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)

The muscarinic stimulation of adenylate cyclase activity in rat olfactory bulb was characterized, with the aim of elucidating the nature of the molecular mechanism involved. Carbachol (CCh) stimulated the enzyme activity in either crude or purified cell membrane preparations and increased cyclic AMP accumulation in miniprisms of olfactory bulb. The CCh stimulation of adenylate cyclase activity displayed a fast onset and was rapidly reversed by addition of atropine. The stimulation was associated with an increase in the apparent Vmax of the enzyme, with no change in the Km for Mg-ATP. The affinity of the enzyme for Mg2+ was enhanced by CCh. The muscarinic effect required GTP at concentrations higher than those needed for enzyme stimulation with either l-isoproterenol or vasoactive intestinal peptide. Moreover, contrary to the beta-adrenergic stimulation, the muscarinic effect disappeared when guanosine 5'-O-(3'-thiotriphosphate) was substituted for GTP. In vivo treatment of olfactory bulbs with pertussis toxin completely prevented the muscarinic stimulation of adenylate cyclase, whereas cholera toxin was without effect. These results indicate that in rat olfactory bulb muscarinic receptors increase adenylate cyclase activity by interacting with a pertussis toxin-sensitive GTP-binding protein different from the stimulatory GTP-binding protein.
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PMID:Properties of muscarinic-stimulated adenylate cyclase activity in rat olfactory bulb. 137 77

The mechanism of G protein beta gamma subunit (G beta gamma)-induced activation of the muscarinic K+ channel (KACh) in the guinea pig atrial cell membrane was examined using the inside-out patch clamp technique. G beta gamma and GTP-gamma S-bound alpha subunits (G alpha *'s) of pertussis toxin (PT)-sensitive G proteins were purified from bovine brain. Either in the presence or absence of Mg2+, G beta gamma activated the KACh channel in a concentration-dependent fashion. 10 nM G beta gamma almost fully activated the channel in 132 of 134 patches (98.5%). The G beta gamma-induced maximal channel activity was equivalent to or sometimes larger than the GTP-gamma S-induced one. Half-maximal activation occurred at approximately 6 nM G beta gamma. Detergent (CHAPS) and boiled G beta gamma preparation could not activate the KACh channel. G beta gamma suspended by Lubrol PX instead of CHAPS also activated the channel. Even when G beta gamma was pretreated in Mg(2+)-free EDTA internal solution containing GDP analogues (24-48 h) to inactivate possibly contaminating G i alpha *'s, the G beta gamma activated the channel. Furthermore, G beta gamma preincubated with excessive GDP-bound G o alpha did not activate the channel. These results indicate that G beta gamma itself, but neither the detergent CHAPS nor contaminating G i alpha *, activates the KACh channel. Three different kinds of G i alpha * at 10 pM-10 nM could weakly activate the KACh channel. However, they were effective only in 40 of 124 patches (32.2%) and their maximal channel activation was approximately 20% of that induced by GTP-gamma S or G beta gamma. Thus, G i alpha * activation of the KACh channel may not be significant. On the other hand, G i alpha *'s effectively activated the ATP-sensitive K+ channel (KATP) in the ventricular cell membrane when the KATP channel was maintained phosphorylated by the internal solution containing 100 microM Mg.ATP. G beta gamma inhibited adenosine or mACh receptor-mediated, intracellular GTP-induced activation of the KATP channel. G i alpha *'s also activated the phosphorylated KATP channel in the atrial cell membrane, but did not affect the background KACh channel. G beta gamma subsequently applied to the same patch caused prominent KACh channel activation. The above results may indicate two distinct regulatory systems of cardiac K+ channels by PT-sensitive G proteins: G i alpha activation of the KATP channel and G beta gamma activation of the KACh channel.
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PMID:On the mechanism of G protein beta gamma subunit activation of the muscarinic K+ channel in guinea pig atrial cell membrane. Comparison with the ATP-sensitive K+ channel. 164 Feb 22

Addition of lithium ion to the inhibitory GTP-binding (Gi) protein resulted in a decrease of its ADP-ribosylation by islet-activating protein (pertussis toxin, IAP). The possibility that this decrease was due to dissociation of the Gi protein trimer was examined. Results showed that lithium ions had no appreciable effect on either the Gi protein trimer or its dissociation into its three subunits induced by Mg2+ and GTP gamma S. Next, the effect of lithium ions on Gi protein-mediated adenylate cyclase inhibition and alpha 2-adrenoceptor in human platelet membranes was examined. Lithium ion was found to impair adenylate cyclase inhibition of alpha 2-adrenoceptor stimulation of forskolin-stimulated enzyme activities. The monovalent ion also abolished guanine nucleotide modulation (GTP shift) of agonist binding, while it had no remarkable effects on antagonist binding in alpha 2-adrenoceptor of human platelet membranes. These results suggested that lithium ion caused functional change of the Gi protein without remarkable change of its dissociation, causing modulation in a coupling between alpha 2-adrenoceptor and Gi protein.
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PMID:Effects of lithium ion on the inhibitory GTP-binding protein and its coupling response. 164 75

Arg2410-Lys2423 (RVGLVRGEKARKGK, peptide 14) of the human insulin-like growth factor II receptor directly activates Gi and deletion of C-terminal 4 residues from peptide 14 nullifies this activity. A study was thus made of the effects of peptides modified in the C-terminal structure. RVGLVRGEKAAKGK and RVGLVRGEKARKGA scarcely activated Gi, whereas RVGLVRGEKARAGK (peptide A5) activated Gi as much as peptide 14 did. However, peptide A5 action did not depend on Mg2+ concentration and was little affected by pertussis toxin modification of Gi alpha. Peptide A5 may thus recognize the region on Gi alpha that is distinct from the extreme C-terminus. It is consequently considered that (i) the first and the last basic residues in the C-terminal motif of peptide 14 determine the capacity for recognition of Gi and (ii) there is a region different from the C-terminus of Gi alpha, through which the C-terminal second basic residue-altered peptide 14 activates Gi in a Mg(2+)-independent manner.
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PMID:Distinct mode of G protein activation due to single residue substitution of active IGF-II receptor peptide Arg2410-Lys2423: evidence for stimulation acceptor region other than C-terminus of Gi alpha. 165 44

Plasma membranes from bovine liver contain a phosphatidylinositol 4,5-bisphosphate-specific phospholipase C (PLC) activity that is activated by guanine nucleotides. The G-proteins involved retained their ability to activate bovine brain PLC-beta 1 in a guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S)-dependent manner following extraction from the membranes with cholate and reconstitution with phospholipids. This reconstitution assay was used to purify the G-proteins by chromatography on heparin-Sepharose, DEAE-Sephacel, octyl-Sepharose, hydroxylapatite, Mono Q, and Sephacryl S-300 gel filtration. Gel electrophoresis showed that two alpha-subunits with molecular mass of 42 and 43 kDa were isolated to a high degree of purity, together with a beta-subunit. Neither alpha-subunit was a substrate for pertussis toxin-catalyzed ADP-ribosylation. Gel filtration of the final activity indicated an apparent molecular mass of 95 kDa, suggesting the presence of an alpha beta gamma heterotrimer. Immunological data revealed that the 42- and 43-kDa proteins were related to alpha-subunits of the Gq class recently purified from brain (Pang, I.-H., and Sternweis, P. C. (1990) J. Biol. Chem. 265, 18707-18712) and identified by molecular cloning (Strathmann, M., and Simon, M. I. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 9113-9117). The activation of PLC-beta 1 by the purified G-protein preparation was specific for nonhydrolyzable guanine nucleotides, the efficacy decreasing in order GTP gamma S greater than guanylimidodiphosphate greater than guanylyl(beta,gamma-methylene)-diphosphonate. Half-maximal activation required 4 microM GTP gamma S suggesting that the affinity of the G-proteins for GTP analogues is low. The GTP gamma S-dependent activation of PLC-beta 1 required millimolar Mg2+ and was inhibited by guanosine 5'-O-(2-thiodiphosphate) and by excess beta gamma-subunits. Aluminum fluoride also activated PLC-beta 1 in the presence of the G-proteins. The G-proteins were inactive toward PLC-gamma 1 or PLC-delta 1. In summary, these findings identify two G-protein activators of PLC-beta 1 that have the properties of heterotrimeric G-proteins and are members of the Gq class.
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PMID:Purification and characterization of two G-proteins that activate the beta 1 isozyme of phosphoinositide-specific phospholipase C. Identification as members of the Gq class. 165 41

The influence of noradrenaline and protein kinase C modulators on (+)-[3H]isradipine binding to voltage-dependent calcium channels has been studied in membranes of equine portal vein smooth muscle and intact strips isolated from rat portal vein. Specific (+)-[3H]isradipine binding to intact strips was increased by noradrenaline, a combination of aluminium and fluoride, and phorbol esters. The increase in isradipine binding induced by noradrenaline was inhibited by 1 microM prazosin while that induced by phorbol esters was inhibited by H7 (a protein kinase C inhibitor). In strips pretreated 6 h with 10 micrograms.ml-1 pertussis toxin, the noradrenaline-induced increase in isradipine binding was unchanged. In contrast, isradipine binding to membranes was unaffected by noradrenaline or GTP-gamma-S. Only phorbol esters had a stimulatory effect on isradipine binding when membranes were incubated in a medium containing 10 microM ATP and 5 mM Mg2+. Scatchard plot analysis reveals that the stimulation of isradipine binding by both noradrenaline and phorbol esters appears to result from a decrease in KD rather than an effect on the maximal binding capacity. Contractions evoked by noradrenaline were concentration-dependently depressed by isradipine. About 30% of the response was resistant to inhibition, while KCl-induced contractions were completely blocked. However, noradrenaline-induced contractions were more sensitive to isradipine inhibition than were KCl-induced contractions. These results suggest that activation of protein kinase C modulates isradipine binding to voltage-dependent Ca2+ channels independently of a separate modulation by membrane depolarization.
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PMID:Modulation of [3H]dihydropyridine binding by activation of protein kinase C in vascular smooth muscle. 166 46

The influence of noradrenaline and protein kinase C modulators on (+)-[3H]isradipine binding to voltage-dependent calcium channels has been studied in membranes of equine portal vein smooth muscle and intact strips isolated from rat portal vein. Specific (+)-[3H]isradipine binding to intact strips was increased by noradrenaline and phorbol esters. The increase in isradipine binding induced by noradrenaline was inhibited by 1 microM prazosin and H7 (a protein kinase C inhibitor), while that induced by phorbol esters was only inhibited by H7. In strips pretreated with 10 micrograms/ml pertussis toxin for 6 h, the noradrenaline-induced increase in isradipine binding was unchanged. In contrast, isradipine binding to membranes was unaffected by noradrenaline or GTP-gamma-S. Only phorbol esters had a stimulatory effect on isradipine binding when membranes were incubated in a medium containing 10 microM ATP and 1 mM Mg2+. Scatchard plot analysis reveals that the stimulation of isradipine binding by both noradrenaline and phorbol esters appears to result from a decrease in KD rather than an effect on the maximal binding capacity. Contractions evoked by noradrenaline were concentration-dependently depressed by isradipine. About 30% of the response was resistant to inhibition, while KCl-induced contractions were completely blocked. However, noradrenaline-induced contractions were more sensitive to isradipine inhibition than were KCl-induced contractions. These results suggest that activation of protein kinase C modulates isradipine binding to voltage-dependent Ca2+ channels.
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PMID:Pharmacology of Ca2+ channels in smooth muscle. 166 62

The binding of [3H]quinuclidinyl benzilate to a cockroach brain preparation was investigated. Specific binding was saturable with a Kd of 0.25 nM and Scatchard analysis indicated a Bmax of 604 pmol/mg protein. Kinetic analysis indicated that the ligand is binding in a complex fashion while dissociation followed a simple kinetic process. The pharmacology of the site was typical of muscarinic receptors but the site cannot be characterized in terms of vertebrate muscarinic-receptor subtypes. Affinity of the receptor for agonists was modulated by Mg2+ and guanylylimidodiphosphate but not by pertussis toxin indicating the involvement of a pertussis-toxin insensitive G-protein. Carbamylcholine did not inhibit basal or forskolin-stimulated adenylate cyclase activity. The binding site was localized autoradiographically and was restricted to the median and lateral calyces of the brain.
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PMID:Distribution and pharmacological characterization of muscarinic-cholinergic receptors in the cockroach brain. 166 95

We investigated the effects of the basic peptides polyarginine, protamine, and polylysine on dispersed bovine parathyroid cells. All three peptides produced a dose-dependent inhibition of dopamine-stimulated cAMP accumulation, with half-maximal inhibition at 4 x 10(-8), 1.5 x 10(-7), 3 x 10(-7), and 2 x 10(-6) M, respectively, for polyarginine, protamine, and two preparations of polylysine of molecular weights 10,200 and 3800. The inhibition of cAMP accumulation was reversible and was blocked by preincubating the cells overnight with 0.5 micrograms/ml of pertussis toxin. The same peptides also inhibited PTH release at similar concentrations, markedly stimulated the accumulation of inositol phosphates at two- to threefold higher concentrations, and produced transient increases in the cytosolic Ca2+ concentration (Cai) in fura-2-loaded parathyroid cells. The polylysine-evoked spike in Cai persisted despite the removal of extracellular Ca2+, indicating that it arose from intracellular Ca2+ stores. Exposure of the cells to elevated extracellular magnesium (Mg2+) concentrations elicited a similar spike in Cai but blocked the Cai transient in response to subsequent addition of polylysine, or vice versa. Thus, Mg2+ and polylysine mobilize Ca2+ from the same intracellular store(s). These results indicate that highly basic peptides closely mimic the effects of polyvalent cations on parathyroid function, suggesting that both agents may regulate parathyroid function via similar biochemical pathways.
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PMID:Polyarginine, polylysine, and protamine mimic the effects of high extracellular calcium concentrations on dispersed bovine parathyroid cells. 166 8

In homogenate of rat olfactory bulb, the opioid receptor agonists beta-endorphin, Leu-enkephalin, and dynorphin A stimulated adenylate cyclase activity in a concentration-dependent manner, with half-maximal effects displayed at 22, 63, and 176 nM, respectively. The maximal stimulation of the enzyme activity corresponded to about a 40% increase of basal activity for all three peptides. Naloxone antagonized the stimulation of beta-endorphin, Leu-enkephalin, and dynorphin A, with pA2 values of 8.0, 7.7, and 8.1, respectively. Kinetic analysis performed with Leu-enkephalin showed that the opioid peptide increased the Vmax of the enzyme, without changing the Km for the substrate Mg-ATP. Moreover, the opioid stimulation was associated with a significant increase of the affinity of the enzyme for Mg2+ activation and occurred in membranes incubated in a Ca2(+)-free medium. Addition of exogenous GTP at micromolar concentrations was absolutely necessary for the detection of the opioid effect. Treatment of olfactory bulbs with cholera toxin did not alter the stimulation of adenylate cyclase by Leu-enkephalin. However, the opioid stimulation disappeared in membranes obtained from bulbs injected with pertussis toxin. These results demonstrate the presence in the brain of a new functional class of opiate receptors coupled to stimulation of adenylate cyclase via a transduction mechanism that is Ca2+ independent and seems to involve a pertussis toxin-sensitive GTP-binding protein.
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PMID:Naturally occurring opioid receptor agonists stimulate adenylate cyclase activity in rat olfactory bulb. 167 23

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