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)

Human neutrophils treated with pertussis toxin had decreased functional responses to several agents including zymosan-treated serum, heat-aggregated immunoglobulin, platelet-activating factor, and fMet-Leu-Phe. Responses affected include superoxide generation and release of lysozyme. The degree and type of inhibition was dependent on the individual receptor and the cellular response studied. Measurement of intracellular calcium levels with quin-2 showed that both fMet-Leu-Phe- and platelet-activating factor-mediated increases in quin-2 fluorescence were diminished as a result of pertussis toxin treatment. fMet-Leu-Phe-mediated calcium uptake was also inhibited. However, under conditions where fMet-Leu-Phe-mediated effects on cell function were completely abolished, only a partial inhibition of 3,4,5-trimethoxybenzoic acid 8-(diethylamino)octyl ester (TMB-8) sensitive calcium uptake was observed. A study of the linked reactions of chemotaxis, capping, and shape change revealed that chemotaxis was inhibited regardless of the chemoattractant utilized (zymosan-treated serum, fMet-Leu-Phe, and platelet-activating factor) and the associated reactions of Con A capping and fMet-Leu-Phe- or Con A-mediated shape change were reduced in pertussis toxin-treated cells. Our results suggest that multiple mediators of inflammation act through a pertussis toxin-sensitive GTP-binding protein that regulates the mobilization of internal calcium as well as calcium uptake and is, in addition, a key control element of shape change, capping, and chemotaxis.
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PMID:A pertussis toxin-sensitive GTP-binding protein in the human neutrophil regulates multiple receptors, calcium mobilization, and lectin-induced capping. 300 14

In FRTL5 rat thyroid cells, norepinephrine, by interacting with alpha 1-adrenergic receptors, stimulates inositol phosphate formation, through activation of phospholipase C, and arachidonic acid release. Recent studies have shown that GTP-binding proteins couple several types of receptors to phospholipase C activation. The present study was undertaken to determine whether GTP-binding proteins couple alpha 1-adrenergic receptors to stimulation of phospholipase C activity and arachidonic acid release. When introduced into permeabilized FRTL5 cells, guanosine 5'-[gamma-thio]triphosphate (GTP[gamma-S]), which activates many GTP-binding proteins, stimulated inositol phosphate formation and arachidonic acid release. Neomycin inhibited GTP[gamma-S]-stimulated inositol phosphate formation but was without effect on GTP[gamma-S]-stimulated arachidonic acid release, suggesting that separate GTP-binding proteins mediate each process. In addition, pertussis toxin inhibited norepinephrine-stimulated arachidonic acid release but not norepinephrine-stimulated inositol phosphate formation. Norepinephrine-stimulated arachidonic acid release but not inositol phosphate formation was also inhibited by decreased extracellular calcium and by TMB-8, suggesting a role for a phospholipase A2. To confirm that arachidonic acid was released by a phospholipase A2, FRTL5 membranes were incubated with 1-acyl-2-[3H]arachidonoyl-sn-glycero-3-phosphocholine. GTP[gamma-S] slightly stimulated arachidonic acid release, whereas norepinephrine acted synergistically with GTP[gamma-S] to stimulate arachidonic acid release. The results show that phospholipase C and phospholipase A2 are activated by alpha 1-adrenergic agonists. Both phospholipases are coupled to the receptor by GTP-binding proteins. That coupled to phospholipase A2 is pertussis toxin-sensitive, whereas that coupled to phospholipase C is pertussis toxin-insensitive.
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PMID:Phospholipase A2 and phospholipase C are activated by distinct GTP-binding proteins in response to alpha 1-adrenergic stimulation in FRTL5 thyroid cells. 302 May 40

We have examined the role of GTP-binding proteins and the associated cyclic AMP- and calcium-related transduction mechanisms in the regulation of capping in human neutrophils. Pertussis toxin (PT), a probe for the GTP-binding protein Ni, abolished capping induced by fluorescein isothiocyanate-conjugated concanavalin A (Con-A), whereas cholera toxin, a probe for the GTP-binding protein Ns, was without effect. Consistent with the latter finding, ligands acting at receptors associated with the Ns protein, namely the prostaglandin E1 and beta-adrenergic agonists, were without effect on the capping reaction. The possible role of mobilization of internal calcium was evaluated by using Quin2-loaded cells. Calcium mobilization was observed at concentrations of Con-A which yielded optimal capping (10 micrograms/ml). Treatment with PT, phorbol myristrate acetate or 8-(NN-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8) abolished both calcium mobilization and capping. Colchicine, which substantially enhanced capping, had no effect on calcium mobilization. At concentrations of the lectin above those required for capping, superoxide generation and enzyme release were noted. These reactions were less susceptible to inhibition by PT, effects being observed only on the Kact. for Con-A-mediated superoxide generation with little effect on the Vmax. The degree of PT-mediated inhibition for enzyme release with Con-A was much lower than that observed with fMet-Leu-Phe. Our results imply that a step involving Ni-mediated calcium mobilization, sensitive to phorbol myristate acetate, is essential to the regulation of capping; a distinct mechanism may be involved in colchicine-mediated enhancement of capping; and Ni may play a relative minor role in the regulation of lectin-mediated exocytosis.
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PMID:Role of a pertussis toxin substrate in the control of lectin-induced cap formation in human neutrophils. 302 44

To characterize the excitatory purinoceptors in vascular smooth muscle cells and the biochemical mechanisms of their actions, the effects of ATP and other nucleotides on Ca2+ mobilization in cultured smooth muscle cells mainly from rat aorta were investigated. ATP induced a transient and dose-dependent increase in the cytosolic Ca2+ concentration. ATP also induced a rapid production of inositol trisphosphate (IP3). The agonist form of ATP was metal-free ATP and its half-maximal effect was obtained at about 0.1 microM. 4-beta-Phorbol 12-myristate 13-acetate (PMA) or 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8) inhibited both Ca2+ response and IP3 production. In addition, TMB-8 but not PMA, significantly decreased the amount of releasable Ca2+ presumably in the sarcoplasmic reticulum. Pertussis toxin also inhibited the Ca2+ response. Based on the dose-dependent effects of various nucleotides and adenosine on the Ca2+ response, it was concluded that the P2 subclass of purinoceptor is involved in the observed ATP effects. In addition, the observed absence or very weak effect of alpha, beta-methylene ATP relative to the effect of ATP suggests that the excitatory P2-purinoceptors in vascular smooth muscle cells do not form a homogeneous group, because the opposite order of potency for these two nucleotides was reported previously for the P2 purinoceptors involved in contraction of some isolated blood vessels.
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PMID:ATP-induced calcium transient in cultured rat aortic smooth muscle cells. 350 44

The mechanism of morphologic change of human cultured umbilical vein endothelial cells (HUVECs) caused by fibrin was investigated. Ancrod, a thrombin-like enzyme, did not cause morphologic alteration of HUVEC by itself at concentrations ranging from 0.01 to 10 U/ml. However, when 0.02 U/ml of ancrod was added to cultured HUVEC monolayers in the presence of citrated plasma, it caused pronounced morphologic change of HUVEC after 6-10 h incubation period. Gly-Pro-Arg-Pro (4 mg/ml), an inhibitor of fibrin polymerization, prevented the morphologic alteration, indicating that the morphologic alteration was caused by the polymerized fibrin. The morphologic change of HUVEC caused by ancrod-generated fibrin was not observed in the presence of an intracellular calcium mobilization inhibitor TMB-8 (50 microM), and the morphologic alteration was also less pronounced with BAPTA(15 microM)-loaded HUVECs and HUVECs pretreated with EGTA (1.2 mM). Ancrod (in Medium 199) itself did not stimulate phosphoinositide breakdown of HUVEC. However, when ancrod was present in plasma, it caused an increase of [3H]IP1 of HUVECs preloaded with [3H]myoinositol. This IP1 increment was inhibited by Gly-Pro-Arg-Pro. The increase of IP1 was significantly inhibited by the pretreatment of monoclonal antibodies 23C6 and 7E3 directed against alpha v beta 3 integrin. Neomycin (1 mM) and pertussis toxin (100 ng/ml), but not aspirin or mepacrine, blocked this enhanced phosphoinositide breakdown. The morphologic change was also prevented by the monoclonal antibodies, 23C6 and 7E3. These results suggest that both intra- and extra-cellular calcium participate in the event of morphologic change of HUVEC caused by ancrod-generated fibrin, and the morphologic change is mediated, at least in part, by fibrin binding to integrin alpha v beta 3 on HUVECs, causing the subsequent activation of the endogenous G-protein coupled phospholipase C.
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PMID:The morphologic change of endothelial cells by ancrod-generated fibrin is triggered by alpha v beta 3 integrin binding and the subsequent activation of a G-protein coupled phospholipase C. 748 43

Tyrosine phosphorylation of the cellular proteins of IL-2-stimulated NK cells was determined by anti-phosphotyrosine immunoblotting. IL-2 induced tyrosine phosphorylation of a 105-110 kDa protein in a dose-dependent manner. The tyrosine phosphorylation took place within 5 min after the addition of IL-2 to NK cells, and reached a maximal level in 15 min. The degree of the tyrosine phosphorylation correlated with IL-2-induced LAK activity. Staurosporine and pertussis toxin, which slightly suppressed LAK induction, did not inhibit tyrosine phosphorylation of the 105-110 kDa protein. Genistein, TMB-8 and EGTA completely inhibited LAK induction; however, the calcium channel blocker and chelator did not prevent the protein tyrosine phosphorylation. Anti-IL-2R beta mAb almost completely suppressed tyrosine phosphorylation of the 105-110 kDa protein, but anti-IL-2R alpha mAb only slightly suppressed it; this result correlated with that of the suppression of LAK activity. No further suppression of the tyrosine phosphorylation was induced even when both mAbs were added. Western blotting of the immunoprecipitates revealed no association of PLC-gamma 1 or IL-2R beta with the 105-110 kDa protein. These results suggest that both tyrosine phosphorylation of the 105-110 kDa protein and translocation of [Ca++]i are essential for NK-LAK induction, and the tyrosine phosphorylation plays a critical role in the early stage of IL-2 signalling from the IL-2R beta chain.
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PMID:NK-LAK induction with IL-2 is regulated by tyrosine phosphorylation of a 105-110 kDa protein. 775 Sep 84

The effects of neuropeptide Y (NPY) on LHRH release from an immortalized cell line were investigated using a flow-through cell culture superfusion system. Immortalized hypothalamic GT1-7 cells were cultured for 72 h and superfused for a total of 180 min. In initial experiments, discrete 5-min pulses of NPY (10(-12)-10(-5) M) were administered to the cells. A clear dose-dependent stimulatory effect on NPY on LHRH release from the cells was observed with a calculated 50% effectiveness concentration of 33 nM. The stimulatory effects of brief NPY exposure were rapid and robust, e.g. reaching and maintaining levels of 173% over baseline for 20 min at the 10(-7) dose. The lowest dose of NPY that showed a significant effect was 10(-10) M; maximal responses were observed at 10(-6) M and reached a plateau thereafter. Control pulses of Dulbecco's modified Eagle's medium (DMEM) and 10(-6) M substance P or arg-vasopressin were also presented to the cells to serve as controls for our pulse protocol, and these challenges produced no significant LHRH responses. The NPY receptor antagonists, PYX1 and PYX2, at 10(-8) M, completely blocked the observed NPY responses in these cells. To assess the NPY receptor subtypes that mediate the NPY effects pharmacologically, GT1-7 cells were challenged with a Y1 receptor agonist, (Leu31Pro34)NPY, a Y2 receptor agonist, NPY(13-36), or peptide YY, at doses 10(-12)-10(-5) M. All four peptides stimulated LHRH release from GT1-7 cells with a rank-ordered potency of NPY = peptide YY > Y1 agonist = Y2 agonist. To examine possible signal transduction mechanism(s) involved in mediating this effect, pertussis toxin, RpcAMPs (cyclic adenosine-3'5'-monophosphothioate Rp diastereomer), Ca(2+)-free DMEM and TMB-8 (3, 4, 5-trimethoxybenzoic acid 8-(diethylamino) octylester) were used to treat the cells before and during superfusion with NPY. Treatment with pertussis toxin, RpcAMPs, and Ca(2+)-free DMEM did not significantly alter NPY-stimulated LHRH release responses to 10(-7) M NPY. However, the addition of 100 microM and 250 microM TMB-8 to Ca(2+)-free DMEM almost completely blocked this NPY effect, as did 10 microM ryanodine. Finally, the locus of action for this NPY effect was examined using tetrodotoxin to reduce action potential propagation in the GT1-7 cells. Tetrodotoxin treatment blocked the LHRH response to NPY by more than 50%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neuropeptide Y stimulates luteinizing hormone-releasing hormone release from superfused hypothalamic GT1-7 cells. 792 25

Previous studies have shown that fibronectin (Fn) enhances phagocytosis and killing of antibody-coated bacteria by neutrophils and macrophages. In an attempt to understand the mechanism of this enhancement, we have investigated the effects of Fn on phagocytosis-related actin organization as well as respiratory burst activity in neutrophils, monocytes and culture-derived macrophages. Employing an NBD-phallacidin flow cytometric analysis of filamentous actin formation, we found that Fn promotes rapid actin polymerization within 30 seconds in neutrophils, monocytes, and macrophages, but not lymphocytes. Enhancement of actin polymerization by Fn was concentration-dependent and mediated by a pertussis toxin- but not cholera toxin-sensitive G protein. Inhibition of protein kinase C by sphingosine (20 microM), calcium influx by verapamil (0.1 mM), or intracellular calcium mobilization by 8-(N,N-diethyl-amino) octyl-3,4,5-trimethoxybenzoate HCl (TMB-8; 0.1 mM) did not block Fn-enhanced actin polymerization in phagocytes. Incubation of neutrophils and macrophages on microtiter plates precoated with Fn suppressed superoxide (O2-) production induced by IgG- and IgA- opsonized group B streptococci. In contrast, Fn significantly enhanced IgA- and IgG-mediated O2- production by freshly isolated monocytes. These data suggest that Fn enhances phagocytosis, presumably through G protein-coupled cytoskeleton reorganization and augments O2- production by circulating monocytes. In contrast, it appears to suppress O2- production by the active phagocytic cells, neutrophils and macrophages. This may result in enhanced phagocytosis and intracellular killing of microorganisms without damaging interstitial tissues.
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PMID:Effects of fibronectin on actin organization and respiratory burst activity in neutrophils, monocytes, and macrophages. 810 71

The low affinity IgE receptor CD23 may play a role in several B lymphocyte functions, such as cell activation and multiplication, Ag presentation, and IgE production. We have previously reported that ligation of the CD23 molecule with anti-CD23 mAb, or IgE-anti-IgE complexes, leads to phosphoinositide hydrolysis and calcium mobilization through the generation of Inositol (1,4,5) trisphosphate via a process involving a Pertussis toxin insensitive GTP-binding protein. In our work, we show that anti-CD23 mAb elicit an increase in cAMP concentration in human peripheral blood-derived B lymphocytes. This effect was detected both in resting and in IL-4-stimulated B cells displaying, respectively, low and high levels of CD23. Maximum cAMP accumulation was reached about 20 min after addition of the mAb. Involvement of Fc gamma RII in this process could be excluded because cAMP increase was also triggered by mAb anti-CD23 F(ab')2 fragments. Accumulation of cAMP was also observed when IgE-sensitized activated B lymphocytes were challenged with the specific hapten. Several lines of evidence indicate that the cAMP increase after CD23 ligation may result, in part, from the stimulation of phosphoinositidase C, inasmuch as it was markedly impaired by treatment with TMB-8, an inhibitor of InsP3-induced calcium release from intracytoplasmic stores and with BAPTA, an intracellular calcium chelator. Addition of GTP-gamma S to permeabilized B cells or to membrane preparations did not potentiate the effect of the mAb, suggesting that a Gs protein is not directly implicated in the generation of cAMP. Besides, cAMP accumulation is not due to the production of PG because it is not modified by indomethacin, an inhibitor of the cyclooxygenase pathway. Pretreatment of B lymphocytes with either anti-CD23 mAb or IL-4 led to autologous as well as heterologous desensitization. This negative cross-talk, at the level of cAMP, between the signaling pathways triggered by ligation of CD23 and of the IL-4 receptor, could contribute to the inhibitory effect of anti-CD23 mAb on IL-4-dependent B cell activation and differentiation.
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PMID:Ligation of CD23 triggers cyclic AMP generation in human B lymphocytes. 838 20

The spontaneous decline of insulin secretion which occurs under a variety of secretory conditions is well documented and suggests a general desensitization of the secretory process distal to signal recognition. Accordingly, we have investigated the effects of agents thought to mobilize intracellular Ca++ on insulin secretion over 24 h, which includes periods of rising secretory activity (second phase) and desensitized secretory activity (third phase). During the first 3 h of glucose stimulation of freshly isolated rat islets, insulin secretion was strongly inhibited by 30 microM 3,4,5-trimethoxybenzoic acid 8-(diethylamino) octyl ester (TMB) or 300 microM tetracaine hydrochloride (TC). However, when either of these agents was added for the first time to islets at h 20 when insulin secretion was at a low steady rate (third phase), insulin secretion was greatly enhanced. Both these inhibitory and stimulatory effects declined with continued administration. Removal of TMB and rechallenge with high glucose plus forskolin uncovered a residual inhibition in both chronically and acutely treated islets. Coadministration of forskolin with either TMB or TC blunted both inhibitory and stimulatory effects. Pertussis toxin pretreatment, however, did not alter subsequent response of islets to either agent. Thus TMB or TC have opposite, phase-dependent effects on glucose-stimulated insulin secretion. We postulate that potentiators of glucose-stimulated insulin secretion, which are increased during second phase, are most sensitive to inhibitory effects of TMB or TC, and that the low steady rate of third phase permits their stimulatory component(s) to become apparent.
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PMID:Opposite, phase-dependent effects of 3,4,5-trimethoxybenzoic acid 8-(diethylamino) octyl ester or tetracaine on islet function during three phases of glucose-stimulated insulin secretion. 850 38


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