Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Melatonin inhibits GnRH-stimulated release of LH from neonatal rat pituitary cells, probably by inhibiting GnRH-induced elevation of intracellular Ca2+. This effect of melatonin seems to involve inhibition of Ca2+ influx through voltage-sensitive channels. Accordingly, it is possible that melatonin could act by hyperpolarizing pituitary cells, which would close these channels. This issue was addressed here by determining if melatonin influences membrane potential. Membrane potential and intracellular Ca2+ were studied in neonatal rat pituitary cells in suspension, using bis-oxonol and Fluo-3 as fluorescent indicators, respectively. It was found that treatment with melatonin alone causes membrane hyperpolarization and that it has a repolarizing effect after GnRH-induced membrane depolarization. This effect on membrane potential appears to be mediated by high affinity melatonin receptors and a pertussis toxin-sensitive Na(+)-dependent mechanism; it is not dependent upon Ca2+, Cl-, or bicarbonate. This may be the molecular basis of action of melatonin in other tissues with high affinity melatonin receptors.
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PMID:Sodium-dependent effects of melatonin on membrane potential of neonatal rat pituitary cells. 132 88

Human neutrophils adherent to a polystyrene plastic surface are vigorously activated, whereas those adherent to fibronectin manifest only a priming response. The basis of these metabolic differences was further characterized; polystyrene-adherent cells, which were shown to spread quickly upon adhesion, exhibited an increase of cytoskeleton-associated actin (F-actin) (measured by a nitrobenzoxadiazole-phallacidin fluorescent staining assay) and a decrease of monomeric G-actin concentration (measured by a DNase inhibition assay); in contrast, fibronectin-adherent cells exhibited little spreading and decreased their F-actin, after 1.5 min of adhesion, to 33.49 +/- 6.9% (mean +/- SD, n = 5) of initial levels found in suspended cells before plating. Actin depolymerization in fibronectin-adherent cells was confirmed by measuring G-actin, which sharply increased during the first minute of adhesion, rising from 0.065 +/- 0.007 to 0.20 +/- 0.035 microgram/microgram of protein (mean +/- SEM, p less than 0.05), and then remained elevated during 5 min of observation. In contrast, soluble fibronectin induced a decrease of G-actin in suspended cells. Cells pretreated with 1 microM cytochalasin D and allowed to adhere to a plastic surface did not spread, failed to generate O2-, and exhibited elevated concentrations of G-actin (0.1 to 0.2 microgram/microgram of protein) during the 5 min of observation. Actin changes, as well as respiratory burst, in adherent cells were shown to proceed through a pertussis toxin-insensitive pathway. Fluo-3 measurements of intracellular Ca2+ concentrations ([Ca2+]i) showed a fourfold and twofold [Ca2+]i increase in polystyrene- and fibronectin-adherent cells, respectively, after 2 min. The small rise in [Ca2+]i in fibronectin-adherent cells corresponds to a primed response of these cells to subsequent activation with FMLP. Ionomycin (1 microM) added to neutrophils just before adhesion on fibronectin induced full activation, i.e., O2- production and actin polymerization. The metabolic events controlling metabolic priming and actin depolymerization are as yet uncharacterized, but fibronectin receptor-linked responses beyond the mediation of cell adhesion have now been identified, suggesting complex metabolic functions of integrin receptors.
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PMID:Comparison of actin changes and calcium metabolism in plastic- and fibronectin-adherent human neutrophils. 150 Jul 23

GnRH stimulates LH release by increasing intracellular Ca2+ ([Ca2+]i). Melatonin is known to inhibit GnRH-stimulated LH release from neonatal rat pituitary cells. In the present report, the issue of whether melatonin acts through [Ca2+]i was addressed. [Ca2+]i was studied in cells in suspension, using Fluo-3 as a fluorescent indicator. In neonatal rat pituitary cells, melatonin inhibited the GnRH-induced [Ca2+]i increase in a dose-dependent manner; the GnRH-induced increase in [Ca2+]i was inhibited 40% by 100 nM melatonin. The relative potencies of several indoles as inhibitors of the GnRH stimulation of [Ca2+]i in neonatal pituitary cells (2-iodo-melatonin greater than melatonin greater than 6-hydroxymelatonin) correlate with their known potencies to inhibit LH release and with their binding affinity to high affinity melatonin receptors, which indicates that these receptors probably mediate the effects of melatonin. Further support for this interpretation comes from the observation that melatonin does not inhibit the GnRH effect on [Ca2+]i in cells obtained from adolescent rat pituitary glands, which lack melatonin receptors and are insensitive to melatonin as an inhibitor of GnRH-stimulated LH release. The possible involvement of an inhibitory G-protein was also investigated by studying the effects of pertussis toxin. Pretreatment with pertussis toxin antagonized the effects of melatonin on [Ca2+]i and LH release. This indicates that melatonin may inhibit the GnRH-induced increase in [Ca2+]i through a mechanism involving a pertussis toxin-sensitive G-protein. To examine the role of extracellular Ca2+ in this effect, the effects of melatonin were examined in a low Ca2+ medium. Under these conditions, the effect of melatonin was markedly reduced, which indicates that melatonin may act by inhibiting Ca2+ influx. These observations indicate that melatonin inhibits GnRH stimulation of [Ca2+]i in neonatal rat gonadotrophs, and this probably explains the inhibitory action of melatonin on GnRH stimulation of LH release.
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PMID:Melatonin inhibits gonadotropin-releasing hormone-induced elevation of intracellular Ca2+ in neonatal rat pituitary cells. 173 18

Flow cytometric methods were utilized to determine N-formylpeptide-induced cytosolic calcium levels in human polymorphonuclear leukocytes (PMNs) detected with the calcium indicator Fluo-3. Fluo-3 was readily loaded into PMNs as the acetoxymethyl ester. At room temperature Fluo-3 extrusion was minimal (less than 10%) over a 2 h time period. Flow cytometric histograms yielded symmetric distributions indicating homogeneous labelling of the cells. Stimulation of the cells with N-formyl-met-leu-phe (FMLP) caused homogeneous activation of all cells as indicated by a shift of the fluorescence distribution to higher fluorescence levels while still maintaining a symmetrical distribution. Resting values or FMLP-induced cytosolic calcium levels were similar in cells loaded over a 20-fold range of Fluo-3-acetoxymethyl ester. The effect of graded pertussis toxin (PT) treatment on the calcium response was determined by incubating cells with different concentrations of pertussis toxin for a time period that yielded a range of ADP ribosolation levels inside the cells. When these cells were activated with FMLP, the fluorescence histograms showed that pertussis toxin treatment resulted in a conversion of cells from responders to nonresponders. The responding cells responded with maximum calcium elevations similar to controls. This behavior may reflect heterogeneous insertion of the A-protomer of PT or a very sharp threshold of coupled G-proteins required to transduce the responses.
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PMID:Pertussis toxin effects on chemoattractant-induced response heterogeneity in human PMNs utilizing Fluo-3 and flow cytometry. 203 19

The expression of GABAB receptors in cultured mouse cerebellar granule cells was investigated in binding experiments using [3H](S,R)-baclofen as well as in functional assessment of the ability of (R)-baclofen to interact with depolarization (15-40 mM KCl) coupled changes in intracellular Ca2+ homeostasis and neurotransmitter release. In the latter case a possible functional coupling between GABAA and GABAB receptors was investigated. The binding studies showed that the granule cells express specific binding sites for (R)-baclofen. The number of binding sites could be increased by exposure of the cells to the GABAA receptor agonist THIP (4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridin-3-ol) during the culture period. Pretreatment of the neurons with pertussis toxin showed that the GABAB receptors are coupled to G-proteins. This coupling was, however, less pronounced when the cells had been cultured in the presence of THIP. When 45Ca2+ uptake was measured or the intracellular Ca2+ concentration ([Ca2+]i) determined using the fluorescent Ca2+ chelator Fluo-3 it could be demonstrated that culturing the neurons in THIP influences intracellular Ca2+ homeostasis. Moreover, this homeostasis was found to be functionally coupled to the GABAB receptors as (R)-baclofen inhibited depolarization-induced increases in 45Ca2+ uptake and [Ca2+]i. (R)-Baclofen also inhibited K(+)-induced transmitter release from the neurons as monitored by the use of [3H]D-aspartate which labels the neurotransmitter pool of glutamate. Using the selective GABAA receptor agonist isoguvacine it could be demonstrated that the GABAB receptors are functionally coupled to GABAA receptors in the neurons leading to a disinhibitory action of GABAB receptor agonists.
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PMID:Role of GABAB receptors in intracellular Ca2+ homeostasis and possible interaction between GABAA and GABAB receptors in regulation of transmitter release in cerebellar granule neurons. 789

The signal pathways of neutrophils following stimulation with the complement fragment C3a (C3a) were studied in neutrophils and compared to the pathways activated by complement fragment C5a (C5a). Analysis of polyphosphoinositol lipid turnover showed that C5a, but not C3a, activated phosphatidylinositol-bisphosphate-3-kinase (PtdInsP2 3-kinase) indicating that different signal pathways are activated by the two anaphylatoxins. To examine whether C3a stimulated Ca2+ transients, cytosolic free Ca2+ levels were analyzed in Fluo-3-labelled neutrophils by flow cytometry. C3a stimulated a fast and concentration-dependent increase of cytosolic free Ca2+. Comparison of the C3a response with that of C5a revealed a more pronounced C5a-triggered Ca2+ rise. Addition of EGTA to the extracellular buffer prior to stimulation did not significantly alter the initial Ca2+ rise at low C5a concentrations, but reduced the time course of the Ca2+ transients at high concentrations. In marked contrast, EGTA completely blocked the Ca2+ response stimulated by C3a in neutrophils labeled with either Indo-1/AM or Fluo-3. Preincubation of neutrophils with pertussis toxin inhibited both C3a- and C5a-stimulated Ca2+ transients, indicating the involvement of guanine-nucleotide-binding proteins (G proteins) in these processes. In order to examine whether the C3a receptor is coupled to G proteins, binding of guanosine 5'-O-(3-[35S]thiotriphosphate) ([35S]GTP[S]) to purified neutrophil plasma membranes was studied. Both C3a and C5a stimulated high-affinity binding of [35S]GTP[S] up to 1.5-fold and 3-fold, respectively. These data suggest that the two anaphylatoxins activate pertussis-toxin-sensitive G proteins, which then trigger different signal transduction pathways. C3a specifically stimulated Ca2+ influx from the extracellular medium, whereas C5a additionally activated the PtdInsP2 3-kinase and stimulated Ca2+ mobilization from intracellular stores.
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PMID:Complement fragment C3a stimulates Ca2+ influx in neutrophils via a pertussis-toxin-sensitive G protein. 822 66

Freshly isolated rat hepatocytes, loaded with the Ca2+ probe Fluo-3, responded to homologous pancreastatin with a sudden increase in free cytosolic Ca2+ ([Ca2+]i) as well as glucose release. Addition of rat pancreastatin (0.1 microM) to hepatocytes resulted in an increase in [Ca2+]i from 150 nM to 700 nM, which declined back to nearly basal values within 2-3 min. Half-maximal and maximal effects were observed at 0.3 and 100 nM pancreastatin respectively. The increase in [Ca2+]i induced by vasopressin and noradrenaline was very similar in extent (from 150 to 800 nM) to that produced by pancreastatin. Neither the alpha 1-adrenergic blocker prazosin nor the vasopressin antagonist V1 modified the increase in [Ca2+]i induced by pancreastatin. Pig pancreastatin and its 33-49 C-terminal fragment produced about 65 and 75% of the effect of homologous pancreastatin respectively. Glucose production correlated with changes in [Ca2+]i in the same order of potency: vasopressin > rat pancreastatin > pig 33-49 pancreastatin > pig 1-49 pancreastatin. The effect of pancreastatin on [Ca2+]i was decreased by 50% when Ca2+ was omitted from the medium, and totally abolished when hepatocytes were depleted of internal Ca2+ stores by preincubation without Ca2+ and with 2 mM EGTA. When hepatocytes were preincubated for 5 min with PMA, the effects of ATP and noradrenaline were prevented, and those of vasopressin and pancreastatin remained unchanged. The pretreatment of hepatocytes with pertussis toxin diminished the response to pancreastatin and vasopressin. These results suggest that pancreastatin is a new Ca(2+)-mobilizing glycogenolytic hormone acting through a specific receptor which may involve both pertussis-toxin-sensitive and -insensitive GTP-binding regulatory proteins.
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PMID:Pancreastatin increases free cytosolic Ca2+ in rat hepatocytes, involving both pertussis-toxin-sensitive and -insensitive mechanisms. 837 59

Opiates are known to function as immunomodulators, in part by effects on T cells. However, the signal transduction pathways mediating the effects of opiates on T cells are largely undefined. To determine whether pathways that regulate free intracellular calcium ([Ca2+]i) and/or cAMP are affected by opiates acting through delta-type opioid receptors (DORs), a cDNA encoding the neuronal DOR was expressed in a stably transfected Jurkat T-cell line. The DOR agonists, deltorphin and [D-Ala2, D-Leu5]-enkephalin (DADLE), elevated [Ca2+]i, measured by flow cytofluorometry using the calcium-sensitive dye, Fluo-3. At concentrations from 10(-11)-10(-7) M, both agonists increased [Ca2+]i from 60 nM to peak concentrations of 400 nM in a dose-dependent manner within 30 sec (ED50 of approximately 5 x 10(-9) M). Naltrindole, a selective DOR antagonist, abolished the increase in [Ca2+]i, and pretreatment with pertussis toxin was also effective. To assess the role of extracellular calcium, cells were pretreated with EGTA, which reduced the initial deltorphin-induced elevation of [Ca2+]i by more than 50% and eliminated the second phase of calcium mobilization. Additionally, the effect of DADLE on forskolin-stimulated cAMP production was determined. DADLE reduced cAMP production by 70% (IC50 of approximately equal to 10(-11) M), and pertussis toxin inhibited the action of DADLE. Thus, the DOR expressed by a transfected Jurkat T-cell line is positively coupled to pathways leading to calcium mobilization and negatively coupled to adenylate cyclase. These studies identify two pertussis toxin-sensitive, G protein-mediated signaling pathways through which DOR agonists regulate the levels of intracellular messengers that modulate T-cell activation.
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PMID:Dual signal transduction through delta opioid receptors in a transfected human T-cell line. 871 Aug 64

Microglial cells respond to most pathological events by rapid transformation from a quiescent to an activated phenotype characterized by increased cytotoxicity and motile activity. To investigate the regulation of microglial motility by different inflammatory mediators, we studied cultured murine microglia by time-lapse video microscopy and a computer-based motility assay. Microglial cells exhibited a high resting motility. The acute application of complement 5a (C5a) immediately induced intense ruffling of microglial membranes followed by lamellipodia extension within few seconds, while formyl-Met-Leu-Phe-OH, bacterial endotoxin (lipopolysaccharide) or inflammatory cytokines did not increase motility. This process was accompanied by a rapid rearrangement of the actin cytoskeleton as demonstrated by labelling with fluorescein isothiocyanate-phalloidin and could be inhibited by cytochalasin B. A GTP-binding protein was involved in the signal cascade, since pertussis toxin inhibited motility and actin assembly in response to C5a. Chemotactic migration in a gradient of C5a was also completely blocked by pertussis toxin and cytochalasin B. The C5a-induced motility reaction was accompanied by an increase in intracellular calcium ([Ca2+]i) as measured by a Fluo-3 based imaging system. Ca2+ transients were, however, not a prerequisite for triggering the increase in motility; motility could be repeatedly evoked by C5a in nominally Ca(2+)-free solution, while Ca2+ signals occurred only upon the first stimulation. Moreover, conditions mimicking intracellular Ca2+ transients, like incubation with thapsigargin or Ca2+ ionophore A23187, were not able to induce any motility reaction, suggesting that Ca2+ transients are not necessary for, but are associated with, microglial motility. Motile activity was shown to be restricted to a defined concentration range of [Ca2+]i as revealed by lowering [Ca2+]i with BAPTA-AM or increasing [Ca2+]i with A23187. Since complement factors are released at pathological sites, this signal cascade could serve to increase motility and to direct microglial cells to the lesioned or damaged area by means of a G-protein-dependent pathway and via the rearrangement of the actin cytoskeleton.
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PMID:Complement 5a controls motility of murine microglial cells in vitro via activation of an inhibitory G-protein and the rearrangement of the actin cytoskeleton. 880 27

beta-Endorphin (beta-EP) and delta opioid receptor (DOR) agonists affect immune functions such as lymphocyte chemotaxis, proliferation, and cytokine production. Recent studies indicate that both neuronal DOR and novel G-protein-coupled receptors with high affinity for beta-EP and DOR agonists are expressed by mononuclear cells. In addition, proenkephalin A mRNA and enkephalin-related peptides are expressed by lymphocytes. These investigations were conducted to identify signal transduction pathways that mediate the effects of beta-EP and DOR agonists on T cells. Calcium mobilization was studied because it is central to T-cell activation initiated by antigen presentation to the T-cell receptor (TCR). Using the calcium-sensitive dye Fluo-3 and flow cytofluorometry to determine the concentration of free intracellular calcium, physiological concentrations of beta-EP were shown to enhance concanvalin. A (con A)-stimulated calcium mobilization by murine splenic T cells (p < 0.01). The DOR antagonist, naltrindole, inhibited this, whereas CTAP, a selective mu OR antagonist, was ineffective. In addition, N-Ac-beta-EP and the mu OR agonist DAMGO, failed to mimic the effects of beta-EP. Although it was less potent than beta-EP, DADLE, a DOR agonist, also enhanced Con-A-induced calcium mobilization (p < 0.01). A DOR-transfected human T-cell line (DOR-Jul.1) was developed to study signal transduction. Both DADLE and the selective DOR agonist, deltorphin, rapidly increased intracellular free calcium concentrations; ED50s were 10(-9) M. Pertussis toxin prevented the response, and EGTA significantly reduced it. In addition, DADLE inhibited forskolin-stimulated cAMP production (ED50: 10(-11) M). These findings with normal splenic T cells and DOR-transfected T-cell line indicate that beta-EP and DOR agonists affect calcium mobilization. This is likely to modulate downstream pathways that regulate T-cell activation and function.
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PMID:Signaling through delta opioid receptors on murine splenic T cells and stably transfected Jurkat cells. 962 68


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