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)

1. The potentiation of glycine receptor-mediated taurine response (Itau) by alpha 1 adrenoceptor activation was investigated in neurons freshly dissociated from the rat substantia nigra (SN) using a nystatin perforated-patch recording. 2. Norepinephrine (NE) at a concentration of 10(-4) M in the presence of 10(-5) M yohimbine and 10(-5) M propranolol potentiated the peak amplitude of Itau (10(-3) M) at a holding potential of -40 mV under voltage clamp conditions. NE could be substituted by phenylephrine at this potentiation. 3. This potentiation of the taurine response persisted in the treatment with pertussis toxin (500 ng/ml) for 18 h. The intracellular application of GDP-beta S (100 microM) with a conventional whole cell patch recording mode abolished the effect of alpha 1 adrenoceptor activation on the Itau. 4. Staurosporine (10(-7) M) blocked the enhancement of Itau by 10(-4) M NE with 10(-5) M yohimbine and 10(-5) M propranolol. In additional phorbol-12-myristate 13-acetate (10(-5) M) potentiated Itau. 5. The intracellular application of 0.275 U/ml protein kinase C (PKC) with a conventional whole cell configuration gradually increased the peak amplitude of Itau. On the other hand, intracellular perfusion either without PKC or with PKC plus 4 microM PKC (19-36), a PKC inhibitor, did not potentiate Itau. 6. A single channel recording in a cell attached configuration revealed that NE (10(-4) M) with 10(-5) M yohimbine and 10(-5) M propranolol increased the total open time of the taurine-activated channel. This increase of the channel opening was antagonized by staurosporine (10(-7) M). 7. Neither tapsigargin (10(-6) M), LiCl (10(-4) M), trifluoperazine (10(-5) M) nor (S)-5-isoquinolinesulfonic acid, 4-[2-[(5-isoquinolinylsulfonyl) methylamino]-3-oxo-(4-phenyl-1-piperazinyl)-propyl]phenyl ester (10(-4) M) applied in the perfusate were found to affect the potentiation of Itau by alpha 1 adrenoceptor. The intracellular application of inositol triphosphates (10(-4) M) in a conventional whole cell recording also had no effect on Itau. 8. These findings thus indicate that alpha 1 adrenoceptor coupled with pertussis-insensitive G protein increases the intracellular PKC activity, thus leading to an increase in the channel opening activated by taurine and an enhancement of the peak amplitude of Itau in the SN neurons.
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PMID:Alpha 1 adrenoceptor activation potentiates taurine response mediated by protein kinase C in substantia nigra neurons. 889 18

The effect of endothelin-1 on the phosphorylation of alpha1b-adrenoreceptors, transfected into rat-1 fibroblasts, was studied. Basal alpha1b-adrenoreceptor phosphorylation was markedly increased by endothelin-1, norepinephrine, and phorbol esters. The effect of endothelin-1 was dose dependent (EC50 approximately 1 nM), reached its maximum 5 min after stimulation, and was inhibited by BQ-123, an antagonist selective for ETA receptors. Endothelin-1-induced alpha1b-adrenoreceptor phosphorylation was attenuated by staurosporine or genistein and essentially abolished when both inhibitors were used together. The effect of norepinephrine was not modified by either staurosporine or genistein alone, and it was only partially inhibited when both were used together. These data suggest the participation of protein kinase C and tyrosine kinase(s) in endothelin-1-induced receptor phosphorylation. However, phosphoaminoacid analysis revealed the presence of phosphoserine and traces of phosphothreonine, but not of phosphotyrosine, suggesting that the putative tyrosine kinase(s), activated by endothelin, could act in a step previous to receptor phosphorylation. The effect of endothelin-1 on alpha1b-adrenoreceptor phosphorylation was not mediated through pertussis toxin-sensitive G proteins. Calcium mobilization induced by norepinephrine was diminished by endothelin-1. Norepinephrine and endothelin-1 increased [35S]GTPgammaS binding to control membranes. The effect of norepinephrine was abolished in membranes obtained from cells pretreated with endothelin-1. Interestingly, genistein plus staurosporine inhibited this effect of the endothelial peptide. Endothelin-1 did not induce alpha1b-adrenoreceptor internalization. Our data indicate that activation of ETA receptors by endothelin-1 induces alpha1b-adrenoreceptor phosphorylation and alters G protein coupling.
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PMID:Activation of endothelin ETA receptors induces phosphorylation of alpha1b-adrenoreceptors in Rat-1 fibroblasts. 934 Nov 83

Porcine galanin (1-29)-NH2, galantide (M15) and galanin (1-14)-(alpha-aminobutyric acid8)-scyliorhinin-I used in concentrations of 300, 1,000 and 3,000 nM respectively caused contractions of rat fundus strips. The contractile responses to galanin(1-29)-NH2 were not modified by atropine (10 microM), guanethidine (10 microM), naloxone (1 microM), a mixture of propranolol (10 microM) and phentolamine (10 microM), indomethacin (10 microM), a mixture of mepyramine (10 microM) and cimetidine (10 microM), saralasin (10 microM), and spantide (100 microM). The effects of M15 and galanin(1-14)-(alpha-aminobutyric acid8)-scyliorhinin-I were significantly decreased by atropine for 36 and 18% and by spantide for 37 and 26% respectively. Indomethacin inhibited the muscle response to M15 without influence on the galanin (1-14)-(alpha-aminobutyric acid8)-scyliorhinin-I-induced action. These results support findings that galanin (1-29)-NH2 contracts rat gastric fundus strips by stimulating specific receptors localized on the surface of smooth muscle cells. M15 and galanin(1-14)-(alpha-aminobutyric acid8)-scyliorhinin-I seem to contract smooth muscles not only by acting at galanin receptors, but by interacting with muscarinic or tachykinin receptors or modulating the release of acetylcholine and substance P. Diltiazem (EC50 825 nM), dantrolene (EC50 30.2 microM) and the phospholipase C inhibitors U-73122 (EC50 549 microM) and U-73343 (EC50 751 microM) lowered the contraction to galanin(1-29)-NH2 in a concentration-dependent manner. These observations imply that though the extracellular Ca2+ influx plays a major role in the action of galanin(1-29)-NH2, the release of Ca2+ ions from the intracellular stores contributes to the response of smooth muscles of galanin(1-29) NH2. Norepinephrine (30, 60, 100 and 300 nM) concentration-dependently reduced the Emax to galanin (1-29)-NH2 and reduced the slopes of the concentration-contraction curves, without a notable change in EC50. Pertussis toxin pre-treatment (10 and 30 mg/kg intravenous [i.v.]), 120 h before the experiment, notably increased the maximal response of the rat gastric fundus to galanin(1-29)-NH2, without a significant change in the properties of the concentration-contraction curves (EC50, slopes). The observations may suggest that pertussis toxin-sensitive GTP-binding proteins are involved in the modulation of the excitatory effects of galanin(1-29)-NH2 in the rat gastric fundus.
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PMID:Pharmacological characterization of the contractile effects of galanin (1-29)-NH2, galantide and galanin (1-14)-(alpha-aminobutyric acid8)scyliorhinin-I in the rat gastric fundus. 944 26

Activation of protein kinases is an important intermediate step in signaling pathways of many G protein-coupled receptors including alpha1-adrenergic receptors. The present study was designed to investigate the capacity of the three cloned subtypes of human alpha1-receptors, namely, alpha1A, alpha1B and alpha1D to activate phosphatidylinositol 3-kinase (PI 3-kinase) and p21ras in transfected NIH3T3 cells. Norepinephrine activated PI 3-kinase in cells expressing human alpha1A and alpha1B via pertussis toxin-insensitive G proteins; alpha1D-receptors did not detectably activate this kinase. Transient transfection of NIH 3T3 cells with the alpha-subunit of the G protein transducin (alpha(t)) a scavenger of betagamma-subunits released from activated G proteins, inhibited alpha1B-receptor but not alpha1A-receptor-stimulated PI 3-kinase activity. Stimulation of both alpha1A- and alpha1B-receptors activated p21ras and stimulated guanine nucleotide exchange on Ras protein. Overexpression of a dominant negative mutant of p21ras attenuated alpha1B-receptor but not alpha1A-receptor activation of PI 3-kinase. Overexpression of a dominant negative mutant of PI 3-kinase attenuated alpha1A- but not alpha1B-receptor-stimulated mitogen-activated protein kinase activity. These results demonstrate the capacity for heterologous signaling of the alpha1-adrenergic receptor subtypes in promoting cellular responses in NIH3T3 cells.
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PMID:Contrasting signaling pathways of alpha1A- and alpha1B-adrenergic receptor subtype activation of phosphatidylinositol 3-kinase and Ras in transfected NIH3T3 cells. 989 8

The effect of noradrenaline on the glycine response was investigated in neurons acutely dissociated from the rat sacral dorsal commissural nucleus using nystatin perforated patch recording configuration under voltage-clamp conditions. Noradrenaline reversibly potentiated the 10(-5)M glycine-induced Cl- current in a concentration-dependent manner. Single channel recordings in a cell-attached mode revealed that noradrenaline decreased the closing time of the glycine-activated channel activity. Noradrenaline neither changed the reversal potential of the glycine response nor affected the affinity of glycine to its receptor. Clonidine mimicked and yohimbine blocked the noradrenaline action on glycine response. N-[2(methylamino)ethyl]-5-isoquinoline sulfonamide dihydrochloride, protein kinase A inhibitor, mimicked the effect of noradrenaline on glycine response. Noradrenaline failed to affect the glycine response in the presence of these intracellular cyclic AMP and protein kinase A modulators. However, noradrenaline further enhanced the glycine response even in the presence of phorbol-12-myristate-13-acetate and chelerythrine, a protein kinase C inhibitor. Pertussis toxin treatment for 6-8 h blocked the noradrenaline facilitatory effect on the glycine response. In addition, noradrenaline potentiated the strychnine-sensitive postsynaptic currents evoked in a slice preparation of sacral dorsal commissural nucleus. These results suggest that the activation of alpha2-adrenoceptor by noradrenaline coupled with pertussis toxin-sensitive G-proteins reduces intracellular cyclic AMP formation through the inhibition of adenyl cyclase. The reduction of cyclic AMP decreases the protein kinase A activity, thus resulting in the potentiation of the glycinergic inputs to the sacral dorsal commissural neurons. It is thus feasible that the noradrenergic input to the sacral dorsal commissural nucleus modulates such nociceptive signals as pain by intracellular enhancing the glycine response.
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PMID:Alpha2-adrenoceptor-mediated enhancement of glycine response in rat sacral dorsal commissural neurons. 1005 Dec 15

1. The effects of noradrenaline on neurotransmission at rat hippocampal synapses were investigated by recording autaptic currents in single neurons isolated on glial microislands. Noradrenaline reduced excitatory, but not inhibitory, autaptic currents in a pertussis toxin-sensitive manner, but the amine did not affect glutamate-evoked currents. 2. The inhibition of excitatory autaptic currents by noradrenaline was half-maximal at 0. 11 +/- 0.06 microM. The alpha2-adrenoceptor agonists UK 14 304 and clonidine were equipotent to noradrenaline in reducing these currents, whereas the alpha1-adrenoceptor agonist methoxamine and the beta-adrenoceptor agonist isoprenaline (isoproterenol) were ineffective. The reduction of excitatory autaptic currents by noradrenaline was not altered by the alpha1-adrenergic antagonist urapidil or the beta-antagonist propranolol, but reduced by the alpha2-antagonist yohimbine. The subtype-preferring antagonists rauwolscine and phentolamine (both at 0.3 microM) caused 9-fold and 36-fold rightward shifts in the concentration-response curve for the noradrenaline-dependent reduction of excitatory autaptic currents, respectively. Prazosine (1 microM) did not affect this concentration-response curve. 3. Noradrenaline reduced voltage-activated Ca2+ currents in excitatory, but not in inhibitory, microisland neurons. For comparison, the GABAB agonist baclofen reduced both excitatory and inhibitory autaptic currents and diminished voltage-activated Ca2+ currents in both types of neurons. The inhibition of Ca2+ currents by noradrenaline was half-maximal at 0.17 +/- 0.05 microM, and UK 14 304 and clonidine were equipotent to noradrenaline in reducing these currents. The noradrenaline-induced reduction of Ca2+ currents was antagonized by yohimbine, but not by urapidil or propranolol; the subtype-preferring alpha2-adrenergic antagonists displayed the following rank order of activity: phentolamine > rauwolscine > prazosine. 4. Noradrenaline did not affect K+ currents and failed to alter the frequency of miniature excitatory postsynaptic currents measured in mass cultures of hippocampal neurons. 5. These results show that noradrenaline regulates transmission at glutamatergic, but not at GABAergic, hippocampal synapses via presynaptic alpha2-adrenoceptors of the alpha2A/D subtype. This inhibitory action involves an inhibition of voltage-activated Ca2+ currents, but no modulation of spontaneous vesicle exocytosis or of voltage-activated K+ currents.
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PMID:Presynaptic alpha2-adrenoceptors control excitatory, but not inhibitory, transmission at rat hippocampal synapses. 1045 61

A novel signaling pathway for mediation of beta(3)-adrenergic activation of the mitogen-activated protein kinases Erk1/2 (associated with proliferation, differentiation, and apoptosis) has recently been proposed, which implies mediation via constitutively coupled G(i)-proteins and Gbetagamma-subunits, distinct from the classical cAMP pathway of beta-adrenergic stimulation. To verify the significance of this pathway in cells in primary cultures that entopically express beta(3)-adrenoreceptors, we examined the functionality of this pathway in cultured brown adipocytes. Norepinephrine activated Erk1/2 via both beta(3) receptors and alpha(1) receptors but not via alpha(2) receptors. Forskolin induced Erk1/2 activation similarly to beta(3) activation, indicating cAMP-mediation; this induction could be inhibited with H89, implying protein kinase A mediation. The G(i)-pathway was functional in these cells, as pertussis toxin increased agonist-induced cAMP accumulation. However, pertussis toxin was unable to affect adrenergically induced Erk1/2 activation. Also, wortmannin was without effect, implying that Gbetagamma activation of the phosphatidylinositol 3-kinase pathway was not involved. PP1/2, which inhibits Src, abolished both beta(3)- and alpha(1)-induced Erk1/2 activation. Thus, the proposed novel G(i) pathway for beta(3) mediation is not universal, because it is not functional in the untransformed primary cell culture system with entopically expressed beta(3) receptors examined here. Here, the beta(3) signal is mediated classically via cAMP/protein kinase A. beta(3) and alpha(1) signals converge at Src, which thus mediates Erk1/2 activation in both pathways.
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PMID:Beta 3- and alpha1-adrenergic Erk1/2 activation is Src- but not Gi-mediated in Brown adipocytes. 1077 Sep 51

The effect of lysophosphatidic acid on the phosphorylation and function of alpha(1b)-adrenoceptors transfected into rat-1 fibroblasts was studied. This phospholipid mitogen increased in a concentration-dependent fashion (EC(50) approximately 50 nM) the phosphorylation of these adrenoceptors. Lysophosphatidic acid-induced alpha(1b)-adrenoceptor phosphorylation was relatively rapid (t(1/2) approximately 1 min), intense (2.5-fold), and sustained for at least 60 min. The effect of lysophosphatidic acid was blocked by pretreatment with pertussis toxin. The alpha(1b)-adrenoceptor phosphorylation induced by lysophosphatidic acid was not blocked by genistein, a tyrosine kinase inhibitor, but it was inhibited by inhibitors of protein kinase C (bisindolylmaleimide I, staurosporine, and Ro 31-8220) and phosphoinositide 3-kinase (wortmannin and LY 294002). The ability of norepinephrine to increase cytosol calcium concentration was markedly decreased in cells previously challenged with lysophosphatidic acid. Norepinephrine-induced [(35)S]GTPgammaS binding in membrane preparations was used as an index of the functional coupling of the alpha(1b)-adrenoceptors and G proteins. Norepinephrine-stimulated [(35)S]GTPgammaS binding was markedly decreased in membranes from cells pretreated with lysophosphatidic acid. This effect of lysophosphatidic acid was blocked by pretreatment with wortmannin or staurosporine. Our data indicate that: 1) activation of lysophosphatidic acid receptors induce phosphorylation of alpha(1b)-adrenoceptors; 2) this effect is mediated through pertussis toxin-sensitive G proteins, phosphatidylinositol 3-kinase, and protein kinase C; and 3) the phosphorylation of alpha(1b)-adrenoceptors induced by the lipid mitogen is associated to adrenoceptor desensitization.
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PMID:Lysophosphatidic acid modulates alpha(1b)-adrenoceptor phosphorylation and function: roles of Gi and phosphoinositide 3-kinase. 1077 88

The filtered calcium (Ca2+) is reabsorbed by the luminal membrane of the proximal and distal nephron. Ca2+ enters cells across apical plasma membranes along a steep electrochemical gradient, through Ca2+ channels. Regulation by various hormones implies several steps, including binding of these hormones to the basolateral membrane, interaction with G proteins, liberation of messengers, activation of kinases and finally opening of the channels at the opposite pole of the cells. In the present study, we examined whether the Ca2+ entry through the luminal membranes of proximal and distal tubules is also regulated by G proteins, by a membrane-limited process. Luminal membranes were purified from rabbit proximal and distal tubule suspensions, and their vesicles were loaded with GTPgammas or the carrier. Then, the 45Ca2+ uptake by these membrane vesicles was measured in the presence and absence of 100 mM NaCl. In the absence of Na+, intravesicular GTPgammas significantly enhanced 0.5 mM Ca2+ uptake by the proximal membrane vesicles from 0.53 +/- 0.06 to 0.72 +/- 0.06 pmol/microg/10 s (p < 0.05). In the presence of Na+, however, this effect disappeared. In the distal tubules, intravesicular GTPgammas increased 0.5 mM Ca2+ uptake in the absence (from 0.57 +/- 0.02 to 0.79 +/- 0.02 pmol/microg/10 s, p < 0.02) and in the presence (from 0.36 +/- 0.03 to 0.55 +/- 0.03 pmol/microg/10 s, p < 0.02) of Na+. The action of GTPgammas, when present, was dose dependent with a half-maximal effect at 20 microM. The distal luminal membrane is the site of two Ca2+ channels with different kinetics parameters. GTPgammas increased the Vmax value of the low-affinity component exclusively, in the presence as in the absence of Na+. Finally, Ca2+ uptake by the membranes of the two segments was differently influenced by toxins: cholera toxin slightly stimulated transport by the proximal membrane, but had no influence on the distal membrane, whereas pertussis toxin decreased the cation uptake by the distal tubule membrane exclusively. We conclude that the nature of Ca2+ channels differs in the proximal and distal luminal membranes: Ca2+ channels present in the proximal tubule and the low-affinity Ca2+ channels present in the distal tubule membranes are directly regulated by Gs and Gi proteins respectively, whereas the high-affinity Ca2+ channel in the distal tubule membrane is insensitive to any of them.
Nephron 2000 Jul
PMID:G proteins regulate calcium channels in the luminal membranes of the rabbit nephron. 1086 39

Norepinephrine (NE)-induced desensitization of the adrenergic receptor pathway may mimic the effects of hypoxia on cardiac adrenoceptors. The mechanisms involved in this desensitization were evaluated in male Wistar rats kept in a hypobaric chamber (380 Torr) and in rats infused with NE (0.3 mg. kg(-1). h(-1)) for 21 days. Because NE treatment resulted in left ventricular (LV) hypertrophy, whereas hypoxia resulted in right (RV) hypertrophy, the selective hypertrophic response of hypoxia and NE was also evaluated. In hypoxia, alpha(1)-adrenergic receptors (AR) density increased by 35%, only in the LV. In NE, alpha(1)-AR density decreased by 43% in the RV. Both hypoxia and NE decreased beta-AR density. No difference was found in receptor apparent affinity. Stimulated maximal activity of adenylate cyclase decreased in both ventricles with hypoxia (LV, 41%; RV, 36%) but only in LV with NE infusion (42%). The functional activities of G(i) and G(s) proteins in cardiac membranes were assessed by incubation with pertussis toxin (PT) and cholera toxin (CT). PT had an important effect in abolishing the decrease in isoproterenol-induced stimulation of adenylate cyclase in hypoxia; however, pretreatment of the NE ventricle cells with PT failed to restore this stimulation. Although CT attenuates the basal activity of adenylate cyclase in the RV and the isoproterenol-stimulated activity in the LV, pretreatment of NE or hypoxic cardiac membranes with CT has a less clear effect on the adenylate cyclase pathway. The present study has demonstrated that 1) NE does not mimic the effects of hypoxia at the cellular level, i.e., hypoxia has specific effects on cardiac adrenergic signaling, and 2) changes in alpha- and beta-adrenergic pathways are chamber specific and may depend on the type of stimulation (hypoxia or adrenergic).
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PMID:Differential alterations in cardiac adrenergic signaling in chronic hypoxia or norepinephrine infusion. 1112 61


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