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 molecular mechanism of action for the pineal hormone melatonin was explored by testing melatonin interaction with the components of the hormone-sensitive adenylate cyclase complex in a Xenopus dermal melanophore bioassay. Forskolin was employed to stimulate melanosome dispersion. The ability of melatonin to reverse forskolin-stimulated pigment dispersion was assessed, as was the effect of pertussis toxin on the ability of melatonin to aggregate dispersed pigment. Forskolin elicited dispersal of melanosomes in a dose dependent manner (EC50 = 12 nM) in meninges from stage 52-56 tadpoles of Xenopus laevis. Maximal pigment dispersion was obtained with 100 nM forskolin. Melatonin reversed this effect of forskolin (EC50 = 1.5 nM), causing pigment aggregation. Pertussis toxin blocked the melatonin-induced aggregation (EC50 = 358 ng/ml). Prior treatment of the melanophore containing meningeal explants with pertussis toxin results in blockade of melatonin induced pigment aggregation. A 41 kDa pertussis toxin substrate is found in explant homogenates treated with 32P-NAD and pertussis toxin. The availability of this substrate is reduced by prior treatment of intact explants with pertussis toxin and depletion of melatonin responsiveness corresponds to depletion of the 41 kDa substrate. Together, these data suggest that melatonin action upon amphibian dermal melanosomes is mediated by a system requiring a protein similar to the regulatory protein Ni used by mammalian cells to mediate the action of hormones which inhibit adenylate cyclase through a cell surface receptor.
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PMID:Pertussis toxin blocks melatonin-induced pigment aggregation in Xenopus dermal melanophores. 357 70

The influence of the diterpene, forskolin, was studied on adenylate cyclase activity in membranes of rat basophilic leukemia cells. Forskolin increased basal adenylate cyclase activity maximally 2-fold at 100 microM. However, adenylate cyclase activity stimulated via the stimulatory guanine nucleotide-binding protein, Ns, by fluoride and the stable GTP analog, guanosine 5'-O-(3-thiotriphosphate), was inhibited by forskolin. Half-maximal and maximal inhibition occurred at about 1 and 10 microM forskolin, respectively. The inhibition occurred without an apparent lag phase, whereas the enzyme stimulation by forskolin was preceded by a considerable lag period. The inhibition was not affected by treating intact cells or membranes with pertussis toxin and proteolytic enzymes, respectively, which have been shown in other cell types to prevent adenylate cyclase inhibition mediated by the guanine nucleotide-binding regulatory component, Ni. The forskolin inhibition of the stable GTP analog-activated adenylate cyclase was impaired by increasing the Mg2+ concentration and was reversed into a stimulation by Mn2+. Under optimal inhibitory conditions, forskolin even decreased basal adenylate cyclase activity. Finally, forskolin largely reduced the apparent affinity of the rat basophilic leukemia cell adenylate cyclase for its substrate, MgATP, which reduction resulted in an apparent inhibition at low MgATP concentrations and a loss of the inhibition at higher MgATP concentrations. The data indicate that forskolin can cause both stimulation and inhibition of adenylate cyclase and, furthermore, they suggest that the inhibition may not be mediated by the Ni protein, but may be caused by a direct action of forskolin at the adenylate cyclase catalytic moiety.
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PMID:Stimulation and inhibition of rat basophilic leukemia cell adenylate cyclase by forskolin. 389 83

The diterpene forskolin is a potent (100-fold) stimulator of guinea pig thyroid cAMP accumulation with half-maximal activation occurring at 40 microM. Forskolin stimulation is more rapid than that of TSH, attaining a 5-fold increase within 1 min of exposure. The stimulation is also rapidly reversible. The diterpene does not sensitize thyroid cAMP accumulation to TSH, and the concentration yielding half-maximal response is not altered by the presence of low levels of forskolin. At maximally stimulating concentrations, the effects of TSH and forskolin on cAMP accumulation are additive. Forskolin stimulates thyroid adenylate cyclase approximately 10-fold in membranes from several species with half-maximal effects occurring at 3--9 microM through an action on the maximum velocity and not the Km for ATP. The activation of thyroid membranes is readily reversible. Guanyl nucleotides are not required for stimulation by forskolin, and they do not sensitize to forskolin. Moreover, the drug did not sensitize the membrane adenylate cyclase to guanosine 5'-[beta, gamma-imido]triphosphate or to isoproterenol and was equally effective with either Mg++ or Mn++ as the divalent cation. Forskolin stimulation is additive with that of guanyl nucleotides and F-. The site of action of forskolin in the adenylate cyclase complex is uncertain. Data from Bordetella pertussis, testicular, and S-49 lymphoma mutant cyclases suggest that one of the guanyl nucleotide regulatory proteins may be required to promote the forskolin effect. We conclude that forskolin is a useful activator of thyroid adenylate cyclase both in vitro and in intact tissue, which will be useful in elucidating the coupling process of the adenylate cyclase system and in differentiating cAMP-mediated from other forms of activation of the thyroid.
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PMID:Forskolin stimulation of thyroid adenylate cyclase and cyclic 3',5'-adenosine monophosphate accumulation. 628 84

Inhibition of basal adenylate cyclase by GTP or guanyl-5'-yl imidodiphosphate was abolished in membranes isolated from rat adipocytes previously incubated with pertussis toxin. Forskolin (0.1 microM) stimulated adenylate cyclase about 4-fold and inhibition of cyclase by GTP or guanyl-5'-yl imidodiphosphate was also abolished by pertussis toxin treatment of rat adipocytes. Forskolin (1 microM) increased adenylate cyclase activity at least ten-fold and the inhibitory effect of GppNHp was reduced but not abolished by pertussis toxin. In rabbit adipocytes, pertussis toxin reversed the inhibition of adenylate cyclase activity by GppNHp to the same extent as that by GTP in the presence of 1 microM forskolin. The present results indicate that pertussis toxin can reverse the inhibition of adipocyte adenylate cyclase by nonhydrolyzable GTP analogs as well as that by GTP.
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PMID:Pertussis toxin reverses Gpp(NH)p inhibition of basal and forskolin activated adipocyte adenylate cyclase. 668 37

Incubation of SH-SY5Y neural cells with mycophenolic acid (MPA), an inhibitor of inosine monophosphate dehydrogenase (the key enzyme in purine nucleotide biosynthesis), reduced the cellular content of GTP by 94% relative to its concentration in control cells (43 nmol/mg protein) without altering the level of GDP. Although in GTP-depleted intact cells the receptor binding parameters (Kd and Bmax) of the opioid antagonist [3H]naltrexone were unchanged from those in untreated cells, the binding affinity of the mu-selective opioid agonist [3H]Tyr-D-Ala-Gly-(Me)- Phe-Gly-ol ([3H]DAMGO) was enhanced 2-fold. Furthermore, the kinetics of ligand/receptor interaction revealed that in the nucleotide-depleted cells, the dissociation rate constant for [3H]DAMGO was reduced by 44%. Initial exposure of SH-SY5Y cells to pertussis toxin reduced high-affinity ligand binding by 95% and abolished the effect of MPA treatment. Renewed incubation of the GTP-depleted cells with guanosine restored the original GTP levels and agonist binding. Neither MPA nor guanosine treatment changed the Bmax of [3H]DAMGO binding. Forskolin- and prostaglandin E1-stimulated adenylyl cyclase activities were decreased significantly in GTP-depleted cells. DAMGO and [D-Pen2,D-Pen5]enkephalin inhibitions of adenylyl cyclase were also affected with MPA treatment. Maximal inhibition of forskolin-stimulated adenylyl cyclase activity by both of the agonists was reduced, whereas MPA caused a 2-fold reduction in potency for DAMGO. The results show that reduction in endogenous GTP levels leads to noticeable changes in agonist, receptor, and G protein interactions, as measured by agonist binding, and to subsequent diminution of the signal transduction, as reflected by the cAMP levels.
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PMID:Reversible modulation of opioid receptor binding in intact neural cells by endogenous guanosine triphosphate. 747 95

Intracellular recordings were obtained from myenteric AH neurons of guinea pig ileum in vitro. Slow excitatory synaptic responses associated with decreased potassium conductance (gK), inhibition of the spike afterhyperpolarization current (AHC), and increased chloride conductance (gCl) were mimicked by senktide, a neurokinin3 receptor agonist. Intracellular guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) decreased gK and increased gCl irreversibly after nerve stimulation or senktide application. Myenteric neurons in pertussis toxin (PTX)-treated tissues responded normally to senktide and nerve stimulation. Forskolin and phorbol 12,13-dibutyrate (PDBu) inhibited gK and the AHC but did not activate gCl. The AHC was not reduced by subthreshold concentrations of forskolin (10 nM) or PDBu (3 nM) alone but was inhibited by forskolin and PDBu applied together. Inhibitors of phospholipase C (D-609) or protein kinases (staurosporine) reduced slow synaptic and senktide responses. The protein phosphatase inhibitor, calyculin A, caused an inward current, a decrease in gK, and AHC inhibition but did not activate gCl. We conclude that slow excitatory synaptic responses are mediated by PTX-insensitive G proteins and activation of phospholipase C and protein kinases. Forskolin and PDBu activate pathways that inhibit gK. The mechanisms for activation of gCl are unknown.
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PMID:Signal-transduction pathways causing slow synaptic excitation in guinea pig myenteric AH neurons. 749 63

The objective of this study was to explore the action of angiotensin II (AII) on cardiac contractility and cyclic AMP (cAMP) generation by forskolin and isoproterenol in the hypertrophic myocardium of the salt-sensitive Dahl rat. Inbred Dahl S and Dahl R rats that had been on a diet supplemented with 6% NaCl were studied. The functional effects of the interaction of AII and forskolin on cardiac contractility were assessed in the isolated heart preparation. The effect on the cAMP signal transduction pathway was assessed in cardiomyocytes isolated from hearts of Dahl S and R rats. Dahl S rats developed cardiac hypertrophy on a high-salt diet, whereas Dahl R rats did not. Forskolin increased cardiac contractility, which was differently affected by AII, depending on whether the heart was from hypertrophied Dahl S rat or from the control Dahl R rat. AII accentuated forskolin-induced increases in cardiac contractility in hypertrophic hearts but diminished forskolin-induced increases in contractility in the nonhypertrophied hearts. This response was reflected in the cAMP response to forskolin, in that AII decreased forskolin-induced increases in cAMP in the nonhypertrophic heart. AII had the reverse effect in cardiomyocytes from hypertrophied hearts, as AII increased forskolin-induced cAMP production. This was shown to be due to an AII receptor mediated effect, as it was antagonized by the AII receptor antagonist saralasin. The same effects of AII were found on isoproterenol-induced increases in cAMP. Similar results occurred in the presence of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX), suggesting that the effect was on cAMP production rather than cAMP degradation. This was attributed to an inhibitory G protein (Gi) mechanism, as the muscarinic agonist carbachol, which acts through Gi, produced the same effects as AII. Furthermore, the effects of AII were abolished by pertussis toxin, which inactivates Gi. These data indicate a reversal of control by AII in the hypertrophic Dahl S heart in response to forskolin, which activates adenylyl cyclase directly on the catalytic subunit, converting the substrate, ATP, to cAMP, independent of the guanine nucleotide activated protein, and in response to isoproterenol, which activates adenylyl cyclase through G protein mechanisms. All accentuated the forskolin-induced increase in cardiac contractility and cAMP generation in the hypertrophied ventricle but decreased both contractility and cAMP generation in nonhypertrophied hearts, suggesting that the process of cardiac hypertrophy in salt-sensitive Dahl rat may compensate for the reduction in intracellular cAMP by altering its regulatory control by AII.
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PMID:Angiotensin II induced alteration of cyclic adenosine 3',5'-monophosphate generation in the hypertrophic myocardium of Dahl salt-sensitive rat on a high-salt diet. 752 30

Cholera toxin catalyzed the transfer of ADP-ribose from [alpha-32P] NAD to 45kDa protein in pig epidermis. Western blot analysis using anti-Gs alpha antibody identified the 45kDa protein to be Gs alpha. In contrast to pertussis toxin-catalyzed ADP-ribosylation of Gi alpha, the cholera toxin-catalyzed ADP-ribosylation was enhanced by the presence of Mg2+ in the reaction mixture. The cholera toxin-catalyzed ADP-ribosylation of the epidermal 45kDa membrane protein was significantly decreased, when samples were prepared from the cholera toxin-pretreated epidermis. The results, coupled with our previous report (Tsutsui and Iizuka 1990), indicate that pig epidermis contains functional G proteins (Gs and Gi), that affect the epidermal adenylate cyclase activity. Tape stripping-induced hyperproliferative epidermis showed an increased cholera toxin-catalyzed ADP-ribosylation of the 45kDa protein (Gs alpha) at 12-24 h following the tape stripping. Immunoblot analysis, however, showed no remarkable change in the level of Gs alpha compared with non-stripping controls. There was no significant difference in the level of the pertussis toxin-induced ADP-ribosylation of 40kDa protein (Gi alpha) in the tape-stripped epidermis. Immunoblot analysis showed no change in Gi content, either. Forskolin-induced cyclic AMP accumulation was markedly increased in the tape stripping-induced hyperproliferative epidermis. Cholera toxin-induced cyclic AMP accumulation was slightly increased, but this was not statistically significant. These results indicate that the alteration of Gs that is documented by cholera toxin-catalyzed ADP-ribosylation, is among the functional derangements of adenylate cyclase of tape stripping-induced hyperproliferative epidermis.
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PMID:Stimulatory guanine nucleotide binding protein in pig epidermis: transient increase of the 45KDA cholera toxin substrate (Gs alpha) in the tape stripping-induced hyperproliferative state. 755 Jun 8

Microinjecting cholinomimetics into the medial pontine reticular formation (mPRF) of conscious cats causes a rapid eye movement (REM) sleep-like state and state-dependent respiratory depression. Muscarinic receptors within the mPRF have been shown to mediate this state-dependent respiratory depression, but the specific signal transduction mechanisms remain poorly understood. This study tested the hypothesis that the cholinergically induced REM sleep-like state and state-dependent respiratory depression are mediated by guanine nucleotide binding proteins (G proteins). Cholera toxin, pertussis toxin, 5'-guanylylimidodiphosphate, and forskolin were microinjected alone and in combination with carbachol into the mPRF of intact unanesthetized cats. All of the G protein-altering compounds significantly reduced the ability of carbachol to produce the REM sleep-like state. Pertussis toxin caused the greatest decrease in the percent of time spent in the carbachol-evoked REM sleep-like state, showing for the first time mediation by a pertussis toxin-sensitive (Gi- or G(o)-like) G protein. Cholera toxin blocked the carbachol-induced respiratory depression, indicating mediation by a Gs-like G protein. Forskolin significantly decreased carbachol-evoked REM sleep. These data provide the first demonstration that adenylyl cyclase within the mPRF contributes to the carbachol induction of REM sleep and respiratory depression.
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PMID:Pertussis toxin-sensitive G proteins mediate carbachol-induced REM sleep and respiratory depression. 765 52

The effect of adenylate cyclase stimulation via the components of the enzyme on nuclear maturation in bovine cumulus-enclosed and zona-free oocytes was examined. The stimulating agents were cholera toxin, pertussis toxin, forskolin, sodium fluoride and prostaglandin E2. Cyclic AMP contents were measured in cumulus-oocyte complexes, cumulus-enclosed oocytes and in zona-free oocytes after stimulation, to establish the relationship between cumulus cell and oocyte cAMP concentrations and the meiotic status of the oocyte. In cumulus-enclosed oocytes, forskolin alone and 3-isobutyl-1-methylxanthine (IBMX), at 0.5 mmol l-1, inhibited the resumption of meiosis after 8 h of culture; the other agents were without effect. After 24 h of culture, IBMX at 0.5 mmol l-1 was without effect, but at 2 mmol l-1 reduced the percentage of oocytes at the mature stage (51 versus 82% in control medium). Forskolin alone reduced the proportion of oocytes at the mature stage from 82 to 58%. Forskolin plus IBMX at 2 mmol l-1 and sodium fluoride plus IBMX at 2 mmol l-1 significantly diminished the maturation rate (6 and 17% mature oocytes, respectively). Cholera toxin (with IBMX) and forskolin (alone or with IBMX) stimulated the synthesis of high amounts of cAMP in complexes, but only forskolin had a significant effect on the cAMP contents of oocytes derived from complexes. Forskolin was more effective in zona-free oocytes than in cumulus-enclosed oocytes in inhibiting nuclear maturation (24% mature oocytes versus 73% in control medium) even after 24 h of culture; its effect was potentiated by IBMX; forskolin also stimulated cAMP synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of adenylate cyclase stimulation on meiotic resumption and cyclic AMP content of zona-free and cumulus-enclosed bovine oocytes in vitro. 768 78

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