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)

Aggregation of immunoglobulin E-receptor complexes on the surface of rat basophilic leukemia cells stimulates an increase in plasma membrane K+ permeability that is monitored as an increase in the rate of efflux of preloaded 86Rb+. A major component of this stimulated 86Rb+ efflux appears to be due to a Ca(2+)-activated K+ channel because it is inhibited by quinidine in parallel with the inhibition of degranulation and membrane potential repolarization, it is blocked by 0.1 mM La3+, and it is dependent on external Ca2+. Depolarization of the plasma membrane by carbonyl cyanide 3-chlorophenylhydrazone inhibits stimulated Ca2+ influx and prevents antigen-induced 86Rb+ efflux, and increased external Ca2+ partially restores 86Rb+ efflux under these conditions. In addition, potentiation of antigen-stimulated Ca2+ influx by pretreatment with cholera toxin increases the initial rate of stimulated 86Rb+ efflux. Another component of antigen-stimulated K+ efflux appears to be mediated by a guanine nucleotide-binding protein because pretreatment of rat basophilic leukemia cells with pertussis toxin decreases the initial rate of antigen-stimulated 86Rb+ efflux to 40% of that for the untreated cells. Stimulated 86Rb+ efflux is also observed when ionomycin is used to increase cytoplasmic Ca2+ and to trigger membrane depolarization. The efflux stimulated by ionomycin is inhibited by quinidine but not by pertussis toxin pretreatment; thus, it appears to occur through the Ca(2+)-activated K+ efflux pathway. It is proposed that these K+ efflux pathways serve to sustain the Ca2+ influx that is necessary for receptor-mediated triggering of cellular degranulation.
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PMID:Characterization of increased K+ permeability associated with the stimulation of receptors for immunoglobulin E on rat basophilic leukemia cells. 183 Nov 98

Cyclic GMP mediates vascular smooth muscle relaxation to a variety of drugs and naturally-occurring substances. The reduction of intracellular Ca2+ levels is believed to underlie this action, but the mechanism of this effect is unknown. In order to test the hypothesis that inhibition of guanine nucleotide-binding protein function is involved in the actions of cGMP, the effects of cGMP-dependent protein kinase on the phosphorylation of both pertussis toxin-sensitive (Gi/Go) and insensitive (Gz) G-proteins were examined in vitro. None of these proteins were effective substrates for either cGMP- or cAMP-dependent protein kinases, despite the fact that assay conditions were designed to detect poorly phosphorylated substrate proteins. In line with these observations, atriopeptin II did not inhibit angiotensin II-treated inositol phosphate formation in cultured vascular smooth muscle cells. These results suggest that phosphorylation by cGMP-dependent protein kinase of these G-proteins is not the major mechanism by which cGMP reduces intracellular Ca2+ levels in vascular smooth muscle.
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PMID:Pertussis toxin-sensitive and insensitive guanine nucleotide binding proteins (G-proteins) are not phosphorylated by cyclic GMP-dependent protein kinase. 183 99

This study tests the hypothesis that atrial natriuretic factor (ANF) and the ANF clearance receptor binding peptide, cANF(4-23)-NH2 (cANF), inhibit adrenergic and purinergic neurotransmission in the rabbit isolated vas deferens by a pertussis toxin (PTX)-sensitive mechanism. The vas deferens is a unique model used in the study of autonomic neurotransmission inasmuch as it has both a purinergic or twitch contraction and an adrenergic or tonic contraction associated with its response to electrical stimulation. Both ANF and cANF (10(-11) to 10(-6) M) inhibited electrically induced purinergic and adrenergic contractile force generation in a concentration-dependent manner. The ANF effect on both purinergic and adrenergic contractions was blocked by PTX (100 ng/ml). The cANF effect on the adrenergic contraction was also PTX-sensitive. Both peptides also attenuated evoked norepinephrine release in a concentration-dependent manner by a PTX-sensitive mechanism. cANF (10(-7) M) had no effect on norepinephrine- or ATP-induced contractions as was shown previously for ANF (10(-7) M). Therefore, the inhibitory effects of ANF and cANF appear to be prejunctional, on the release of the neurotransmitters, norepinephrine and ATP, from the nerve terminal and not postjunctional on the smooth muscle. An effect of cANF on neurotransmission suggests that the reputed "silent" ANF clearance receptor has biological activity. PTX-sensitivity suggests the involvement of a guanine nucleotide-binding protein in mediating the neuromodulatory effect of atrial peptides.
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PMID:Neuromodulatory effect of the atrial natriuretic factor clearance receptor binding peptide, cANF(4-23)-NH2 in rabbit isolated vasa deferentia. 185 36

1. Administration of lithium to rats causes a rise in plasma glucose and suppresses glucose-stimulated insulin secretion. These effects are blocked by the alpha 2-adrenoceptor antagonist, yohimbine. 2. Pretreatment of rats with Bordetella pertussis toxin resulted in a reversal of the usual plasma glucose and insulin responses to intravenously administered lithium (4 mEq kg-1). There was a slow fall in plasma glucose, while plasma insulin rose to 267 +/- 42% (+/- s.e.mean) of control values at 30 min. The effect of lithium on glucose-stimulated insulin secretion was also reversed; there was a marked increase in the insulin response which contrasted with the suppression seen in normal controls. 3. In perifused islets of Langerhans isolated from pertussis pretreated rats, the previously described inhibition by lithium of the second phase of glucose-stimulated insulin secretion from normal islets was almost completely abolished. 4. The results are consistent with the hypothesis that these effects of lithium are mediated by the influence of catecholamines on the islets. When the inhibitory effect of alpha 2-adrenoceptors is abolished by pertussis treatment, which blocks the action of the inhibitory guanine nucleotide-binding protein Gi, effects of beta-adrenoceptor stimulation predominate, leading to an increased secretion of insulin.
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PMID:Effect of pertussis pretreatment on plasma glucose and insulin responses to lithium in rats. 188 93

We have isolated, in an active state, the C5a receptor from human polymorphonuclear leukocytes. The purification was achieved in a single step using a C5a affinity column in which the C5a molecule was coupled to the resin through its N terminus. The purified receptor, like the crude solubilized molecule, exhibited a single class of high-affinity binding sites with a Kd of 30 pM. Further, the binding of C5a retained its sensitivity to guanine nucleotides, implying that the purified receptor contained a guanine nucleotide-binding protein (G protein). SDS/PAGE revealed the presence of three polypeptides with molecular masses of 42, 40, and 36 kDa, which were determined to be the C5a-binding subunit and the alpha and beta subunits of Gi, respectively. The 36- and 40-kDa polypeptides were identified by immunoblotting and by the ability of pertussis toxin to ADP-ribosylate the 40-kDa molecule. These results confirm our earlier hypothesis that the receptor exists as a complex with a G protein in the presence or absence of C5a. The tight coupling between the receptor and G protein should make possible the identification of the G protein(s) involved in the transduction pathways used by C5a to produce its many biological effects.
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PMID:Purification of the active C5a receptor from human polymorphonuclear leukocytes as a receptor-Gi complex. 189 85

G proteins are heterotrimeric proteins that play a key role in signalling transduction conveying signals from cell surface receptors to intracellular effector proteins. In particulate preparations from Drosophila melanogaster embryos, only one substrate of 39,000-40,000 molecular weight could be ADP-ribosylated with pertussis toxin. This substrate reacted in immunoblotting and immunoprecipitation experiments with a polyclonal antibody directed against the carboxy-terminal sequence of the alpha subunit of the mammalian Go protein. The Drosophila Go alpha protein was present at all stages of embryonic development; however, its expression markedly increased after 10 h embryogenesis, a period of time during which there is an active development of axonal tracts. Immunolocalization on whole mount embryos has indicated that this protein is principally localized in the CNS and is mainly restricted to the neuropil without any labelling of the cell bodies. In contrast, all the axon tracts of the CNS appeared to be highly labelled. The distribution of the Go alpha protein was also examined in several neurogenic mutants. The Go alpha protein expression was not altered in any of them but the pattern of labelling was disorganized as was the neuronal network. These results suggest a possible role for the Go protein during axonogenesis.
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PMID:The transduction signalling protein Go during embryonic development of Drosophila melanogaster. 193 84

Different bacterial toxins capable of modifying specific alpha-subunits of G-proteins were used to characterize the guanine nucleotide-binding protein (G-protein) dependency of the effects of endothelins (ETs) on PRL, LH, and FSH secretion. Primary cultures of anterior pituitary cells obtained from female rats were preincubated for 24 h with 20 ng/ml pertussis toxin (PTX) or 2 micrograms/ml cholera toxin (CTX) before challenge with ETs. Both ET-1 and ET-3 elicited a concentration-dependent inhibition of PRL secretion and stimulated the release of LH and FSH secretion on pituitary cells not treated with toxins. Based on the calculated ration of the half-maximal effective concentrations (EC50) of ET-1 and ET-3, ET-1 showed 7800, 20, and 14 times greater potency than ET-3 on PRL, LH, and FSH secretion, respectively. PTX, a selective inhibitor of Gi and several other G proteins, increased the basal secretion of PRL and completely eliminated the responsiveness of lactotroph cells to ET-1 and ET-3. Pretreatment with PTX caused a markedly different effect on LH and FSH secretion: while basal LH release was slightly increased, FSH secretion was markedly depressed by PTX. Moreover, while ET-induced LH secretion was enhanced by PTX, the effectiveness of ETs on FSH release was completely abolished. CTX, known as an activator of Gs proteins, decreased the basal secretory activity of lactotrophs but did not influence the ET-induced decrease of PRL release. CTX pretreatment (like PTX before) elicited a strikingly different effect on LH and FSH: while basal LH secretion was enhanced, basal FSH secretion was markedly inhibited by CTX. Moreover, while the effectiveness of ETs on LH secretion was not changed significantly, the stimulatory effect of ETs on FSH secretion was diminished after CTX pretreatment. Thus, the inhibition of PRL secretion by ETs requires a PTX-sensitive G protein while the ET-induced stimulation of FSH secretion involves both PTX- and CTX-sensitive elements. The fact that pretreatments with PTX or CTX influenced basal secretion of PRL, LH, and FSH suggests that PTX- and/or CTX-sensitive G proteins are directly involved in the process of exocytosis. Additionally, these findings might indicate an active paracrine/autocrine regulation of pituitary cells in culture that are impaired or enhanced by the bacterial toxins employed. Though the broad substrate specificity of PTX and CTX and the multiplicity of G protein families did not allow us to identify the specific G protein(s) involved, these data reveal the diversity of ET-induced intracellular signaling mechanisms in lactotrophs and gonadotrophs.
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PMID:The effects of endothelins on the secretion of prolactin, luteinizing hormone, and follicle-stimulating hormone are mediated by different guanine nucleotide-binding proteins. 193 91

Some beta-adrenergic receptor (beta AR) antagonists, in addition to blocking receptor-mediated responses, possess agonistic properties or intrinsic sympathomimetic activity (ISA). In this study we describe several techniques for amplification of cAMP levels as a measure of agonistic activity, and we apply these techniques to the study of beta AR antagonists with ISA. We show that 1) a variety of beta AR antagonists with ISA, including alprenolol and cyanopindolol, enhance cyclic AMP accumulation in S49 lymphoma cells if cells are also incubated with the diterpene forskolin; 2) beta AR blockers with ISA stimulate cAMP accumulation in the presence of a water-soluble analog of forskolin but not in the presence of 9,11-dideoxyforskolin (which does not activate adenylyl cyclase); 3) the potentiation by forskolin is not unique to S49 cells but is also observed in BC3H1 smooth muscle-derived cells; 4) stimulation of cAMP accumulation by beta-blockers with ISA occurs in S49 cells in three additional settings that do not involve the use of forskolin, after pretreatment with pertussis toxin to inactivate the inhibitory guanine nucleotide binding protein, after pretreatment with [D-Trp8]-somatostatin to sensitize adenylyl cyclase, and using a radioimmunoassay to quantitate levels of cellular cAMP. We conclude that beta AR antagonists with ISA can weakly stimulate intracellular cAMP accumulation, but this stimulation is not easily detected. Elevation of cAMP levels may account for the agonistic effects of these drugs or, at least provides a measure of stimulatory guanine nucleotide-binding protein activation by these compounds.
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PMID:Amplification of cyclic AMP generation reveals agonistic effects of certain beta-adrenergic antagonists. 196 18

Exposure of rat heart muscle cells to noradrenaline (1 microM) for 48 hr led to a decrease in the number of beta 1-adrenoceptors of 50% and a concomitant decrease in adenylyl cyclase stimulation by isoprenaline and forskolin of about 60 and 30%, respectively. In addition, the levels of two inhibitory guanine nucleotide-binding protein (Gi protein) alpha-subunits (Gi alpha 40 and Gi alpha 41) were increased in membranes of noradrenaline-treated cells. Evidence is presented that noradrenaline induces this increase by activation of beta-adrenoceptors. First, the noradrenaline action was mimicked by the beta-adrenoceptor agonist isoprenaline. Second, beta-adrenoceptor blockade by timolol but not alpha-adrenoceptor blockade by prazosin prevented the noradrenaline-induced up-regulation of Gi alpha proteins. Furthermore, timolol but not prazosin abolished the noradrenaline-induced down-regulation of beta 1-adrenoceptors and the decreases in receptor-dependent (isoprenaline) and -independent (forskolin) adenylyl cyclase stimulation. The specific protein synthesis inhibitor Pseudomonas exotoxin A was used to study whether the noradrenaline-induced up-regulation of Gi alpha subunits depends on increased synthesis of these proteins. This toxin inhibits peptide chain elongation by ADP-ribosylating elongation factor 2. Treatment of rat heart muscle cells with Pseudomonas exotoxin A (1 ng/ml) completely prevented the noradrenaline-induced increase in Gi alpha proteins, measured by both pertussis toxin-catalyzed ADP-ribosylation and immunoblotting with anti-Gi alpha antibodies. Most importantly, Pseudomonas exotoxin A also completely prevented the noradrenaline-induced decrease in forskolin-stimulated adenylyl cyclase activity. Furthermore, the noradrenaline-induced decrease in isoprenaline-stimulated adenylyl cyclase activity was significantly attenuated by the toxin, although the down-regulation of beta 1-adrenoceptors caused by noradrenaline treatment was not affected. The data presented suggest that prolonged activation of beta-adrenoceptors in rat heart muscle cells, in addition to causing a receptor down-regulation, induces the synthesis of Gi alpha proteins, which then apparently mediate a decreased adenylyl cyclase responsiveness. The data, additionally, suggest that the synthesis of Gi alpha proteins is under control of the activity of the adenylyl cyclase system and that altered levels of these proteins may play a major role in long term regulation of signal transduction by this enzyme.
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PMID:Pseudomonas exotoxin A prevents beta-adrenoceptor-induced upregulation of Gi protein alpha-subunits and adenylyl cyclase desensitization in rat heart muscle cells. 197 Oct 89

This study tests the hypothesis that atrial natriuretic factor (ANF) and C-ANF(4-23)-NH2 (C-ANF) augment cGMP generation and inhibit both cAMP generation and depolarization-induced catecholamine release in nerve growth factor treated pheochromocytoma cells by a pertussis toxin (PTX)-sensitive mechanism. Synthetic rat ANF(99-126) and the clearance receptor antagonist C-ANF (10(-12)-10(-9) M) inhibited basal and 5 microM vasoactive intestinal peptide (VIP)-induced cAMP generation in a concentration-dependent manner. These actions of ANF and C-ANF were blocked by 12-18 h pretreatment with PTX (100 ng/ml), suggesting ANF receptor coupling to adenylate cyclase via an inhibitory guanine nucleotide-binding protein. Both ANF (10(-11)-10(-9) M) and C-ANF (10(-11)-10(-8) M) also inhibited K(+)-induced catecholamine release in a concentration-dependent manner. ANF (10(-11)-10(-8) M) increased cGMP generation in a concentration-dependent manner but C-ANF did not. The accumulation of cGMP in response to ANF was not altered by treatment with PTX. Therefore, PTX dissociated the increased concentrations of cGMP from the ANF-mediated depression of evoked catecholamine release. C-ANF also dissociated elevations in cGMP concentrations from an ANF-mediated attenuation of evoked catecholamine release. The results of this study indicate that ANF inhibits adrenergic neurotransmission independent of guanylate cyclase.
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PMID:Neuromodulatory effects of atrial natriuretic factor are independent of guanylate cyclase in adrenergic neuronal pheochromocytoma cells. 197 29

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