants. Enzyme kinetic analyses of the N-terminal mutants also identified a mutant with substantially reduced activity, a depressed photolabelling efficiency and a markedly increased Km for NAD+. The results support a direct role for the N-terminal region of the S1 subunit in the binding of NAD+, thereby providing a rationale for the effect of mutations in this region on enzymic activity.
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PMID:Photolabelling of mutant forms of the S1 subunit of pertussis toxin with NAD+. 236 91

Somatostatin (SS) inhibits secretion from many cells, including clonal GH3 pituitary cells, by a complex mechanism that involves a pertussis toxin (PTX)-sensitive step and is not limited to its cAMP lowering effect, since secretion induced by cAMP analogs and K+ depolarization are also inhibited. SS also causes membrane hyperpolarization which may lead to decreases in intracellular Ca2+ need for secretion. Using patch clamp techniques we now demonstrate: 1) that both (SS) and acetylcholine applied through the patch pipette to the extracellular face of a patch activate a 55-picosiemens K+ channel without using a soluble second messenger; 2) that, after patch excision, the active state of the ligand-stimulated channel is dependent on GTP in the bath, is abolished by treatment of the cytoplasmic face of the patch with activated PTX and NAD+, and after inactivation by PTX, is restored in a GTP-dependent manner by addition of a nonactivated human erythrocyte PTX-sensitive G protein, and 3) that the 55-picosiemens K+ channel can also be activated in a ligand-independent manner with guanosine [gamma-thio] triphosphate (GTP gamma S) or with Mg2+/GTP gamma S-activated erythrocyte G protein. We call this protein GK. It is an alpha-beta-gamma trimer of which we have previously shown that the alpha-subunit is the substrate for PTX and that it dissociates on activation with Mg2+/GTP gamma S into alpha-GTP gamma S plus beta-gamma. A similarly activated and dissociated preparation of GS, the stimulatory regulatory component of adenylyl cyclase, having a different alpha-subunit but the same beta-gamma-dimer, was unable to cause K+ opening.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reconstitution of somatostatin and muscarinic receptor mediated stimulation of K+ channels by isolated GK protein in clonal rat anterior pituitary cell membranes. 245 51

The antiserum AS7 can specifically immunoprecipitate alpha-Gi from membrane extracts as well as from a mixture of purified alpha-Gi and alpha-Go as ascertained using [32P]ADP-ribosylated G-proteins. Using this antiserum to immunoprecipitate alpha-Gi from hepatocytes labelled with 32P it was evident that alpha-Gi was phosphorylated under basal (resting) conditions. Challenge of hepatocytes with the tumour promoting phorbol ester TPA, however, elicited a marked enhancement of the phosphorylation state of alpha-Gi. This was accompanied by the loss of inhibitory effect of Gi on adenylate cyclase, as judged by the inability of low concentrations of p[NH]ppG to inhibit forskolin-stimulated adenylate cyclase activity. Such actions were mimicked by treatment of hepatocytes with either glucagon or TH-glucagon, an analogue of glucagon which is incapable of activating adenylate cyclase and elevating intracellular cyclic AMP concentrations. Pre-treatment of hepatocytes with either glucagon, TPA or insulin did not affect the ability of pertussis toxin to cause the NAD+-dependent, [32P]ADP-ribosylation of alpha-Gi in membrane fractions isolated from such pre-treated hepatocytes. We suggest that protein kinase C can elicit the phosphorylation and functional inactivation of alpha-Gi in intact hepatocytes. As pertussis toxin only causes the ADP-ribosylation of the holomeric form of Gi, it may be that phosphorylation leaves alpha-Gi in its holomeric state.
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PMID:Treatment of intact hepatocytes with either the phorbol ester TPA or glucagon elicits the phosphorylation and functional inactivation of the inhibitory guanine nucleotide regulatory protein Gi. 249 92

The predominant guanine nucleotide-binding protein (G-protein) of bovine lung membranes, termed GL, has been purified and compared biochemically, immunochemically and functionally with Gi and Go purified from rabbit brain. The purified GL appeared to have a similar subunit structure to Gi and Go, being composed of alpha, beta and possibly gamma subunits. On Coomassie Blue-stained SDS/polyacrylamide gels and immunoblots, the alpha subunit of GL (GL alpha) displayed an intermediate mobility (40 kDa) between those of Gi and Go (Gi alpha and Go alpha). GL alpha was [32P]ADP-ribosylated in the presence of pertussis toxin and [32P]NAD+. Analysis of [32P]ADP-ribosylated alpha subunits by SDS/polyacrylamide-gel electrophoresis and isoelectric focusing showed that GL alpha was distinct from Gi alpha and Go alpha, but very similar to the predominant G-protein in neutrophil membranes. Immunochemical characterization also revealed that GL was distinct from Gi and Go, but was indistinguishable from the G-protein of neutrophils, which has been tentatively identified as Gi2 [Goldsmith, Gierschik, Milligan, Unson, Vinitsky, Maleck & Spiegel (1987) J. Biol. Chem. 262, 14683-14688]. In functional studies, higher Mg2+ concentrations were required for guanosine 5'-[gamma-[35S]thio]triphosphate (GTP[35S]) binding to GL than were required for nucleotide binding to Go, whereas Gi showed a Mg2+-dependence similar to that of GL. The kinetics of GTP[35S] binding to GL was quite different from those of Gi and Go; t1/2 values of maximal binding were 30, 15 and 5 min respectively. In contrast, the rate of hydrolysis of [gamma-32P]GTP by GL (t1/2 approximately 1 min) was approx. 4 times faster than that by Gi or Go. These results indicated that the predominant G-protein purified from lung is structurally and functionally distinct from Gi and Go of brain, but structurally indistinguishable from Gi2 of neutrophils.
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PMID:Purification and characterization of predominant G-protein from bovine lung membranes. Biochemical and immunochemical comparison with Gi1 and Go purified from brain. 249 37

The effects of cholera toxin (CT) on transforming growth factor beta 1-stimulated protooncogene expression, [gamma-35S]GTP binding, GTPase activity and growth under anchorage-independent and -dependent conditions were studied in AKR-2B fibroblast cells. CT was shown to inhibit TGF beta 1-stimulated c-sis and c-myc mRNA expression. Actinomycin D decay and nuclear runon experiments demonstrated that this inhibition was not due to an increased decay of protooncogene message, but to a decreased transcriptional activation. These inhibitory effects were not secondary to changes in the ability of TGF beta 1 to bind to its receptor(s) since radioreceptor assays and affinity labeling studies demonstrated that CT had no effect on TGF beta 1 binding. ADP ribosylation of AKR-2B plasma membranes with [alpha-32P]NAD+ revealed a Mr 45,000 protein as the major CT substrate. The labeling of this Mr 45,000 protein in membranes could be inhibited by prior pretreatment of the cells with increasing concentrations of CT. Treatment of membranes with nanogram concentrations of CT abolished the increase in [gamma-35S]GTP binding following addition of TGF beta 1 as well as decreased basal binding. Similarly, CT pretreatment of membranes inhibited TGF beta 1-stimulated GTPase activity. Unexpectedly however, the stimulatory effects of TGF beta 1 on anchorage-independent growth in soft agar were unaffected by CT. Only pertussis toxin was able to inhibit TGF beta 1-induced colony formation in soft agar in a dose-dependent manner. Furthermore, differential effects of both CT and pertussis toxin were observed on TGF beta 1-stimulated monolayer growth; CT was inhibitory, whereas pertussis toxin was without effect. These results suggest that the diverse biological effects of TGF beta 1 are mediated through multiple intracellular pathways distinguishable by their toxin sensitivities.
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PMID:Regulation of transforming growth factor beta 1 action by multiple transducing pathways: evidence for both G protein-dependent and -independent signaling. 250 40

Pertussis toxin catalyzes ADP-ribosylation of a family of GTP-binding proteins (G alpha proteins) involved in signal transduction. It is thought that this activity is responsible for the attenuating effects of the toxin on the actions of a number of hormones and neurotransmitters. By utilizing specific antisera for detecting on electrophoretic transfer blots (Western blots) alpha proteins that are subject to ADP-ribosylation, it was found that treatment of these proteins with pertussis toxin resulted in shifts in their electrophoretic mobility and marked enhancement of their immunoreactivity compared to untreated proteins. No changes in mobility or immunoreactivity with specific antisera were observed with beta subunits of G proteins. Both effects on alpha proteins required the same ingredients, including detergents, ATP, and sulfhydryl reducing agents, that other studies have shown are required for activation of the ADP-ribosylating activity of pertussis toxin. However, NAD+, the substrate for ADP-ribosylating activity, was not required. Moreover, inhibition of the ADP-ribosylating activity by 50 mM nicotinamide failed to block the NAD-independent effects of the toxin. These findings indicate that the toxin induces structural changes in alpha proteins independently of its ADP-ribosylating activity and raise the possibility that these structural changes are primary to ADP-ribosylation and causative of many of the biological effects of pertussis toxin.
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PMID:Pertussis toxin induces structural changes in G alpha proteins independently of ADP-ribosylation. 252 74

Noradrenaline- and clonidine-induced inhibition of insulin release from intact and electrically permeabilized rat islets was markedly relieved by prior exposure to 100 ng of Bordetella pertussis toxin/ml. The reversal of catecholamine inhibition of insulin secretion by this toxin was not associated with a decrease in specific binding of the alpha 2-adrenergic ligand [3H]yohimbine, and could not be fully explained by an increase in intracellular cyclic AMP. Exposure of intact islets to 1 microgram of pertussis toxin/ml for 2 h, followed by electrical permeabilization and incubation with 5 microCi of [alpha-32P]NAD+, resulted in the ADP-ribosylation in situ of a protein of molecular mass approx. 41 kDa. These results suggest that pertussis toxin alleviates catecholamine inhibition of beta-cell secretory responses by ADP-ribosylating at least one protein of molecular mass 41 kDa. In analogous systems the 41 kDa substrate of pertussis toxin has been shown to be the alpha subunit of Gi, but catecholamine-activated G proteins linked to effector systems other than adenylate cyclase might also be modified by this toxin in pancreatic beta-cells.
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PMID:Effects of Bordetella pertussis toxin on catecholamine inhibition of insulin release from intact and electrically permeabilized rat islets. 254 59

The accumulation of inositol phosphates in WRK 1 cells, stimulated with a range of vasopressin concentrations, was diminished by prior exposure to cholera toxin or forskolin, whilst that observed in the presence of maximal concentrations of the hormone was enhanced in pertussis-toxin-treated cells. In the presence of [32P]NAD+, both cholera toxin and pertussis toxin provoked the labelling of peptides with approximate Mrs of 45,000 and 41,000 respectively in the membranes of WRK 1 cells. Exposure to cholera toxin or forskolin for 15-18 h enhanced cyclic AMP accumulation in these cells. The concentrations of these agents which provoked half-maximal cyclic AMP accumulation were similar to those required to diminish receptor-mediated inositol phosphate accumulation by 50%. In contrast, half-maximal ADP-ribosylation of the 45,000Mr peptide needed 100-fold greater concentrations of the toxin than were effective in provoking half-maximal inhibition of inositol phosphate accumulation. Cholera toxin or forskolin also reduced the maximal specific binding, to intact WRK 1 cells, of both [3H][Arg8]vasopressin and the V1a antagonist [3H][beta-mercapto-beta,beta-cyclopentamethylenepropionic acid,O-methyl-Tyr2, Arg8]vasopressin. The kinetics for the loss of this binding capacity following cholera-toxin treatment were very similar to those describing the diminution of vasopressin-stimulated inositol phosphate accumulation in the same cells.
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PMID:Influence of bacterial toxins and forskolin upon vasopressin-induced inositol phosphate accumulation in WRK 1 cells. 254 84

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