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)

We have studied the effect of pertussis toxin (PT) on in vivo priming of T lymphocytes to insulin. Mice were immunized with bovine insulin in complete Freund's adjuvant and antigen-specific DNA synthesis was measured in lymphoid cell suspensions from lymph nodes and spleens. Insulin-specific response was greatly enhanced both in spleen and lymph nodes if mice were given PT at the time of immunization. Mice given PT presented 3 times more cells in spleen and 4 times less in lymph nodes. However, the major antigen-specific response was still observed in lymph nodes. PT had a strong mitogenic effect in vitro on lymph node cells but a weak effect on spleen cells indicating that the adjuvant activity of PT involves other effects besides the mitogenic activity.
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PMID:Induction of helper T cells by pertussis toxin during in vivo priming to insulin. 183 58

The possible role of cAMP and/or arachidonic acid (and metabolites) in the stimulation of glucose transport elicited by bradykinin in Swiss 3T3 fibroblasts was investigated with particular attention to the part of this effect inhibitable by pertussis toxin. Application of the membrane permeant cAMP analog 8-BrcAMP modified neither basal nor stimulated transport observed after bradykinin, insulin, or the combination of the two, indicating that [cAMP]i fluctuations are probably not involved. In contrast, arachidonic acid, which is released by the cells exposed to bradykinin, was able to markedly stimulate glucose transport, however, only at relatively high concentrations (EC50 approximately 30 microM). The stimulation by arachidonic acid was insensitive to pertussis toxin and was largely inhibited by both the cyclooxygenase blocking drug, indomethacin, and the [Ca2+]i clamping at the resting level (by ionomycin administered in a Ca2(+)-free incubation medium). Neither of the last treatments affected the glucose transport activated by bradykinin to a great extent. Moreover, the bradykinin-induced arachidonic acid release was unaffected by pertussis toxin and markedly inhibited by two treatments ineffective on glucose transport, the blockade of [Ca2+]i increases elicited by the peptide and the administration of the phospholipase A2 blocker, quinacrine. These results exclude that glucose transport stimulation by bradykinin is mediated intracellularly via arachidonic acid release. Since the involvement of Ca2+ and diacylglycerol can also be ruled out by present and previous results, this effect of the peptide appears to be independent of the generation of known second messengers and might be triggered by the direct interaction of a pertussis toxin-sensitive G protein with the glucose transporter in the plane of the plasma membrane.
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PMID:Glucose transport stimulation by bradykinin in Swiss 3T3 fibroblasts: a pertussis toxin-sensitive mechanism operates without involvement of arachidonic acid and cyclic AMP. 184 1

The present report shows that thyrotropin (TSH) regulates all three steps involved in prostaglandin synthesis in FRTL-5 rat thyroid cells, i.e. arachidonic acid release from membrane phospholipids, cyclooxygenase (prostaglandin H synthase) action, and individual prostaglandin formation; however, its action at specific steps may require the presence of, or can be duplicated by, insulin, insulin-like growth factor-I (IGF-I), and/or a serum factor. Thus, TSH releases free arachidonic acid from rat FRTL-5 thyroid cells whose phospholipid fraction is radiolabeled with [3H]arachidonic acid; this action involves a pertussis toxin-sensitive G protein, is not cAMP mediated, and does not require insulin or 5% serum. To quantitate TSH effects on cyclooxygenase activity and on individual prostaglandin formation, a homogenate system and a rapid reversed-phase high pressure liquid chromatography procedure have been developed to measure cyclooxygenase metabolites. TSH increased cyclooxygenase activity in homogenates only if the cells were also exposed to insulin, IGF-I, and/or 5% calf serum; TSH alone had no apparent effect on the activity. Maximal activation, 4-fold over basal/micrograms of DNA, took 36 h to achieve and reflected, at least in part, an increase in cyclooxygenase gene expression. Like cyclooxygenase activity, induction of prostaglandin E2 production required 2 or more factors, i.e. TSH plus insulin/IGF-I or TSH plus insulin/IGF-I plus serum. Increased production of prostaglandin D2, could, however, be detected if cells were treated with TSH alone and the TSH activity could be duplicated by insulin, IGF-I, or calf serum alone.
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PMID:Regulation of prostaglandin synthesis by thyrotropin, insulin or insulin-like growth factor-I, and serum in FRTL-5 rat thyroid cells. 184 72

Pituitary growth hormone (GH) functions physiologically to oppose the actions of insulin on carbohydrate and lipid metabolism by interfering with metabolic events that occur after insulin binds to its receptor. Which postreceptor effects are involved is presently unknown. Recently, we found that insulin rapidly stimulates a phosphatidylinositol phospholipase C (PI-PLC) in adipose tissue of obese (ob/ob) mice and that this effect of insulin is blocked by treatment of the animals with S-carboxymethylated human GH (RCM-hGH), a derivative having mainly anti-insulin activity. The activation of this PI-PLC by insulin is also inhibited by pertussis toxin. Thus, this study was performed to examine whether the inhibitory effect of GH on the activation of this PI-PLC is exerted at the level of signal transmission by guanine nucleotide binding proteins (G proteins). We found that the nonhydrolyzable GTP analogue, guanosine 5'-[gamma-thio]triphosphate, stimulated basal PI-PLC activity in plasma membranes of adipose tissue of saline-treated ob/ob mice, but it did not stimulate the enzyme in adipose membranes from RCM-hGH-treated mice. Also, RCM-hGH treatment markedly inhibited pertussis toxin-catalyzed ADP ribosylation of G protein alpha subunits in the membranes, suggesting some modification of the G proteins by GH. Immunoblot analysis of adipose membranes from saline- and RCM-hGH-treated mice using antiserum AS/7 (anti-Gi1 alpha and anti-Gi2 alpha) or antiserum EC/2 (anti-Gi3 alpha) showed no difference in the amount of Gi alpha-like protein between the groups. These findings suggest that GH interferes with the ability of a putative Gi-like protein to mediate the activation of PI-PLC in adipose membranes without altering the expression of the G protein.
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PMID:Growth hormone inhibits activation of phosphatidylinositol phospholipase C in adipose plasma membranes: evidence for a growth hormone-induced change in G protein function. 184 8

We found that, besides dihydropyridine-sensitive Ca channels, insulin-secreting RINm5F cells also contain a minority (15-25%) of omega-conotoxin (omega-CgTx)-sensitive channels that show a high-affinity binding to [125I] omega-CgTx (Kd 51 pM). Noradrenaline (NA, 10 microM) slows down Ca-channel activation in these cells and produces a sizeable reduction of Ca currents that is relieved by strong pre-conditioning depolarizations (facilitation). The action of NA is mimicked by intracellular application of GTP-gamma-S and is prevented by pertussis toxin (PTX) or by cell pre-incubation with omega-CgTx. This suggests specific noradrenergic inhibition of omega-CgTx-sensitive Ca channels that is modulated by membrane potentials and PTX-sensitive G-protein activation.
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PMID:Noradrenergic inhibition and voltage-dependent facilitation of omega-conotoxin-sensitive Ca channels in insulin-secreting RINm5F cells. 184 38

Mast cells appear to promote fibroblast proliferation, presumably through secretion of growth factors, although the molecular mechanisms underlying this mitogenic potential have not been explained fully by known mast cell-derived mediators. We report here that tryptase, a trypsin-like serine proteinase of mast cell secretory granules, is a potent mitogen for fibroblasts in vitro. Nanomolar concentrations of dog tryptase strongly stimulate thymidine incorporation in Chinese hamster lung and Rat-1 fibroblasts and increase cell density in both subconfluent and confluent cultures of these cell lines. Tryptase-induced cell proliferation appears proteinase-specific, as this response is not mimicked by pancreatic trypsin or mast cell chymase. In addition, low levels of tryptase markedly potentiate DNA synthesis stimulated by epidermal growth factor, basic fibroblast growth factor, or insulin. Inhibitors of catalytic activity decrease the mitogenic capacity of tryptase, suggesting, though not proving, the participation of the catalytic site in cell activation by tryptase. Differences in Ca++ mobilization and sensitivity to pertussis toxin suggest that tryptase and thrombin activate distinct signal transduction pathways in fibroblasts. These data implicate mast cell tryptase as a potent, previously unrecognized fibroblast growth factor, and may provide a molecular link between mast cell activation and fibrosis.
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PMID:Mast cell tryptase is a mitogen for cultured fibroblasts. 186 60

1. Administration of lithium to rats causes a rise in plasma glucose and suppresses glucose-stimulated insulin secretion. These effects are blocked by the alpha 2-adrenoceptor antagonist, yohimbine. 2. Pretreatment of rats with Bordetella pertussis toxin resulted in a reversal of the usual plasma glucose and insulin responses to intravenously administered lithium (4 mEq kg-1). There was a slow fall in plasma glucose, while plasma insulin rose to 267 +/- 42% (+/- s.e.mean) of control values at 30 min. The effect of lithium on glucose-stimulated insulin secretion was also reversed; there was a marked increase in the insulin response which contrasted with the suppression seen in normal controls. 3. In perifused islets of Langerhans isolated from pertussis pretreated rats, the previously described inhibition by lithium of the second phase of glucose-stimulated insulin secretion from normal islets was almost completely abolished. 4. The results are consistent with the hypothesis that these effects of lithium are mediated by the influence of catecholamines on the islets. When the inhibitory effect of alpha 2-adrenoceptors is abolished by pertussis treatment, which blocks the action of the inhibitory guanine nucleotide-binding protein Gi, effects of beta-adrenoceptor stimulation predominate, leading to an increased secretion of insulin.
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PMID:Effect of pertussis pretreatment on plasma glucose and insulin responses to lithium in rats. 188 93

Induction of mitosis by certain growth factors is inhibited by pertussis toxin, indicating that the GTP-binding protein, Gi, is involved in receptor signal transduction to initiate cell division. However, the substrates of receptor-activated Gi that are involved in mitosis have not been determined. The present study has examined whether Gi may directly modulate cell division by receptor-induced subcellular translocation of the alpha subunit of Gi (Gi alpha). Insulin and EGF, particularly when added together or in combination with phorbol dibutyrate (PdBu), induced a rapid (1-4 h) redistribution of Gi alpha from the plasma membrane to perinuclear sites in the cell. After 2 days of stimulation, Gi alpha had translocated into the nucleus of dividing cells and bound specifically to the separating chromatin of dividing nuclei. Unstimulated cells did not display translocation of Gi alpha. This demonstrates a direct involvement of Gi alpha in cell division, which provides an apparently uninterrupted link from growth factor receptor to nucleus.
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PMID:Growth factor-induced cell division is paralleled by translocation of Gi alpha to the nucleus. 190 Jul 94

Guanine nucleotide-binding proteins (G proteins) are critically important mediators of many signal-transduction systems. Several important sites regulating stimulus-secretion coupling and release of insulin from pancreatic beta-cells are modulated by G proteins. Gs mediates increases in intracellular cAMP associated with hormone-induced stimulation of insulin secretin. Gi mediates decreases in intracellular cAMP caused by inhibitors of insulin secretion, e.g., epinephrine, somatostatin, prostaglandin E2, and galanin. G proteins also regulate ion channels, phospholipases, and distal sites in exocytosis. Cholera and pertussis toxins irreversibly ADP ribosylate G proteins and are important tools that can be used both to manipulate G-protein-dependent modulators of insulin secretion and detect and quantify G proteins by electrophoretic techniques. The stage is set to pursue these initial observations in greater depth and ascertain whether G-protein research will provide important new insights into normal and abnormal regulation of insulin secretion.
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PMID:G proteins and modulation of insulin secretion. 190 7

In rat pancreatic acinar cells epidermal growth factor (EGF) and insulin increase both basal and cholecystokinin (CCK-OP) stimulated amylase release in vitro (1) as a long term function of this tissue. Here we show that preincubation of isolated plasma membranes with EGF or with insulin leads to increased incorporation of the GTP-photoaffinity analogue [alpha-32P]GTP-gamma-azidoanilide into 40/41 kDa proteins and to reduction of pertussis toxin- (PT) catalyzed [alpha-32P]ADP-ribosylation of three 40/41 kDa proteins which had been previously identified as Gi1, Gi2 and Gi3 (2). In the presence of GTP gamma S, EGF- and insulin-induced inhibition of PT-mediated [alpha-32P]ADP-ribosylation of 40/41 kDa proteins is eliminated. EGF enhances cholera toxin- (CT) mediated ADP-ribosylation of all three 40/41 kDa Gi-proteins as well as of five 45 and four 48/50 kDa proteins, which had been previously identified as Gs-proteins (2), whereas insulin has no effect. We conclude from our data that both EGF and insulin interact with the same Gi-proteins as CCK-OP does, whereas EGF additionally interacts with nine Gs-proteins. It is likely that one, two or all three 40/41 kDa Gi-proteins are involved in insulin- and EGF-induced potentiation of CCK-OP-stimulated enzyme secretion. In addition interaction of EGF with Gs-protein could play a role in the potentiation of CCK-OP-induced enzyme secretion from pancreatic acinar cells.
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PMID:Receptors for insulin interact with Gi-proteins and for epidermal growth factor with Gi- and Gs-proteins in rat pancreatic acinar cells. 190 90

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