Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the human T-cell leukemia line Jurkat, cAMP accumulation stimulated by the adenosine receptor agonist 5'-N-ethylcarboxamido adenosine (NECA) was enhanced by tumour-promoting phorbol esters whereas the prostaglandin receptor-stimulated accumulation of cAMP was antagonized. Phorbol esters did not alter the adenosine or prostaglandin receptor-stimulated accumulation of cAMP in cells in which the phospholipid/Ca2+-dependent protein kinase (protein kinase-C) was down-regulated. cAMP stimulation induced by cholera toxin (CT) was enhanced by phorbol esters by 100-300%. The cAMP production induced by forskolin was never enhanced by more than 50% by 4 beta-phorbol-12,13-dibutyrate (PDBu) and there was no stimulation at all after down-regulation of the adenosine receptor by treatment with NECA. Phorbol ester enhanced the NECA-stimulated accumulation of cAMP, even in the presence of concentrations of forskolin that increased the cAMP accumulation several-fold. From these data we conclude that protein kinase-C can interact with receptors coupled to adenylate cyclase in a stimulatory as well as an inhibitory manner. Moreover, protein kinase-C appears to interact with signal transduction at two levels, one highly receptor-specific and one distal to the receptor.
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PMID:Dual effects of protein kinase-C on receptor-stimulated cAMP accumulation in a human T-cell leukemia line. 254 Sep 99

Previous studies have indicated that membrane structure and function may be abnormal in cluster headache. This has been further investigated by analysis of membrane phosphatidylcholine, total phospholipids, and cholesterol in erythrocytes and by assay of receptor-mediated transduction. The stimulation of lymphocyte adenylate cyclase with isoprenaline and prostacyclin was used as the test system. A significant increase in the ratio of membrane phosphatidylcholine to cholesterol without change in cholesterol was found in cluster headache patients as compared with control subjects. This indicated a reduced turnover of phosphatidylcholine, since erythrocyte choline is significantly reduced in this condition. Abnormal membrane function was also indicated from the significant depression of high-affinity prostaglandin receptor stimulation of lymphocyte adenylate cyclase and the similar trend in the beta-adrenoceptor response. Since no change in agonist affinity and beta-adrenoceptor density occurred, this depression indicates a generalized defect in coupling of receptors to adenylate cyclase. It is hypothesized that the impaired function that would result might contribute to the aetiology of cluster headache.
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PMID:Abnormal membrane composition and membrane-dependent transduction mechanisms in cluster headache. 302 32

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

In recent years, the concept of a hormone has been greatly changed, and the term 'cybernin' is used to describe a substance which possesses not only endocrine activity but also has autocrine and paracrine effects. The cytoprotective effects of prostaglandins are reviewed with respect to the relationship between prostaglandins and cyclic AMP, and to the effects of prostaglandins on ion transport. Prostaglandins are produced by cell membranes of many tissues and are found in the vasculature. However, the metabolic degradation of prostaglandins is rapid and their significance as circulatory hormones has not been clarified. Yet it is clear that prostaglandins have important physiological activity and it is possible that the effects of prostaglandins are mediated by paracrine or autocrine mechanisms. In order to classify prostaglandins as hormones, it is necessary to clarify their biological activities, to identify a specific and saturable receptor, and to determine a second messenger. This paper discusses the extent to which prostaglandins conform to our present concept of hormones. The existence of a prostaglandin receptor and the role of adenylate cyclase have been confirmed using cultured cell clones. The following observations have been made. (i) For a series of compounds, potency in competing for (3H)PGE1 binding sites correlated with their ability to stimulate adenylate cyclase activity. (ii) There was a relationship between rates of binding and change in enzyme activity. (iii) The presence or absence of PGE1-sensitive adenylate cyclase corresponded to (3H)PGE1 binding capacity. The presence of a prostaglandin receptor has been identified in rat liver, bovine thyroid, bovine corpus luteum, frog erythrocyte, hamster adipocyte, and human adipocyte.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostaglandins as hormones. 386 52

The catecholamine-sensitive adenylate cyclase system appears to be comprised of at least three components; the beta-adrenergic receptor (R component), the catalytic unit of adenylate cyclase (C component) and a nucleotide regulatory protein (N component), responsible for mediating the effects of guanine nucleotides on the system. Cell fusion techniques were used to investigate the role of these three components in the process of homologous desensitization in the frog erythrocyte. Dicyclohexylcarbodiimide (DCCD) was used to inhibit beta-receptor function in one population of frog erythrocytes, whilst phenyl glyoxal was employed to inactivate the N and C components in a second population of frog erythrocytes. Using Sendai virus to fuse the two types of modified cell, heterologous beta-adrenergic receptor-adenylate cyclase systems were constructed which contained components from each cell type. When beta receptors from cells previously desensitized to catecholamines were coupled to N-C components derived from fresh erythrocytes, the resulting hybrid exhibited a densitized response to isoproterenol. By contrast, when beta-adrenergic receptors from fresh cells were coupled to N-C components derived from desensitized erythrocytes, no decreased responsiveness to isoproterenol was apparent in the hybrid. That this resensitization was the result of the addition of fresh beta-adrenergic receptors was demonstrated in a control experiment. Frog erythrocytes were desensitized simultaneously to catecholamines and prostaglandin E1 and modified with DCCD which inactivates the beta-adrenergic receptor but not the prostaglandin receptor. When fresh beta-adrenergic receptors were supplied by cell fusion to these doubly desensitized erythrocytes, only the beta-adrenergic response was restored to control levels. The response to prostaglandin remained desensitized in the hybrids, indicating that the observed resensitization of catecholamine-stimulated adenylate cyclase activity was specific and was due to the addition of fresh beta-adrenergic receptors. These data suggest that in the frog erythrocyte, homologous desensitization is primarily the result of receptor-related alterations.
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PMID:Use of cell fusion techniques to probe the mechanism of catecholamine-induced desensitization of adenylate cyclase in frog erythrocytes. 625 15

A single prostaglandin may have multiple effects on the same cell type with each effect showing a different prostaglandin concentration dependence, indicating the presence of separate receptors coupled to different second-messenger systems. The effects may be antagonistic toward each other, suggesting homeostatic control of prostaglandin effects, which may be important in buffering cellular response to elevated prostaglandin levels in inflammation. We have used prostaglandin regulation of cyclic AMP metabolism in platelets and human erythroleukemia (HEL) cells as a model to analyze interactions between stimulatory and inhibitory prostaglandin receptors coupled to adenylate cyclase. Cloning of an EP3 prostaglandin receptor subtype from HEL cells confirmed the presence of an inhibitory receptor distinct from that involved in prostaglandin stimulation of adenylate cyclase.
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PMID:Interactions among prostaglandin receptors. 803 5

Prostaglandins inhibit platelet activation by stimulating intracellular cyclic AMP formation. We have postulated that intracellular cyclic AMP levels in platelets are buffered by a distinct prostaglandin receptor that mediates inhibition of cyclic AMP formation. In order to provide evidence for the model, we have cloned the cDNA coding for a prostaglandin receptor EP3 subtype, which is coupled to inhibition of adenylate cyclase, from the megakaryocytic cell line human erythroleukaemia (HEL) cells. A PCR-generated hybridization probe, produced using primers based on the sequence of the mouse prostaglandin EP3 receptor published by Sugimoto, Namba, Honda, Hayashi, Negishi, Ichikawa and Narumiya [(1992) J. Biol. Chem. 267, 6463-6466], was used to screen a lambda gt11 HEL cell cDNA library. The composite full-length cDNA clone HEP3, generated from the two partial clones pHEP3-7 and pHEP3-5, is 1.6 kb long with an open reading frame coding for 390 amino acids. This clone is 83% identical to the alpha subtype of the mouse EP3 receptor. The full-length construct was transfected into COS-1 cells. The cloned receptor exhibited the properties of a prostaglandin EP3 subtype, inhibiting forskolin-stimulated cyclic AMP formation in response to prostaglandin E2 (PGE2) and binding PGE2 with high specificity and a Kd of 3.2 nM. Radiolabelled PGE2 could be displaced by prostaglandins in the order PGE2 = PGE1 > iloprost = PGD2. Northern blot analysis revealed that the receptor is also present in human kidney.
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PMID:Cloning and expression of a prostaglandin E receptor EP3 subtype from human erythroleukaemia cells. 813 29

We recently identified four isoforms of bovine prostaglandin E receptor EP3 subtype, which are coupled to different signaling pathways; EP3A is coupled to inhibition of adenylate cyclase, while EP3B and EP3C are coupled to its stimulation and EP3D is coupled to phosphatidylinositol turnover, in addition to the adenylate cyclase system (Namba, T., Sugimoto, Y., Negishi, M., Irie, A., Ushikubi, F., Kakizuka, Ito, S., A., Ichikawa, A., and Narumiya, S. (1993) Nature 365, 166-170). We examined here the identity of coupled G proteins and their regulation by one of the isoforms, EP3C, in the membranes of EP3C cDNA-transfected Chinese hamster ovary cells. M&B 28767, an EP3 agonist, stimulated the GTPase activity in the pertussis toxin (PT)-treated cell membrane, but inhibited it in the cholera toxin (CT)-treated cell membrane, while the agonist neither stimulated nor inhibited it in the both PT- and CT-treated cell membrane. In the PT- and CT-treated cell membrane reconstituted with various G proteins, M&B 28767 inhibited the GTPase activity of G(o), but stimulated that of Gs. On the other hand, M&B 28767 did not affect the GTPase activity of Gi1, Gi2, or Gi3. M&B 28767 increased the apparent affinity of G(o) for GDP without any change in that for GTP, as assessed by displacement of [35S]GTP gamma S (guanosine 5'-O-(3-thiotriphosphate)) binding to G(o). In contrast, M&B 28767 increased the apparent affinity of Gs for GTP but decreased that for GDP. These results demonstrated that the EP3 receptor isoform is coupled to two different G proteins, and oppositely regulates their activities, inhibition of G(o), and stimulation of Gs.
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PMID:Opposite coupling of prostaglandin E receptor EP3C with Gs and G(o). Stimulation of Gs and inhibition of G(o). 825 19

We previously identified two isoforms of the mouse prostaglandin E receptor EP3 subtype, EP3 alpha and EP3 beta, with different carboxyl-terminal tails, produced through alternative splicing and showing different efficiency in inhibition of adenylate cyclase (Sugimoto, Y., Negishi, M., Hayashi, Y., Namba, T., Honda, A., Watabe, A., Hirata, M., Narumiya, S., and Ichikawa, A. (1993) J. Biol. Chem. 268, 2712-2718). To assess the role of the carboxyl-terminal tails in the G protein coupling properties of the EP3 receptor, we examined the Gi activities of EP3 alpha, EP3 beta, and the mutant receptor, in which the carboxyl-terminal tail was truncated at the splicing site. The EP3 alpha receptor showed marked agonist-independent constitutive inhibition of adenylate cyclase, while EP3 beta receptor had no agonist-independent inhibition. On the other hand, the truncated receptor showed only agonist-independent constitutive inhibition. The constitutive activity of these receptors on the stimulation of GTPase activity of Gi was also observed. Thus, alternative splicing produced two isoforms with different carboxyl-terminal tails and with different constitutive activity, and the truncation of the carboxyl-terminal tail caused full constitutive activity.
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PMID:Two isoforms of the prostaglandin E receptor EP3 subtype different in agonist-independent constitutive activity. 856 30

The effects of prostaglandin E2 (PGE2) on platelet cyclic AMP formation were examined and compared with effects on cloned prostaglandin receptors. PGE2 gave a weak stimulation of adenyl cyclase in platelets compared with the PGI2 analog Iloprost. In the presence of the adenyl cyclase stimulator forskolin, the response to PGE2 was amplified in a synergistic manner. By contrast, in the presence of Iloprost, PGE2 inhibited cyclic AMP formation. We postulate that the weak platelet response to PGE2 is due to co-localization of a PGE2 receptor that couples to stimulation of adenyl cyclase with the EP3 prostaglandin receptor that binds PGE2 tightly and inhibits adenyl cyclase. In support of this postulate, we compared the responses obtained with platelets with those of cloned EP4 (stimulatory) and EP3 (inhibitory) prostaglandin receptor subtypes and show similar dose-response curves for stimulation and inhibition of cyclic AMP formation between platelets and cloned receptors.
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PMID:Prostaglandin E2 both stimulates and inhibits adenyl cyclase on platelets: comparison of effects on cloned EP4 and EP3 prostaglandin receptor subtypes. 890 18


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