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)

Glucose utilization in isolated pancreatic islets of the rat was inhibited by prostaglandin (PG) E2 and the alpha 2 adrenoceptor agonist, clonidine, to a similar extent; other prostaglandins did not affect glucose utilization. Islet oxidation of [1-14C]glucose and [6-14C]glucose demonstrated that the pentose phosphate shunt was inhibited by PGE2 and clonidine. Pertussis toxin antagonizes the effects of clonidine and PGE2 on total glucose utilization and pentose phosphate shunt activity. The results suggest that PGE2 and alpha 2 adrenoceptor agonists may regulate glucose metabolism through similar transduction mechanisms, and that a guanine nucleotide binding regulatory (G) protein modulates certain metabolic effects of prostaglandins and adrenergic agonists.
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PMID:Prostaglandin E2 and alpha 2 adrenoceptor agonists inhibit the pentose phosphate shunt in pancreatic islets. 256 46

Several prostaglandins inhibit the cAMP response to glucagon and beta-adrenergic stimulation in hepatocytes. To probe the mechanism of this inhibition, we have examined in primary hepatocyte cultures how pretreatment with pertussis toxin (islet-activating protein) influences the ability of the cells to respond to hormones and prostaglandins. Pertussis toxin augmented the effects of glucagon, epinephrine and isoproterenol, and also markedly enhanced the cAMP response to prostaglandin E1 (PGE1). Furthermore, whereas PGE1, PGE2, PGI2 and PGF2 alpha attenuated the cAMP responses to glucagon in control cultures, this inhibition was abolished in cells pretreated with pertussis toxin. A more detailed comparison was made of the effects of PGE1 and PGF2 alpha. In cells not treated with pertussis toxin, both these prostaglandins at high concentrations reduced the cAMP response to glucagon and isoproterenol by approximately 50%, but dose-effect curves showed that PGE1 was about 100-fold more potent as an inhibitor than PGF2 alpha. Pertussis toxin abolished the inhibitory effects of PGE1 and PGF2 alpha with almost identical time and dose requirements. The results obtained with PGE1, PGE2, PGI2 and PGF2 alpha suggest that prostaglandins of different series attenuate hormone-activable adenylate cyclase in hepatocytes through a common mechanism, dependent on the inhibitory GTP-binding protein.
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PMID:Pertussis toxin abolishes the inhibitory effects of prostaglandins E1, E2, I2 and F2 alpha on hormone-induced cAMP accumulation in cultured hepatocytes. 283 60

Prostaglandin E1 (PGE1) at 1 nM inhibits arginine-vasopressin (AVP)-induced water reabsorption in the rabbit cortical collecting tubule (RCCT), while 100 nM PGE1, by itself, stimulates water reabsorption (Grantham, J. J., and Orloff, J. (1968) J. Clin. Invest. 47, 1154-1161). To investigate the basis for these two responses, we measured the effects of prostaglandins on cAMP metabolism in purified RCCT cells. In freshly isolated cells, PGE2, PGE1, and 16,16-dimethyl-PGE2 acting at high concentrations (0.1-10 microM) stimulated cAMP accumulation; however, one PGE2 analog, sulprostone (16-phenoxy-17,18,19,20-tetranor-PGE2 methylsulfonilamide), failed to stimulate cAMP accumulation or to antagonize PGE2-induced cAMP formation; PGD2, PGF2 alpha, and a PGI2 analog, carbacyclin (6-carbaprostaglandin I2), also failed to stimulate cAMP synthesis. These results suggest that there is a PGE-specific stimulatory receptor in RCCT cells which mediates activation of adenylate cyclase. Occupancy of this receptor would be anticipated to cause water reabsorption by the collecting tubule. At lower concentrations (0.1-100 nM) PGE2, PGE1, 16,16-dimethyl-PGE2, and, in addition, sulprostone inhibited AVP-induced cAMP accumulation by fresh RCCT cells in the presence of cAMP phosphodiesterase inhibitors. Pertussis toxin pretreatment of RCCT cells blocked the ability of both PGE2 and sulprostone to inhibit AVP-induced cAMP accumulation. In membranes prepared from RCCT cells, sulprostone prevented stimulation of adenylate cyclase by AVP. These results suggest that E-series prostaglandins (including sulprostone) can act through an inhibitory PGE receptor(s) coupled to the inhibitory guanine nucleotide regulatory protein, Gi, to block AVP-induced cAMP synthesis by RCCT cells. Occupancy of this receptor would be expected to cause inhibition of AVP-induced water reabsorption in the intact tubule. Curiously, after RCCT cells were cultured for 5-7 days, PGE2 no longer inhibited AVP-induced cAMP accumulation, but PGE2 by itself could still stimulate cAMP accumulation. In contrast to PGE2, epinephrine acting via an alpha 2-adrenergic, Gi-linked mechanism did block AVP-induced cAMP formation by cultured RCCT cells. This implies that some component of the inhibitory PGE response other than Gi is lost when RCCT cells are cultured.
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PMID:Regulation of cyclic AMP metabolism in rabbit cortical collecting tubule cells by prostaglandins. 283 64

Vasopressin (AVP) plays a key role in maximal urine concentration by stimulating NaCl reabsorption in the medullary thick ascending limbs of Henle (MAL) and by increasing water permeability in the medullary collecting tubules (MCT). These effects of AVP in MAL and MCT are mediated by cAMP. Alpha 2-adrenergic stimulation in MCT, and high ambient Ca2+ and PGE2 in MAL inhibit AVP-dependent cAMP production and thereby modulate urine concentration. The present study was undertaken to clarify the mechanisms underlying the inhibition of AVP-dependent cAMP production by these agents using microdissected mouse MAL and MCT. Preincubation of MCT and MAL with 1 microgram/ml pertussis toxin for 3 and 6 h, respectively, resulted in ADP-ribosylation of an approximately 41-kD protein, which was presumably an alpha subunit of the inhibitory GTP-binding protein Gi. Epinephrine, 10(-6) M, via alpha 2-adrenergic stimulation, inhibited AVP-dependent cAMP production in MCT. Preincubation of MCT for 3 h with pertussis toxin abolished the inhibition of AVP-dependent cAMP production by epinephrine. High ambient Ca2+ and PGE2 both inhibited AVP-dependent cAMP production in MAL. Preincubation of MAL for 6 h with pertussis toxin abolished the inhibition by high ambient Ca2+ and attenuated the inhibition by PGE2. Preincubation of MCT or MAL with pertussis toxin for 1 h was ineffective in ADP-ribosylation and did not modify the inhibition of AVP-dependent cAMP production by these agents in both nephron segments. Our data suggest that the inhibition of AVP-dependent cAMP production by alpha 2-adrenergic stimulation in MCT, and by high ambient Ca2+ and adrenergic stimulation in MCT, and by high ambient Ca2+ and PGE2 in MAL, is mediated, at least in part, through activation of Gi.
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PMID:Inhibitory guanosine triphosphate-binding protein-mediated regulation of vasopressin action in isolated single medullary tubules of mouse kidney. 284 57

The effect of pertussis toxin, which inactivates the guanine nucleotide binding regulatory proteins Gi and Go on cAMP production in response to parathyroid hormone PGE2 or forskolin, was examined in confluent opossum kidney (OK) cells. This effect was compared with that caused by dexamethasone. The response to PTH was increased in cells preincubated with either agent. The effect of pertussis toxin was selective for PTH, since cAMP production in response to neither PGE2 nor forskolin was increased. In contrast, the response to forskolin was enhanced in dexamethasone-treated cells. These results indicate that both stimulatory and inhibitory guanine nucleotides binding regulatory proteins modulate PTH-induced cAMP production in OK cells. Moreover, pertussis toxin and dexamethasone appear to affect different levels of the PTH-receptor-adenylate cyclase complex.
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PMID:Effect of pertussis toxin on parathyroid hormone-stimulated cyclic AMP production in cultured kidney cells. 285 89

The present study compared the effects of insulin, 2-chloroadenosine, and prostaglandin E2 as inhibitors of respiration in hamster brown adipocytes stimulated with either isoproterenol or phenylephrine. Addition of 2-chloroadenosine or prostaglandin E2 strongly antagonized isoproterenol-stimulated respiration; phenylephrine-stimulated respiration was also partially inhibited by 2-chloroadenosine and prostaglandin E2, but the extent of inhibition caused by these agents was not as great as when isoproterenol was used. Isoproterenol-stimulated respiration was inhibited by insulin, but phenylephrine-stimulated respiration was insensitive to the inhibitory effect of insulin. When brown adipocytes were pretreated with pertussis toxin, isoproterenol-stimulated respiration was enhanced, but phenylephrine-stimulated respiration was not significantly affected. The inhibitory effects of 2-chloroadenosine and prostaglandin E2 on isoproterenol-stimulated respiration were completely blocked by pertussis toxin, indicating that the mode of action of these inhibitory hormones was secondary to inhibition of adenylate cyclase and resultant inhibition of lipolysis. Prostaglandin E2 inhibition of phenylephrine-stimulated respiration was also abolished by pertussis toxin. In contrast, 2-chloroadenosine inhibition of phenylephrine-stimulated respiration persisted in adipocytes treated with pertussis toxin. These data suggest that phenylephrine stimulates respiration through a mechanism that is not altered by pertussis toxin and further that 2-chloroadenosine inhibition of isoproterenol- or phenylephrine-stimulated respiration can be dissociated.
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PMID:Effects of insulin, adenosine, and prostaglandin on alpha-adrenergic-stimulated respiration in brown adipocytes. 287 61

Prostaglandin E2 (PGE2) was found to bind specifically, reversibly, and in a protein-dependent manner to a single class of high affinity (KD approximately equal to 20 nM) binding sites in membranes prepared from canine renal outer medulla. PGE2 binding activity was solubilized from these membranes in a stable form (t1/2 greater than 14 days) in the absence of ligand in 75% yields using digitonin. The characteristics of PGE2 binding to membranes and solubilized protein were similar with respect to pH dependence, KD for PGE2, and order of potency of prostaglandins (PGE2 approximately PGE1 greater than PGF2 alpha greater than PGD2) in inhibiting the binding of [3H]PGE2. Importantly, the extents of binding of PGE2 to membranes and to a solubilized preparation partially purified by chromatography on wheat germ agglutinin-Affi-Gel 10 were both increased about 2-fold by GDP and GTP and its analogs. Treatment of the digitonin-solubilized PGE2 binding activity with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid (CHAPS) rendered the binding activity insensitive to stimulation by GTP and decreased the apparent molecular weight of the peak of PGE2 binding activity from about 175,000 to about 65,000. These results suggest that the PGE2 binding activity resides in a protein which is tightly associated with, but distinct from, a guanine nucleotide regulatory (N) protein. PGE2 (greater than or equal to 10 nM) was found to stimulate GTPase activity of renal outer medullary membranes, and this stimulation was eliminated by pretreatment of membranes with pertussis toxin and NAD, but not cholera toxin and NAD. Treatment of both particulate and solubilized preparations of PGE2 binding activity with pertussis toxin plus NAD also eliminated the ability of GTP to stimulate PGE2 binding. This evidence indicates that it is the inhibitory guanine nucleotide regulatory protein, Ni, with which the PGE2 binding activity is associated. Thus, this PGE2 binding activity is an inhibitory PGE2 receptor, quite possibly one that mediates inhibition of vasopressin-induced cAMP formation in the medullary thick ascending limb and/or collecting tubule of the kidney.
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PMID:Association of a solubilized prostaglandin E2 receptor from renal medulla with a pertussis toxin-reactive guanine nucleotide regulatory protein. 287 97

Prostaglandin E2 (PGE2) specifically bound to 100,000 X g pellet prepared from bovine adrenal medulla, and [3H]PGE2-bound proteins were solubilized with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid. The dissociation of bound [3H]PGE2 from the proteins was enhanced by GTP. [3H]PGE2-specifically bound proteins were adsorbed onto a wheat germ agglutinin column and GTP treatment decreased the amount of [3H]PGE2 retained on the column. When [3H]PGE2-bound proteins were cross-linked in the membrane by dithiobis(succinimidyl propionate) and solubilized, bound [3H]PGE2 was no longer dissociated by GTP treatment, suggesting that cross-linking produced a stable and high-affinity complex of PGE receptor with a GTP-binding protein. Covalent cross-linking of the complex was attested by adsorption of dithiobis(succinimidyl propionate)-treated [3H]PGE2-bound proteins to GTP-Sepharose, and co-elution of [35S]guanosine 5'-O-(3-thiotriphosphate) binding activity and immunoreactivities of alpha o and beta subunits of a GTP-binding protein. The cross-linked [3H]PGE2-bound complex was eluted as an apparently single radioactive peak at the position of Mr = 200,000 by gel filtration. These results have demonstrated that PGE receptor is a glycoprotein with an approximate Mr of 110,000, assuming that the Mr of the GTP-binding protein is 90,000. PGE2 neither activated nor inhibited adenylate cyclase activity, and pertussis toxin (islet-activating protein) did not affect PGE2 binding and its GTP sensitivity. These results suggest that the PGE receptor may be functionally associated with a pertussis toxin-insensitive GTP-binding protein and is not coupled to the adenylate cyclase system in bovine adrenal medulla.
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PMID:Covalent cross-linking of prostaglandin E receptor from bovine adrenal medulla with a pertussis toxin-insensitive guanine nucleotide-binding protein. 288 64

Prostaglandin E2 (PGE2) was found to bind specifically to a 100,000 x g pellet prepared from bovine adrenal medulla. The PGE receptor was associated with a GTP-binding protein (G-protein) and could be covalently cross-linked with this G-protein by dithiobis(succinimidyl propionate) in the 100,000 x g pellet (Negishi, M., Ito, S., Tanaka, T., Yokohama, H., Hayashi, H., Katada, T., Ui, M., and Hayaishi, O. (1987) J. Biol. Chem. 262, 12077-12084). In order to characterize the G-protein associated with the PGE receptor and reconstitute these proteins in phospholipid vesicles, we purified the G-protein to apparent homogeneity from the 100,000 x g pellet. The G-protein served as a substrate of pertussis toxin but differed in its alpha subunit from two known pertussis toxin substrate G-proteins (Gi and Go) purified from bovine brain. The molecular weight of the alpha subunit was 40,000, which is between those of Gi and Go. The purified protein was also distinguished immunologically from Gi and Go and was referred to as Gam. PGE receptor was solubilized by 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid and freed from G-proteins by wheat germ agglutinin column chromatography. Reconstitution of the PGE receptor with pure Gam, Gi, or Go in phospholipid vesicles resulted in a remarkable restoration of [3H]PGE2 binding activity in a GTP-dependent manner. The efficiency of these three G-proteins in this capacity was roughly equal. When pertussis toxin- or N-ethylmaleimide-treated G-proteins, instead of the native ones, were reconstituted into vesicles, the restoration of binding activity was no longer observed. The displacement of [3H]PGE2 binding was specific for PGE1 and PGE2. Furthermore, addition of PGE2 stimulated the GTPase activity of the G-proteins in reconstituted vesicles. These results indicate that the PGE receptor can couple functionally with Gam, Gi, or Go in phospholipid vesicles and suggest that Gam may be involved in signal transduction of the PGE receptor in bovine adrenal medulla.
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PMID:Functional reconstitution of prostaglandin E receptor from bovine adrenal medulla with guanine nucleotide binding proteins. 289

The regulation of cAMP generation in rat myometrium during gestation was investigated comparatively to the stimulations evoked in the estrogen-dominated myometrium. At the onset of gestation, there was a progressive attenuation in both tissue cAMP accumulation and adenylate cyclase activation in response to isoproterenol and prostaglandins (PGs) (PGE2 and prostacyclin, PGI2), as well as to cholera toxin and to forskolin. Minimal responses were observed at midgestation (day 12). The decline in isoproterenol-mediated cAMP accumulation could not be ascribed to alterations in either beta-adrenergic receptor density or coupling properties. Treatment of day 12 myometrium with islet-activating protein (IAP), pertussis toxin, caused a reversal of the attenuated beta-adrenergic--as well as cholera toxin--responses, suggesting that the inhibitory regulatory protein, Gi, was involved. However IAP treatment did not improve the PGE2-mediated stimulatory effect. In membranes from day 12 myometrium, the amount of [32P]NAD incorporated by IAP into the Mr = 41,000 peptides (alpha i, subunit of Gi was markedly increased compared to membranes from day 0 tissue. There was also a consistent decrease (25%) of the label incorporated by cholera toxin into the Mr = 52,000 (major) and 45,000/53,000 (minor) peptides (alpha s, subunit of Gs). The advanced stages of gestation were associated with a progressive restoration of cAMP responses to isoproterenol, cholera toxin, and forskolin with a full responsiveness before parturition (day 22). By contrast, the inability of PGE2 to generate any active Gs (stimulatory regulatory protein)-C complex persisted and coincided with the development of PGE2-induced inhibition of cAMP generation due to isoproterenol. The inhibitory effect, which was similarly evoked by PGE2 as well as by PGI2 and PGF2 alpha, was prevented by IAP. The data suggest that alterations of the stimulatory Gs-mediated pathway, which culminated at midgestation, is due at least in part to an increase in the abundance of Gi relative to Gs. Additional alterations operate at the level of the prostaglandin receptor(s) with a conversion from a stimulatory (Gs-mediated) cAMP response in the estrogen-dominated myometrium to an inhibitory (Gi-mediated) effect, fully expressed in the final stage of gestation.
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PMID:Heterologous regulations of cAMP responses in pregnant rat myometrium. Evolution from a stimulatory to an inhibitory prostaglandin E2 and prostacyclin effect. 303 39


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