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)

Adrenaline and somatostatin inhibit insulin secretion via pertussis toxin (PTX)-sensitive mechanisms. Since glucose-stimulated release involves inhibition of ATP-sensitive K+ (K+ATP) channels and activation of Ca2+ influx, we took advantage of the glucose-sensitive, insulin-secreting cell line INS-1 to investigate whether inhibitors of insulin release modulate membrane voltage and K+ATP channel activity in cell-attached patch-clamp experiments. We found that adrenaline, through alpha2-adrenoceptors, and somatostatin counteracted glucose-induced depolarization and action potentials. As expected, these effects were mediated via PTX-sensitive G proteins since PTX pretreatment of the cells eliminated the effects of adrenaline and somatostatin on membrane voltage. When INS-1 cells were activated by adding both the K+ATP channel inhibitor tolbutamide and the adenylyl cyclase activator forskolin, adrenaline and somatostatin still repolarized the plasma membrane. Single-channel measurements in the cell-attached mode revealed that tolbutamide closed a 40 to 70 pS K+ channel which was neither reopened by adrenaline nor by somatostatin. In parallel cell preparations, insulin secretion was measured by radioimmunoassay. Insulin release induced by glucose, forskolin and tolbutamide was abolished by adrenaline. In contrast, somatostatin attenuated insulin secretion by only 30%. After comparing the potency of adrenaline and somatostatin on membrane voltage and on insulin secretion, it is concluded that the repolarizing effect of adrenaline on membrane voltage is not sufficient to explain its potent inhibitory effect on insulin secretion.
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PMID:Adrenaline-, not somatostatin-induced hyperpolarization is accompanied by a sustained inhibition of insulin secretion in INS-1 cells. Activation of sulphonylurea K+ATP channels is not involved. 866 72

We studied the mechanisms underlying alpha2-adrenergic receptor (AR)-mediated increase in intracellular free calcium ([Ca2+]i) in freshly dispersed myometrial cells from sows in the luteal phase of the estrous cycle. After the blockade of beta-ARs with propranolol, epinephrine increased [Ca2+]i dose-dependently in both the presence and absence of extracellular Ca2+. The rank order of alpha antagonists in inhibiting [Ca2+]i response to epinephrine was yohimbine > WB4101 >> prazosin in both the presence and absence of extracellular Ca2+, suggesting that epinephrine acts on alpha(2A)-ARs to increase Ca2+ influx as well as Ca2+ release from intracellular stores. Thapsigargin, the blocker of the Ca2+ pump in the sarcoplasmic reticulum, abolished the release but did not affect the influx. Pertussis toxin (PTX) inhibited the influx but failed to change the release. Nimodipine, an L-type Ca2+ channel blocker, nearly abolished the influx. The peak increase in [Ca2+]i caused by epinephrine was reached within 20 sec of administration. Intracellular cAMP concentrations were also decreased at 20 sec post-epinephrine. Epinephrine enhanced the L-type Ca2+ channel current, whereas forskolin suppressed it. Maximization of intracellular cAMP content by applying 8-bromo-cAMP (100 microM) blocked the effect of epinephrine on the current. U-73122, a phospholipase C inhibitor, reduced the Ca2+ release by epinephrine and oxytocin. Our results suggested that 1) activation of alpha2-ARs induces Ca2+ influx through opening L-type Ca2+ channels as well as inducing Ca2+ release from intracellular stores, and 2) a PTX-sensitive G protein couples negatively to adenylyl cyclase, leading to a decrease in cAMP formation which may be involved in the activation of Ca2+ channels. In addition, our results are consistent with the coupling of alpha2-ARs to a PTX-insensitive G protein (G(q)) to release Ca2+ from intracellular stores.
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PMID:Alpha2-adrenergic receptor-mediated Ca2+ influx and release in porcine myometrial cells. 916 Jul 37

We have compared the effects of adrenaline on activation of mitogen-activated protein kinase (MAP kinase), cyclic AMP accumulation and [3H]thymidine uptake in OK cells, a cell line derived from proximal tubules of the opossum kidney. Effects of serotonin and the direct protein kinase C activator, phorbol-12-myristate-13-acetate (PMA), were also studied. Adrenaline transiently (peak at 5 min, return to baseline by 30 min) and concentration-dependently (EC50 between 10 and 100 nM) stimulated MAP kinase activity. Maximal stimulation was approximately 100% above basal and was similar to the effects of 1 microM serotonin or 1 microM PMA. MAP kinase activation by adrenaline was inhibited by 10 microM phentolamine or 1 microM yohimbine but not significantly affected by 100 nM prazosin or 200 nM pindolol. The selective alpha2-adrenoceptor agonist UK 14,304 (10 microM) also stimulated MAP kinase activity. Activation of the 42 and 44 kDa ERK forms of MAP kinase was demonstrated by immunoblot analysis. The effect of adrenaline and UK 14,304 on MAP kinase was inhibited by pertussis toxin pretreatment and by the MAP kinase kinase inhibitor, PD 98059 (100 microM). Stimulation of MAP kinase activity was independent of cellular cAMP levels and was not affected by protein kinase C downregulation. Adrenaline, UK 14,304, serotonin, and PMA stimulated [3H]thymidine uptake, an effect inhibited by PD 98059. We conclude that adrenaline stimulates MAP kinase activity in OK-cells via alpha2-adrenoceptors and pertussis sensitive G proteins. While this occurs independently of cellular cAMP levels and protein kinase C, it involves the MEKI form of MAP kinase kinase and the ERK forms of MAP kinase. This activation results in enhanced cellular proliferation as assessed by [3H]thymidine uptake.
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PMID:Alpha2-adrenoceptors in opossum kidney cells couple to stimulation of mitogen-activated protein kinase independently of adenylyl cyclase inhibition. 927 29

Cell capacitance (Cm), cell conductance (Gm), access conductance (Ga) and membrane voltage (Vm) were measured simultaneously in insulin secreting cells using the dual frequency method. Depolarization and stimulation of the cells with secretagogues increased Cm. EGTA abolished the increase in [Ca2+]i and prevented the rise of Cm. Adrenaline inhibited the augmentation of Cm without lowering [Ca2+]i. In pertussis toxin pretreated cells adrenaline had no effect. Thus, stimulation of insulin secretion is accompanied by an increase in Cm. Inhibition of exocytosis by adrenaline occurs even in the presence of elevated [Ca2+]i, i.e. at a more distal step of exocytosis.
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PMID:Adrenaline inhibits depolarization-induced increases in capacitance the presence of elevated [Ca2+]i in insulin secreting cells. 932 57

In human erythroleukemia (HEL) cells, stimulation of alpha2-adrenoceptors by adrenaline or neuropeptide Y Y1 receptors by neuropeptide Y, concomitantly inhibit cAMP accumulation and stimulate mobilization of Ca2+ from intracellular stores via pertussis toxin-sensitive G-proteins. Treatment of HEL cells in chemically-defined, serum-free medium with 1.25% dimethylsulfoxide (DMSO) for 4 days, increased alpha2-adrenoceptor number by 120%, while the neuropeptide Y receptor number was not significantly changed. In DMSO-treated HEL cells, Ca2+ elevations by adrenaline or neuropeptide Y were significantly reduced by 28% and 57%, respectively, while basal Ca2+ and elevations by thrombin or thapsigargin were not significantly altered. Adrenaline and neuropeptide Y-induced inhibition of forskolin-stimulated cAMP accumulation was not significantly altered upon DMSO treatment. While immunodetectable alpha-subunits of Gi2 were not significantly changed by DMSO treatment, those of Gi3 were reduced by 27%. Inactivation of pertussis toxin substrates by pertussis toxin treatment and inhibition of adrenaline or neuropeptide Y stimulated Ca2+ elevations were linearly correlated. These data are compatible with the idea that, in HEL cells, alpha2-adrenoceptors and neuropeptide Y receptors couple to inhibition of adenylyl cyclase via Gi2 while they couple to Ca2+ elevations via Gi3.
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PMID:Concomitant regulation of Ca2+ mobilization and G13 expression in human erythroleukemia cells. 965 Aug 40

CHO transfectants expressing the three subtypes of rat alpha2 adrenergic receptors (alpha2AR): alpha2D, alpha2B, alpha2C were studied to compare the transduction pathways leading to the receptor-mediated stimulation of phospholipase A2 (PLA2) in the corresponding cell lines CHO-2D, CHO-2B, CHO-2C. The alpha2B subtype stimulated the arachidonic acid (AA) release after incubation of the cells with 1 microM epinephrine, whereas alpha2D and alpha2C gave no stimulation. Calcium ionophore A23187 (1 microM) increased the release by a factor of 2-4 in the three strains. When cells were incubated with both epinephrine and Ca2+ ionophore, the AA release differed greatly between cell lines with strong potentiation in CHO-2B (2-3 times greater than Ca2+ ionophore alone), moderate potentiation in CHO-2D, and no potentiation in CHO-2C. The three cell lines each inhibited adenylylcyclase with similar efficiencies when 1 microM epinephrine was used as the agonist. The potentiation depended on both alpha2AR and Gi proteins since yohimbine and pertussis toxin inhibited the process. Pretreatment of CHO-2B cells with MAFP which inhibits both cytosolic and Ca2+-independent PLA2, reduced the release of AA induced by epinephrine+Ca2+ ionophore to basal value, whereas bromoenol lactone, a specific Ca2+-independent PLA2 inhibitor, had no effect. Preincubation of the cells with the intracellular calcium chelator BAPTA gave a dose-dependent inhibition of the arachidonic acid (AA) release. In CHO cells expressing the angiotensin II type 1 receptor, coupled to a Gq protein, the agonist (10-7 M) produced maximal AA release: there was no extra increase when angiotensin and Ca2+ ionophore were added together. There was no increase in the amount of inositol 1,4, 5-triphosphate following stimulation of CHO-2B, -2C, -2D cells with 1 microM epinephrine. Epinephrine led to greater phosphorylation of cPLA2, resulting in an electrophoretic mobility shift for all three cell lines, so inadequate p42/44 MAPKs stimulation was not responsible for the weaker stimulation of cPLA2 in CHO-2C cells. Therefore, the stimulation of cPLA2 by Gi proteins presumably involves another unknown mechanism. The differential stimulation of cPLA2 in these transfectants will be of value to study the actual involvement of the transduction pathways leading to maximal cPLA2 stimulation.
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PMID:Differential potentiation of arachidonic acid release by rat alpha2 adrenergic receptor subtypes. 1010 Dec 61

Activation of beta1-, beta2-, beta 3- and putative beta4-adrenoceptors modifies cardiac function. These receptors are usually coupled to Gs protein, but beta2- and beta3-adrenoceptors could also couple to Gi/o proteins. The mouse heart is used increasingly for studies of genetically disrupted or overexpressed proteins, including beta-adrenoceptor subtypes. We therefore investigated in contracting mouse left atria (2 Hz, 37 degrees C) if inactivation of Gi/o proteins with pertussis toxin modifies or uncovers effects mediated through beta-adrenoceptor subtypes. The negative inotropic effects of carbachol in atria exposed to catecholamine or high calcium (6.8 mmol/l) were assumed to be mediated through activation of muscarinic receptors coupled to Gi/o. We report conditions under which incubation of left atria with 200 ng/ml pertussis toxin for 24 h nearly abolished the carbachol responses. Although it has been reported that muscarinic receptor-mediated cardiodepression has an obligatory contribution of nitric oxide, the nitric oxide synthase inhibitor N(G)-monomethyl-L-arginine (0.1-1 mmol/l) did not modify the negative inotropic effects of carbachol, inconsistent with an involvement of nitric oxide. The positive inotropic effects of (-)-noradrenaline and (-)-adrenaline, mediated through beta1-adrenoceptors, were not affected by pertussis toxin. (-)-Adrenaline did not cause positive inotropic effects attributable to beta2-adrenoceptor-mediation, in the presence of CGP 20712A (300 nmol/l) to block beta1-adrenoceptors, in control atria or atria pretreated with pertussis toxin. The positive inotropic effects of (-)-CGP 12177 (1 micromol/l), a compound with agonist activity at the putative beta4-adrenoceptor, were unaffected by pertussis toxin. The beta3-adrenoceptor-selective agonist BRL 37344 (1 micromol/l), in the presence of (-)-propranolol (200 nmol/l), did not cause positive or negative inotropic effects in control and pertussis toxin-treated atria. In left atria obtained from mice injected with 150 microg/kg i.p. pertussis toxin which abolished carbachol-evoked cardiode-pression, the positive inotropic effects of (-)-adrenaline were antagonised by CGP 20712A. The beta2-adrenoceptor-selective antagonist ICI 118551 (50 nmol/l) did not cause additional blockade of the effects of high (-)-adrenaline concentrations in the presence of CGP 20712A, ruling out the involvement of beta2-adrenoceptors. The results with intraparenteral PTX validate our in vitro PTX method. We conclude that inhibition of murine Gi/o proteins does not alter atrial positive inotropic effects mediated through beta1- and putative beta4-adrenoceptors and does not reveal functional beta2- and beta3-adrenoceptors.
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PMID:Pertussis toxin suppresses carbachol-evoked cardiodepression but does not modify cardiostimulation mediated through beta1- and putative beta4-adrenoceptors in mouse left atria: no evidence for beta2- and beta3-adrenoreceptor function. 1068 68

The ability of Na(+) ions to modulate coupling of alpha(2B)- and alpha(2D)-adrenergic receptors to G proteins was investigated in isolated membranes from transfected PC12 and NIH 3T3 fibroblast cells. The initial rate of epinephrine-stimulated [(35)S]GTPgammaS binding was higher for alpha(2D)-receptors (the rat homolog of the alpha(2A)-receptor) in both cell types, whereas both alpha(2B)- and alpha(2D)-receptor responses were higher in PC12 cell membranes. Pertussis toxin completely blocked agonist-stimulated binding. Graded increases in Na(+) caused a progressive loss of basal GTP binding, indicative of its ability to reduce the level of the active R* state of the receptor. This inhibitory effect of Na(+) was more pronounced in PC12/alpha(2B) than PC12/alpha(2D) membranes. Epinephrine-stimulated GTP binding in PC12/alpha(2B) membranes was also more sensitive to Na(+) inhibition than in PC12/alpha(2D) membranes. In saturation [(35)S]GTPgammaS binding studies, the presence of Na(+) reduced apparent GTP affinity, and its effect was greater in PC12/ alpha(2B) membranes, consistent with a greater reduction in the active R* conformation of the receptor. The higher efficacy of epinephrine at alpha(2D) receptors and their lesser sensitivity to Na(+) are both indicative of a more stable R* state. Together these results suggest that differences in the modulatory influence of Na(+) within a family of G(i)-coupled receptors may reflect differences in the stability of the active R* state.
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PMID:Differences in efficacy and Na(+) sensitivity between alpha(2B) and alpha(2D) adrenergic receptors: implications for R and R* states. 1089 76

The hypothesis that different signalling may be mediated via a single alpha(2A)-adrenoceptor (alpha(2A) AR) subtype was investigated by challenging alpha(2) AR ligands in combination with diverse recombinant wt, mutant, and chimeric G(alpha)-proteins. Possible coupling of alpha(2A) AR to endogenous G(alphai/o)-proteins in CHO-K1 cells was excluded by measuring pertussis toxin (PTX)-resistant [(35)S]GTPgammaS-binding responses as a common functional response to alpha(2A) AR activation. (-)-Adrenaline (10 microM) displayed the highest magnitude of [(35)S]GTPgammaS-binding response in the co-presence of a PTX-resistant G(alphao)Cys(351)Ile protein, whereas a decreased response was obtained with the mutant G(alphai1/2)-proteins. Replacement of the last six amino acids at the C-terminal portion of the G(alphao)-protein by the corresponding amino acid region of either the G(alphaz)-, G(alphas)-, G(alphaq)-, or G(alpha15)-protein and co-expression with the alpha(2A) AR resulted in similar maximal (-)-adrenaline-mediated [(35)S]GTPgammaS-binding responses with these chimeric G(alphao)-proteins. The ligands D-medetomidine, BHT 920 (6-allyl-5,6,7,8-tetrahydro-4H-thiazolo[4,5-d]azepin-2-ylamine) and (+)-RX 811059 (2-(2-ethoxy-2,3-dihydro-benzo[1,4]dioxin-2-yl)-4,5-dihydro-1H-imidazole) were weakly active or virtually inactive at the chimeric G(alphao/s)-, G(alphao/q)-, and G(alphao/15)-proteins in contrast to the G(alphao/z)-protein. Furthermore, combining the constitutively active mutant Thr(373)Lys alpha(2A) AR with these chimeric G(alphao)-proteins enhanced the apparent intrinsic activity of d-medetomidine and BHT 920. A similar observation was made using the corresponding fusion proteins, where the stoichiometry of the mutant alpha(2A) AR to the chimeric G(alphao)-protein was fixed at 1.0. These data indicate that a single ligand may display different magnitudes of activation at the alpha(2A) AR subtype coupled to chimeric G(alphao) proteins under controlled conditions of alpha(2A) AR: G(alphao)-protein expression.
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PMID:Modulation of ligand responses by coupling of alpha(2A)-adrenoceptors to diverse G(alpha)-proteins. 1130 Oct 41

Recent data have shown that activation of Gi-protein-coupled receptors in osteoblast-like cells enhances the proliferation and differentiation of these cells. In the present study, we investigated the effect of epinephrine, an agonist of Gi-protein-coupled receptors in MC3T3-E1 cells, on Pi transport, type III Pi transporter expression, and the signaling mechanism(s) involved in this response. Epinephrine time- and dose-dependently stimulated sodium-dependent Pi transport and this effect was dependent on RNA and protein synthesis. This effect was associated with a related time-dependent increase in Pit-1 mRNA expression. Kinetic analysis indicated that the change in Pi transport activity induced by epinephrine was due to alteration in the maximal rate of Pi transport. Investigation of Pi transport stimulation by several adrenergic agonists and its inhibition by spiperone suggest that the effect of epinephrine on Pi transport was mediated by alpha1-adrenergic receptors. Pertussis toxin, which inactivates Gi/o proteins, significantly blunted the stimulatory effect of epinephrine on Pi transport. Analysis of the signaling pathways involved in this response has suggested a major role of protein kinase C and a small contribution from the mitogen-activated protein kinase Erk (MAPK(erk)). The results show that, in MC3T3-E1 osteoblast-like cells, activation of Gi/o-protein-coupled receptors induces stimulation of Pi transport. This effect is mediated by activation of protein kinase C and the MAPK(erk) pathway and probably involves the synthesis of Pit-1 transporters.
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PMID:Stimulation of sodium-dependent inorganic phosphate transport by activation of Gi/o-protein-coupled receptors by epinephrine in MC3T3-E1 osteoblast-like cells. 1142 46

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