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)

Addition of N6-(L-2-phenylisopropyl)-adenosine (PIA) to cultured FRTL-5 rat thyroid cells led to a concentration-dependent inhibition of TSH-stimulated cAMP formation. Half-maximal inhibition was attained with approximately 0.5 nM PIA. Forskolin and cholera toxin-stimulated cAMP production were also inhibited by PIA. 3-Isobutyl-methylxanthine inhibited the effect of PIA. These results are consistent with the presence of inhibitory adenosine receptors (Ri). Ri-sites were further demonstrated by the binding of 3H-cyclohexyl-adenosine to FRTL-5 plasma membranes. High (Kd = 0.50 +/- 0.07 nM) and low affinity (Kd = 5.95 +/- 2.33 nM) binding sites were observed. Pretreatment of FRTL-5 cells with pertussis, but not cholera, toxin effectively antagonized the inhibitory effects of PIA on cAMP production. ADP-ribosylation of FRTL-5 membranes with [32P]-NAD in the presence of cholera or pertussis toxin specifically labeled a 45,000 and 41,000 Mr species, respectively, which correspond to the alpha subunit of the stimulatory and inhibitory guanine nucleotide regulatory proteins. These results demonstrate that PIA inhibits TSH-stimulated cAMP production via Ri-sites on FRTL-5 thyroid cells. PIA appears to exert its inhibitory effects through the inhibitory guanine nucleotide regulatory protein.
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PMID:Inhibition of thyrotropin-stimulated adenosine 3',5'-monophosphate formation in rat thyroid cells by an adenosine analog. Evidence that the inhibition is mediated by the putative inhibitory guanine nucleotide regulatory protein. 301 48

Treatment of hepatocytes with islet activating protein (pertussis toxin) from Bordetella pertussis blocked the ability of insulin to inhibit adenylate cyclase activity both in broken plasma membranes and in intact hepatocytes. Such treatment of intact hepatocytes with pertussis toxin did not prevent insulin from activating the peripheral plasma membrane cyclic AMP phosphodiesterase although it did inhibit the ability of insulin to activate the 'dense-vesicle' cyclic AMP phosphodiesterase. The ability of glucagon pretreatment of hepatocytes to block insulin's activation of the plasma membrane cyclic AMP phosphodiesterase was abolished in pertussis toxin-treated hepatocytes. It is suggested that the ability of insulin to manipulate cyclic AMP concentrations by inhibiting adenylate cyclase and activating the plasma membrane and 'dense-vesicle' cyclic AMP phosphodiesterases involves interactions with the guanine nucleotide regulatory protein system occurring in liver plasma membranes.
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PMID:The action of islet activating protein (pertussis toxin) on insulin's ability to inhibit adenylate cyclase and activate cyclic AMP phosphodiesterases in hepatocytes. 301 98

The effect of pertussis toxin treatment was studied on the inhibitory effect of atrial natriuretic factor (ANF) on adenylate cyclase activity in rat aorta. The incubation of rat aorta washed particles with pertussis toxin and [alpha-32P]NAD resulted in the ADP-ribosylation of a single 40-kDa protein. In addition, pertussis toxin treatment enhanced guanosine 5'-O-(thiotriphosphate) and isoproterenol-stimulated adenylate cyclase activities and attenuated the ANF-mediated inhibition of basal, isoproterenol-, and forskolin-stimulated adenylate cyclase activities. These data suggest that ANF receptors are coupled to adenylate cyclase through inhibitory guanine nucleotide regulatory protein.
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PMID:Pertussis toxin attenuates atrial natriuretic factor-mediated inhibition of adenylate cyclase. Involvement of inhibitory guanine nucleotide regulatory protein. 303 Oct 34

Insulin stimulated the activity of a high-affinity GTPase activity in human platelet membranes some 62% over that of the basal activity. Half-maximal stimulation (Ka) was achieved with 3.1 nM insulin. The Km for GTP of the insulin-stimulated GTPase was 0.6 microM GTP. Treatment of isolated platelet membranes with cholera toxin, but not pertussis toxin, blocked insulin's ability to stimulate GTPase activity. Cholera toxin acted as a more potent inhibitor of the insulin-stimulated GTPase activity than that of the GTPase activity of the stimulatory guanine nucleotide regulatory protein, Gs, as monitored by stimulation using prostaglandin E1 (PGE1). Mixed ligand experiments showed that insulin stimulated GTPase activity in an additive fashion to GTPase activity stimulated by PGE1, due to Gs; by adrenaline (+ propranolol), due to the inhibitory guanine nucleotide regulatory protein, G1 and by vasopressin, which stimulates the putative 'Gp', a G-protein suggested to control the stimulation of inositol phospholipid metabolism. Insulin thus appears to stimulate a novel high-affinity GTPase activity in human platelet membranes. This may reflect the functioning of the putative Gins, a guanine nucleotide regulatory protein which has been suggested to mediate certain of insulin's actions on target tissues.
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PMID:Insulin stimulates a novel GTPase activity in human platelets. 303 74

The actions of adrenergic agents on the intracellular production of cyclic adenosine monophosphate (AMP) was examined in intact cortical and striatal neurons in primary culture, generated from the fetal mouse brain. Exposure of striatal neurons to the beta-adrenergic agonist isoproterenol (10 microM) resulted in a 5-fold increase in intraneuronal cyclic AMP; norepinephrine (100 microM), alone or in combination with isoproterenol, produced only a 3-fold increase in cyclic AMP levels. However, in the presence of yohimbine (10 microM), cyclic AMP productions due to norepinephrine or isoproterenol plus norepinephrine were identical to isoproterenol alone. When striatal or cortical neurons were exposed to pertussis toxin (100 ng/ml) overnight, there was no detectable difference between isoproterenol- and norepinephrine-stimulated cyclic AMP production. These data suggest that alpha 2-adrenergic receptors mediate the attenuation of cyclic AMP production in neurons and do so via the inhibitory guanine nucleotide regulatory protein of adenylate cyclase.
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PMID:Alpha 2-adrenergic receptors mediate inhibition of cyclic AMP production in neurons in primary culture. 304 Jan 69

1. Activation of vascular smooth muscle by angiotensin II results in the generation of two second messengers, inositol trisphosphate (IP3) and diacylglycerol (DG). 2. IP3 is responsible for mobilizing calcium from endoplasmic reticulum. This signal is transient, most likely serving to initiate calcium events leading to contraction, and is attenuated by activation of protein kinase C. 3. DG stimulates protein kinase C and ultimately Na+/H+ exchange, leading to intracellular alkalinization. Accumulation of DG/activation of protein kinase C is sustained, and may be enhanced by concurrent intracellular alkalinization. The delay in induction of the sustained response appears to be related to cellular processing of the angiotensin II-receptor complex. 4. Angiotensin II-stimulated, phospholipase C-mediated IP3 formation is also modulated by a pertussis toxin-insensitive guanine nucleotide regulatory protein. 5. The GTP binding protein, movement of the receptor-ligand complex, and the signals generated by the two second messengers, IP3 and DG, interact in a complex manner to cause an integrated response of vascular smooth muscle cells to angiotensin II stimulation.
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PMID:Secondary signalling mechanisms in angiotensin II-stimulated vascular smooth muscle cells. 307 71

Incubation of the bovine endothelial cell line, CPAE, with leukotriene D4, leukotriene C4, bradykinin, or the calcium ionophore A23187 results in the release of arachidonic acid metabolites including 6-keto-prostaglandin F1 alpha, the stable metabolite of prostacyclin. Pretreatment of these cells with the pertussis toxin islet-activating protein (IAP) results in a dose-dependent inhibition of the release of arachidonic acid metabolites and prostacyclin in response to leukotriene D4 and leukotriene C4. In contrast, similar responses evoked by bradykinin or ionophore were not significantly altered by the IAP pretreatment of the cells. IAP in the presence of [32P]NAD specifically [32P]ADP-ribosylates a 41-kDa protein in membranes prepared from CPAE cells. Pretreatment of the intact cells with IAP resulted in a dose-dependent inhibition of subsequent 32P labeling of the toxin substrate in the membranes and correlates with the uncoupling of the leukotriene responses. These results suggest that the 41-kDa IAP substrate, presumably a guanine nucleotide regulatory protein, mediates the response of CPAE cells to leukotriene D4 and leukotriene C4, but not to bradykinin or the calcium ionophore.
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PMID:Islet-activating protein inhibits leukotriene D4- and leukotriene C4- but not bradykinin- or calcium ionophore-induced prostacyclin synthesis in bovine endothelial cells. 309 5

Calcium regulates parathyroid secretion through mechanisms yet to be elucidated. We have investigated this phenomenon through use of pertussis toxin which catalyzes ADP-ribosylation and inactivation of a guanine nucleotide regulatory protein, possibly Ni or No. Calcium inhibition of PTH release is blocked in cells treated with pertussis toxin, and there is concomitant ADP-ribosylation of a 40-kilodalton protein. The ionophore A23187 inhibits secretion in toxin-treated as well as in control cells. We conclude that a guanine nucleotide regulatory protein is involved in calcium regulation of PTH secretion at a locus proximal to the intracellular site effecting inhibition of secretion.
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PMID:Calcium-controlled secretion is effected through a guanine nucleotide regulatory protein in parathyroid cells. 309 94

The thrombin-stimulated GTPase activity of human platelets was additive with respect to the GTPase stimulation effected by prostaglandin E1, but not with that stimulated by adrenaline, vasopressin and platelet-activating factor (PAF). Treatment of platelet membranes with pertussis toxin partially inhibited the thrombin-stimulated GTPase, but had no effect on the vasopressin-stimulated GTPase activity, whereas cholera toxin treatment had no effect on either of these stimulated GTPase activities. Thrombin, adrenaline and PAF, but not vasopressin, inhibited the adenylate cyclase activity of isolated plasma membranes through the action of Ni only, this being inhibited by pertussis toxin. It is suggested that thrombin exerts effects through both the inhibitory guanine nucleotide regulatory protein Ni and through the putative guanine nucleotide regulatory protein, Np, involved in regulating receptor-stimulated inositol phospholipid metabolism. However, vasopressin appears to exert its effects solely through the putative Np.
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PMID:Thrombin, unlike vasopressin, appears to stimulate two distinct guanine nucleotide regulatory proteins in human platelets. 309 63

A variety of pharmacological agents were used as experimental probes to determine with greater precision the site(s) of damage to cerebral adenylate cyclase as a consequence of postischemic reperfusion in the gerbil. A paradigm of 60-min bilateral ischemia followed by 40-min reperfusion results in a decreased sensitivity of the catalytic site of adenylate cyclase to Mn2+. Likewise, the GTP-transducer site (guanine nucleotide regulatory or G protein) revealed depressed responses to GTP in the absence or presence of norepinephrine, dopamine agonists, substance P, yohimbine, and cholera and pertussis toxins. Moreover, a crude preparation of GTPase disclosed that damage elicited by postischemic reperfusion was directed to the higher-affinity form of this enzyme, which is associated with the overall function of the guanine nucleotide regulatory protein. Injury to adenylate cyclase was unrelated either to the ability of adrenergic ligands to bind to associated receptor sites or to the capacity of the brain to generate visual evoked potentials in response to visual stimuli.
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PMID:Further probes into the molecular sites of damage to cerebral adenylate cyclase following postischemic reperfusion. 310 40


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