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)

In human neutrophils, the chemotactic peptide N-formyl-L-methionyl-L-leucyl-L-phenylalanine (fMLP) induces increases in the intracellular free Ca2+ concentration ([Ca2+]i) with subsequent activation of beta-glucuronidase release and superoxide (O2-) production. Results from several laboratories suggest that the increase in [Ca2+]i is due to activation of non-selective cation (NSC) channels. We studied the biophysical characteristics, pharmacological modulation and functional role of NSC channels in dibutyryl cyclic AMP (Bt2cAMP)-differentiated HL-60 cells. fMLP increased [Ca2+]i by release of Ca2+ from intracellular stores and influx of Ca2+ from the extracellular space. fMLP also induced Mn2+ influx. Ca2+ and Mn2+ influxes were inhibited by 1-(beta-[3-(4-methoxyphenyl)propoxy]-4-methoxyphenethyl)-1H-imidazole hydrochloride (SK&F 96365). Under whole-cell voltage-clamp conditions, fMLP and ATP (a purinoceptor agonist) activated inward currents characterized by a linear current-voltage relationship and a reversal potential near 0 mV. NSC channels were substantially more permeable to Na+ than to Ca2+. SK&F 96365 inhibited fMLP- and ATP-stimulated currents with a half-maximal effect at about 3 microM. Pertussis toxin prevented stimulation by fMLP of NSC currents and reduced ATP-stimulated currents by about 80%. Intracellular application of the stable GDP analogue, guanosine 5'-O-[2-thio]diphosphate, completely blocked stimulation by agonists of NSC currents. In excised inside-out patches, single channel openings with an amplitude of 0.24 pA were observed in the presence of fMLP and the GTP analogue, guanosine 5'-O-[3-thio]triphosphate. The bath solution contained neither Ca2+ nor ATP. The current/voltage relationship was linear with a conductance of 4-5 pS and reversed at about 0 mV. fMLP-induced beta-glucuronidase release and O2- production were substantially reduced by replacement of extracellular CaCl2 or NaCl by ethylenebis(oxyethylenenitrilo)tetra-acetic acid and choline chloride respectively. In the absence of Ca2+ and Na+, fMLP was ineffective. SK&F 96365 inhibited fMLP-induced beta-glucuronidase release and O2- production in the presence of both Ca2+ and Na+, and in the presence of Ca2+ or Na+ alone. NaCl (25-50 mM) enhanced the basal and absolute extent of fMLP-stimulated GTP hydrolysis of heterotrimeric regulatory G-proteins in HL-60 membranes. The order of effectiveness of salts in enhancing GTP hydrolysis was LiCl > KCl > NaCl > choline chloride.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Formyl peptides and ATP stimulate Ca2+ and Na+ inward currents through non-selective cation channels via G-proteins in dibutyryl cyclic AMP-differentiated HL-60 cells. Involvement of Ca2+ and Na+ in the activation of beta-glucuronidase release and superoxide production. 128 79

Agonist-bound receptors activate heterotrimeric (alpha beta gamma) G proteins by catalysing replacement by GTP of GDP bound to the alpha subunit, resulting in dissociation of alpha-GTP from the beta gamma subunits. In most cases, alpha-GTP carries the signal to effectors, as in hormonal stimulation and inhibition of adenylyl cyclase by alpha s and alpha i respectively. By contrast, genetic evidence in yeast and studies in mammalian cells suggest that beta gamma subunits of G proteins may also regulate effector pathways. Indeed, of the four recombinant mammalian adenylyl cyclases available for study, two, adenylyl cyclases II and IV, are stimulated by beta gamma. This effect of beta gamma requires costimulation by alpha s-GTP. This conditional pattern of effector responsiveness led to the prediction that receptors coupled to many G proteins will mediate elevation of cellular cyclic AMP, provided that Gs is also active. We now confirm this prediction. Coexpression of mutationally active alpha s with adenylyl cyclase II converted agonists that act through 'inhibitory' receptors (coupled to Gi) into stimulators of cAMP synthesis. Experiments using pertussis toxin and a putative scavenger of beta gamma, the alpha subunit of transducin, suggest that beta gamma subunits of the Gi proteins mediated this stimulation. These findings assign a new signalling function to beta gamma subunits of Gi proteins, the conditional stimulation of cAMP synthesis by adenylyl cyclase II.
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PMID:Hormonal stimulation of adenylyl cyclase through Gi-protein beta gamma subunits. 131 25

The cortex of the rabbit (Oryctolagus cuniculus) is rich in melatonin binding sites, and particularly abundant is the parietal cortex. Consequently, we characterized the putative melatonin receptor in the parietal cortex by a series of in vitro ligand-receptor binding experiments and biochemical and electrophysiological studies. The in vitro saturation and competition experiments demonstrated that the binding in the crude cortical membrane preparations was of high affinity and specificity. Guanine nucleotides (GDP, GTP, and GTP gamma S) inhibited the specific 2-[125I]iodomelatonin binding in a dose-dependent manner. Coincubation with a nonhydrolyzable GTP analog provoked a shift in the binding affinity; the numerical values of the Kd increased from 20-30 to 200-600 pM. Melatonin, in nanomolar concentrations, was able to inhibit the forskolin-stimulated accumulation of cAMP in parietal cortex explants, and preincubation with pertussis toxin counteracted this effect of melatonin. Apparently, the melatonin binding site in the rabbit parietal cortex is linked to its second messenger via a pertussis toxin-sensitive G-protein, probably of the inhibitory Gi class, similar to what has been described for different parts of the brain of other vertebrates. The experiments on the spontaneous firing activity of single neurons in the third to fourth layer of the parietal cortex in anesthetized animals showed that melatonin and its potent agonist 2-iodomelatonin exhibited gamma-aminobutyric acid (GABA)-like effects and were able alone, in nanomolar concentrations, to significantly slow the neuronal firing activity. Moreover, both melatonin and 2-iodomelatonin potentiated the effect of GABA on the neuronal activity, leading to powerful inhibition of the tested neurons. Undoubtedly, the binding site in the rabbit parietal cortex possesses all of the characteristics of a functional receptor. We suggest that melatonin is involved in the control of fundamental cortical functions and that it acts in concert with GABA, one of the two major inhibitory neurotransmitters in the central nervous system.
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PMID:Melatonin signal transduction and mechanism of action in the central nervous system: using the rabbit cortex as a model. 131 48

Pretreatment of pancreatic beta cells with pertussis toxin resulted in a 30% increase in peak whole-cell Ca2+ currents recorded in the absence of exogenous intracellular guanine nucleotides. Intracellular application of 90 microM GTP[gamma S], by liberation from a caged precursor, resulted in 40% reduction of the peak Ca2+ current irrespective of whether the current was carried by Ca2+ or Ba2+. Effects on the delayed outward K+ current were small and restricted to a transient Ca(2+)-dependent K+ current component. Inhibition by GTP[gamma S] of the Ca2+ current was not mimicked by standard GTP and could not be prevented either by pretreatment with pertussis toxin or by inclusion of GDP[beta S] or cyclic AMP in the intracellular medium. The inhibitory effect of GTP[gamma S] could be counteracted by a prepulse to a large depolarizing voltage. A similar effect of a depolarizing prepulse was observed in control cells with no exogenous guanine nucleotides. These observations indicate that inhibition of beta cell Ca2+ current by G protein activation results from direct interaction with the channel and does not involve second-messenger systems. Our findings also suggest that the beta cell Ca2+ current is subject to resting inhibition by G proteins.
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PMID:Inhibition of L-type calcium channels by internal GTP [gamma S] in mouse pancreatic beta cells. 131 69

Phospholipid base exchange activity using choline as substrate was detected in plasma membranes (PM) and other subcellular fractions of rat liver, with microsomes (MS) showing the highest specific activity. In contrast, phospholipase D activity was only detected in PM. In PM, choline exchanged for phosphatidylcholine (PC), phosphatidylethanolamine (PE), and phosphatidylserine (PS), whereas ethanolamine exchanged for PE and PS, and serine exchanged for PS. Ca2+ (10 microM or higher) stimulated choline incorporation into PC in MS and PM, whereas Mg2+ (10 microM or higher) stimulated it only in PM. Ethanolamine and serine incorporation into PM phospholipids was also stimulated by Ca2+, and inositol incorporation by Mn2+. Phospholipase D activity was substantial in the presence of EGTA and was slightly stimulated by Ca2+ concentrations less than 500 microM. It was undetectable without Mg2+. Low concentrations of oleate (1 mM or less) stimulated phospholipase D activity. These concentrations inhibited choline base exchange activity, whereas higher concentrations (3-8 mM) were stimulatory. Comparison of the subcellular distribution and Ca2+, Mg2+, and oleate effects on choline base exchange and phospholipase D activities supports the view that they are catalyzed by different enzymes. The incorporation of choline, but not ethanolamine or serine, into the phospholipids of PM, but not MS, was stimulated by micromolar concentrations of guanosine 5'-3-O-(thio)triphosphate (GTP gamma S) and other slowly hydrolyzable analogues of GTP. GDP, GMP, and other nucleoside triphosphates and their analogues were ineffective. GTP gamma S stimulation of base exchange activity was dependent upon Mg2+ and was inhibited by high concentrations of guanosine 5'-O-2-(thio)diphosphate. In the presence of low concentrations of GTP gamma S, ATP and its slowly hydrolyzable analogues stimulated base exchange activity. Dose-response curves for these nucleotides revealed a potency order consistent with mediation by purinergic receptors of the P2Y type. Base exchange activity stimulated by ATP plus GTP gamma S or GTP gamma S alone was not altered by treatment with pertussis or cholera toxins. These results suggest that the choline base exchange activity of liver PM is regulated by a pertussis toxin-insensitive G-protein linked to P2Y purinergic receptors.
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PMID:Phospholipid base exchange activity in rat liver plasma membranes. Evidence for regulation by G-protein and P2y-purinergic receptor. 131 19

1. Actions of histamine on the voltage-dependent Ba2+(Ca2+) currents (IBa, ICa) were investigated using the whole-cell patch-clamp technique on dispersed smooth muscle cells from the rabbit saphenous artery. 2. Histamine (half-maximal dose, EC50 = 530 nM) augmented the IBa evoked by a brief depolarizing pulse (100 ms duration; to +10 mV from a holding potential of -80 mV) in a concentration-dependent manner. The maximum augmentation was obtained with 30 microM-histamine (1.29 times control). This augmentation of IBa was inhibited by the H3-antagonist, thioperamide (Ki = 30 nM, slope of the Schild plot = 1.0), but not by H1- or H2-antagonists (mepyramine or diphenhydramine, or cimetidine, respectively). 3. An H3-agonist, R alpha-methylhistamine (EC50 = 93 nM), also augmented IBa in a concentration-dependent manner at a holding potential of -80 mV and the maximum augmentation (1.25 times control) was obtained with 10 microM. This augmentation was also inhibited by thioperamide, but not by the above H1- and H2- antagonists. 4. Intracellularly applied 500 microM-guanosine 5'-triphosphate (GTP) enhanced, but 1 mM-guanosine 5'-O-(2-thiodiphosphate) (GDP beta S) abolished, the histamine-induced augmentation of IBa. When one of the non-hydrolysable GTP analogues, guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S; greater than 5 microM), guanylyl-imidodiphosphate (GMP-PNP; 200 microM) or guanylyl (beta, gamma-methylene)-diphosphonate (GMP-PCP; 1 mM) was intracellularly applied, the IBa amplitude evoked without the application of histamine was not affected, but the excitatory effect of histamine on IBa was reversed to an inhibition. Pre-treatment with pertussis toxin (PTX: 300 ng/ml and 3 micrograms/ml) did not modify the histamine-induced responses in the absence or presence of GTP gamma S. 5. 4 beta-Phorbol 12,13-dibutylate (PDBu) increased the amplitude of IBa. However, this action of PDBu was not enhanced by the application of GTP (500 microM) in the pipette, but additional application of histamine further increased the amplitude of IBa. Pre-treatment with a potent non-selective protein kinase inhibitor, 1-(5-isoquinolinesulphonyl)-2-methylpiperazine dihydrochloride (H-7; 100 microM), did not modify the histamine-induced current augmentation or inhibition observed in the presence or absence of intracellular GTP gamma S.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Histamine H3-receptor activation augments voltage-dependent Ca2+ current via GTP hydrolysis in rabbit saphenous artery. 131 41

The effects of guanosine 5'-[beta-thio]triphosphate (GTP beta[S]) on G proteins have been examined in Chinese hamster lung fibroblasts (CCL39 line) permeabilized with alpha-toxin from Staphylococcus aureus. Although much less effective than guanosine 5'-[gamma-thio]triphosphate (GTP gamma[S]), both (Rp) and (Sp) diastereomers of GTP beta[S] were found to activate three G protein-mediated pathways: inhibition of forskolin-stimulated adenylate cyclase (mediated by Gi), potentiation of receptor-mediated activation of adenylate cyclase (mediated by Gs), and activation of phosphoinositide breakdown (mediated by Gp). Activation of Gi and Gs occurred above 3 microM-GTP beta[S], but activation of Gp only occurred above 100 microM-GTP beta[S]. Moreover, the order of effectiveness of the two diastereomers was not the same for the three G protein-mediated processes. Whereas both Gi and Gs were more effectively activated (about 5-fold) by (Sp)-GTP beta[S] than by (Rp)-GTP beta[S], Gp showed a marked preference for the (Rp) isomer. Indeed, (Rp)-GTP beta[S] induced the formation of inositol phosphates with a shorter latency and was a better competitor of GDP for binding to Gp than the (Sp) isomer. These results point to different guanine nucleotide-binding properties for Gi and Gs on the one hand and Gp on the other. At least two distinct Gp proteins, differing by their sensitivity to pertussis toxin, are present in CCL39 cells. Since pretreatment of cells with pertussis toxin completely suppressed the effects of (Rp)-GTP beta[S] on Gi, while only slightly attenuating its effects on Gp, we believe that it is the pertussis toxin-insensitive Gp which prefers the (Rp) isomer. Therefore (Rp)-GTP beta[S] may be a valuable tool for the selective activation and the biochemical characterization of this pertussis toxin-insensitive Gp.
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PMID:Activation of G proteins by (Rp) and (Sp) diastereomers of guanosine 5'-[beta-thio]triphosphate in hamster fibroblasts. Differential stereospecificity of Gi, Gs and Gp. 131 29

The regulatory effects of cations and guanine nucleotides on mu receptor binding after opioid drug and pertussis toxin treatment were studied in the rat spinal cord model. Continuous intrathecal (i.t.) infusion with PL017 for 5 days induced tolerance in a dose-dependent manner. Maximal tolerance was observed at day 2. A single i.t. dose (1 microgram) of pertussis toxin also induced tolerance to opioid. When mu receptor binding of the high-affinity sites was determined by 125I-FK33824, spinal membrane preparations from morphine- and pertussis toxin-induced tolerant animals demonstrated approximately 30% less binding than control membranes. Analysis of equilibrium competition binding of FK33824 against [3H]naloxone under a variety of experimental conditions (i.e., cations and guanine nucleotides) revealed differences among control and treated membranes. With Na+ (100 mM) + GDP (100 microM) pretreated membranes and binding assays conducted in the presence of Mg++, all mu receptors were observed to be in a high-affinity state in control membranes, whereas about 30% of receptors were in the low-affinity state in membranes from opioid- and pertussis toxin-treated animals. The increase in the proportion of low-affinity sites was dependent upon the infusion dose of PL017, and the increase correlated well with the degree of opioid tolerance developed. The regulatory effect of 5'-guanylylimidodiphosphate on opioid agonist binding was reduced in membranes from pertussis toxin- or opioid-treated animals. In binding assays conducted in the presence of Na+ (100 mM) + Mg++ (5 mM) + 5'-guanylylimidodiphosphate (30 microM) or Na+ (100 mM) + GDP (100 microM), all mu receptors in control membranes were in a low affinity-state, while those from opioid- or pertussis toxin-treated animals existed in both the high- and the low-affinity states. Continuous i.t. infusion with PL017 at the high dose of 1 microgram/hr for 5 days also decreased significantly (about 40%) the total number of receptors. These studies indicate that continuous opioid infusion and pertussis toxin treatment results in impairment in the receptor-G-protein coupling. This is reflected by the decreased regulatory effects of Mg++ and guanine nucleotides. Thus, in addition to receptor down-regulation, which is induced by PL017 at high doses, receptor-G-protein uncoupling may play a role in opioid tolerance induced by continuous infusion with morphine and PL017.
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PMID:Continuous intrathecal opioid treatment abolishes the regulatory effects of magnesium and guanine nucleotides on mu opioid receptor binding in rat spinal membranes. 132 Jun 89

Growth cones of isolated neurons B5 of Helisoma were voltage clamped in the whole-cell configuration. Depolarization of growth cones to -20 mV or greater activated a high-voltage-activated (HVA) calcium current. Addition of the neuropeptide FMRFamide (1 microM), which causes a presynaptic inhibition of synaptic transmission, reversibly reduced the calcium current magnitude. This inhibitory effect is mediated by a pertussis toxin (PTX)-sensitive G protein. Dialysis with the non-hydrolyzable GTP analogs GTP gamma S and Gpp(NH)p caused FMRFamide's effect to become irreversible. Dialysis with GDP beta S or preincubation with PTX prevented FMRFamide from reducing the calcium current. Thus, one role of growth cone G proteins is to modulate ion channels in growth cone membrane which in turn may control growth cone motility.
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PMID:Modulation of growth cone calcium current is mediated by a PTX-sensitive G protein. 132 Jul 49

The present study was conducted to examine an involvement of G protein in the action of activin A in rat parenchymal liver cells. Activin A induced a dose-dependent increase in inositol phosphates in cells prelabelled with [3H]inositol. The effect of activin A was completely blocked by pretreatment of the cells with pertussis toxin. In contrast, pertussis toxin had little effect on angiotensin II-induced production of inositol phosphates. Both activin A and angiotensin II inhibited glucagon-mediated production of cAMP. Pretreatment of the cells with pertussis toxin blocked the inhibition induced by both activin A and angiotensin II. In permeabilized cells, activin A augmented production of inositol phosphates. Activin-mediated production of inositol trisphosphate was enhanced by GTP-gamma S and was attenuated by GDP-beta S. These results suggest that a pertussis toxin-sensitive G protein(s) may be involved in the action of activin A in hepatocytes.
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PMID:Pertussis toxin blocks activin A-induced production of inositol phosphates in rat hepatocytes. 132 3

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