EC:4.6.1.1 - FACTA Search

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

Although several cytokines have been demonstrated to exert pleiotropic responses, there is little information on cytokine regulation of renal tubular epithelial cell function. In the present studies, we find that both T cell-derived (tumor necrosis factor-beta and interleukins 2 and 3) and monocyte/macrophage derived (tumor necrosis factor alpha and interleukin 1 beta) cytokines promote basal, arginine vasopressin- and forskolin-stimulated adenylate cyclase activity in cultured LLC-PK1 cells. No effect of TNF, IL-1 beta, and IL-2 to stimulate protein kinase C activity was observed. TNF-beta, IL-1 beta and IL-2 also modestly stimulated 3H release from 3H-arachidonic acid labeled cells. Mepacrine, a phospholipase A inhibitor, prevented TNF-beta stimulation of 3H release from 3H-arachidonic acid labeled cells and TNF-beta potentiation of adenylate cyclase activity. TNF-beta potentiation of adenylate cyclase activity and stimulation of 3H release from 3H arachidonic acid labeled cells was not prevented by pertussis toxin. These results demonstrate that several cytokines can stimulate adenylate cyclase activity while not affecting protein kinase C activity in cultured renal tubular epithelial cells. The effect of TNF-beta to stimulate adenylate cyclase appears to occur independent of pertussis toxin-sensitive substrate and may involve activation of phospholipase A.
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PMID:Cytokine regulation of adenylate cyclase activity in LLC-PK1 cells. 140 34

Human recombinant interleukin-2 and rat recombinant IL-2 microinjected into the locus coeruleus of rats, induced typical dose-dependent behavioural sedation and/or sleep and electrocortical synchronization. During sleep induced by this lymphokine a dose-dependent increase in total voltage power (0.25-16 Hz) as well as in the 0.25-3, 3-6 and 6-9 Hz frequency bands was observed. The behavioural and electrocortical effects of interleukin-2 were blocked in animals pretreated with anti-IL-2 monoclonal antibodies and with naloxone, whereas they were still evident in rats pretreated with yohimbine. In addition, the behavioural and electrocortical slow-wave sleep effects observed after the administration of interleukin-2 into the locus coeruleus were reduced significantly or antagonized completely by a previous pretreatment with pertussis toxin, forskolin, dibutyryl-cyclic-AMP and 8-bromo-cyclic-AMP. These results are consistent with the hypothesis that the behavioural and electrocortical changes of this lymphokine are mediated at locus coeruleus level via a guanine regulatory Gi protein coupling IL-2 specific receptors to the adenylate cyclase system.
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PMID:Effects of pertussis toxin, dibutyryl-cyclic-AMP, bromo-cyclic-AMP and forskolin on the behavioural and electrocortical power spectrum changes induced by microinfusion of interleukin-2 into the locus coeruleus. 166 94

PGE2 is known to inhibit IL-2 and IFN-gamma production from Th cells and is widely viewed as a general immunosuppressant. However, PGE2 was found not to inhibit IL-4 production from Th2 clones, and IL-5 production from these clones was slightly enhanced. The same results were obtained with short term T cell lines, which indicates that the lack of inhibition of IL-4 and IL-5 production by PGE2 is a general phenomenon. PGE2 functions by increasing cAMP levels through activation of adenylate cyclase. Despite its failure to inhibit lymphokine release, PGE2 was capable of increasing cAMP levels in Th2 cells, and forskolin, a direct activator of adenylate cyclase, also did not inhibit IL-4 or IL-5 production. These data indicate that the failure of PGE2 to inhibit IL-4 and IL-5 production was not due to an inability of PGE2 to induce an increase in intracellular cAMP, and suggested instead that the expression of IL-4 and IL-5 in Th2 cells is insensitive to elevated cAMP levels. When Th0 clones were examined, PGE2 was again found to differentially affect IL-2 and IL-4 production in three of five clones tested. In two additional Th0 clones, both IL-2 and IL-4 production were inhibited. These data suggest that lymphokine production may be regulated on two different levels. First, Th1- and Th2-associated lymphokines may be differentially sensitive to intracellular signals such as cAMP. Second, T cell subsets may exist, including subsets of Th0 cells, with different signaling pathways. In addition, our data suggest that PGE2 may play an important role in regulating the development of a response dominated by Th1- or Th2-associated lymphokines.
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PMID:Prostaglandin E2 inhibits production of Th1 lymphokines but not of Th2 lymphokines. 184 2

An increase in intracellular cAMP level induced the expression of IL-2R alpha-chain, the 55-kDa component of IL-2R complex, in a human NK-like cell line, YT. We show here that forskolin also induces the expression of IL-2R alpha-chain on mouse large granular lymphocytes (LGL) but not on T cells. In contrast, treatment with a combination of phorbol ester and calcium ionophore, which is a strong inducer of IL-2R alpha-chain on T cells, does not induce the expression of the alpha-chain on LGL cells. Forskolin was shown to activate the transcription of IL-2R alpha-chain gene in YT cells as revealed by the chloramphenicol acetyltransferase assay. Chemical cross-linking experiments using radio-iodinated IL-2 also supported the enhanced expression of IL-2R alpha-chain by treatment with forskolin. In contrast to the alpha-chain, IL-2R beta-chain was not induced by forskolin as revealed by flow cytofluorometry with a mAb against the beta-chain molecule. These results indicate that the activation of adenylate cyclase induces or/and enhance the expression of IL-2R alpha-chain at the transcriptional level in LGL/NK cells including mouse LGL and human YT cell, which leads to the enhanced expression of high affinity IL-2 receptors.
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PMID:The expression of IL-2R alpha-chain is enhanced by activation of adenylate cyclase in large granular lymphocytes and natural killer cells. 184 5

The effects of interleukins on adrenal steroidogenesis and their mode of action were studied using cultured rat adrenal cells. The addition of rat interleukin-1 alpha (IL-1 alpha) or rat IL-2 increased corticosterone levels in the medium in a concentration-dependent manner during 24 h of incubation. The minimum, half-maximum, and maximum effective concentrations of both rat IL-1 alpha and rat IL-2 were almost same (approximately 3, 10, and 100 U/ml, respectively). After a latent period, the effect became apparent after 12 h of incubation. Human IL-1 beta and human IL-6 also showed a stimulatory effect on corticosterone production, whereas human IL-2 was inactive in this system. To clarify the cellular mechanism of these stimulatory effects, we measured the levels of prostaglandin E2 (PGE2) and cAMP in the cells and media as well as the corticosterone levels. Corticosterone production stimulated by IL-1 alpha or IL-2 was accompanied by intracellular and extracellular cAMP and PGE2 accumulation. Although the stimulation of both cAMP and corticosterone was observed only after 12 h of incubation, PGE2 levels increased during the first 4 h of incubation. Corticosterone, cAMP, and PGE2 production stimulated by ILs was almost completely blocked by the addition of 0.1 mM aspirin, a cyclooxygenase inhibitor. Lipoxygenase inhibitors, i.e. AA-861, nordihydroguaiaretic acid, and 5,8,11,14-eicosatetrynoic acid, did not abolish corticosterone production stimulated by ILs. Submaximal doses of IL-1 alpha and IL-2 synergistically stimulated PGE2 production, but did not have even additional effects on cAMP and corticosterone levels. On the other hand, submaximal doses of ACTH, which did not significantly affect PGE2 levels, acted synergistically with IL to increase cAMP and corticosterone levels in these cells. These results indicate that 1) IL-1 alpha and IL-2 directly stimulate glucocorticoid synthesis in a dose- and time-dependent manner; 2) a half-maximum effective concentration of ACTH acts synergistically with IL in stimulating glucocorticoidogenesis; 3) the stimulatory process initially requires PGs, followed by the activation of the adenylate cyclase system; 4) although the profiles of steroidogenic action of IL-1 alpha and IL-2 are quite similar, they may exert their effects through different mechanisms in their early steps of PGE2 production; and 5) the low effective concentrations of both cytokines suggest possible physiological or pathophysiological roles of circulating cytokines in the glucocorticoidogenesis under certain conditions.
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PMID:Prostaglandin-dependent in vitro stimulation of adrenocortical steroidogenesis by interleukins. 184 9

We investigated the effects of IL-1, IL-2, IL-6, interferon-gamma and tumour necrosis factor-alpha on growth and cAMP generation of FRTL-5 cells. IL-1 produced a significant stimulation of [3H]thymidine incorporation into FRTL-5 cells without TSH, whereas IL-1 caused significant reductions in [3H]thymidine incorporation induced by TSH or forskolin, which is known as an adenylate cyclase activator. Intracellular cAMP generation of FRTL-5 cells was stimulated by IL-1, whereas TSH-stimulated cAMP generation was inhibited by IL-1. These effects of IL-1 was neutralized by addition of anti-IL-1 antibody. The studies suggested that IL-1 blocks the effects of TSH on proliferation and cAMP generation of FRTL-5 cells on a post-receptor site of TSH.
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PMID:Effects of interleukin 1 on growth and adenosine 3',5'-monophosphate generation of the rat thyroid cell line, FRTL-5 cells. 184 31

Hemopoietic cells have an absolute requirement for survival and proliferation for specific growth factors. The growth factors maintain the critical vitality of the cells by stimulating adenosine triphosphate (ATP) synthesis and hexose transport. Intracellular alkalinization also occurs rapidly through the stimulation of the Na+/H+ antiporter. These immediate metabolic events, not initiated by serum components, appear to be necessary for the integrity of cellular viability (Fig. 6). Interleukin-3 has been shown to induce the activation of PK-C through a mechanism(s) not requiring the hydrolysis of phosphoinositol 4,5 bisphosphate. A role for Ca2+ influx or intracellular release in the action of CSFs or interleukins has not been shown. Although downregulation of cAMP has been reported in response to IL-2, the signal transduction process of CSFs and IL-2 appears not to be mediated by upregulation of cyclic nucleotide metabolism or "classical" phospholipid degradative pathways. Protein phosphorylation is clearly modulated by the hemopoietic cytokines, yet only the CSF-1 receptor has any known intrinsic kinase activity. Instead, the IL-3, GM-CSF receptors, and perhaps G-CSF appear to be coupling to kinases of both tyrosine and serine specificities. This may be a direct allosteric interaction with membrane-associated kinases or transduced through an intermediate protein such as those using GTP. Such is the case for many hormone receptors that couple to amplifying "second messenger" enzyme systems (i.e., adenylate cyclase, phospholipase C) or members of the insulin growth factor family that couple to tyrosine kinases in proximity to the receptors (IGF-II). One of the kinase systems that IL-2, IL-3, and other CSFs stimulate appears to have some characteristics similar to PK-C. Direct activators of PK-C stimulate some similar serine-threonine phosphorylation and perhaps even tyrosine phosphorylation. The hemopoietic growth factors, however, stimulate tyrosine phosphorylation of some proteins that are not phosphorylated in response to PK-C activators, suggesting that these kinase systems are independently regulated. Although phorbol esters stimulate many of the same metabolic activities (ATP synthesis in myeloid and lymphoid cell lines), growth-factor abrogation is clearly associated with the action of tyrosine kinase oncogenes or the nuclear oncogene effectors such as v-myc. It is likely, therefore, that tyrosine kinases are playing a critical role in the control of proliferation although the dominant amount of cellular protein phosphorylations are on serine. Both classes of kinases are apparently required for growth-factor action. All the hemopoietic growth factors examined thus far stimulate the steady-state accumulation of the nuclear protooncogenes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Hematopoietic growth-factor signal transduction and regulation of gene expression. 209 Feb 58

The catalytic subunit of cholera toxin (CT) can chemically modify the alpha polypeptides of certain G-binding proteins and thus alter their function. In order to study the involvement of CT-sensitive G proteins in T cell activation, we have utilized CT in an in vitro system in which purified, resting human peripheral T cells are activated by anti-CD3 antibodies and rIL-2. Perturbation of the TCR/CD3 molecular complex by anti-CD3 antibodies causes changes in membrane phospholipids and induces a rise in cytoplasmic Ca2+. These events, however, are insufficient to allow progression into cellular proliferation and addition of IL-2 is required. Under these conditions, treatment of cells with a low concentration of CT (2 ng/ml) causes a significant inhibition of the anti-CD3-induced calcium event as well as the anti-CD3 plus IL-2-stimulated proliferation. Under our experimental conditions, inhibition of both proliferation and intracellular Ca2+ elevation by CT requires the involvement of the TCR/CD3 complex. This is supported by the observation that the toxin does not inhibit either the proliferation triggered by ionomycin and PMA or the Ca2+ influx induced by the ionophore. These data suggest that in TCR/CD3-mediated T cell activation CT acts at a point between TCR/CD3 perturbation and the generation of intracellular Ca2+. In view of the ability of CT to activate the alpha subunit of the G protein that stimulates adenyl cyclase (G alpha s), it is possible that the effect of CT on T cells is secondary to intracellular elevation of cAMP. However, measurement of cAMP levels both early after CT addition and at later time points, when proliferation is maximal, reveals lack of cyclic nucleotide accumulation. The presented data are consistent with the interpretation that the CT-mediated inhibition is caused by the modification of a G-binding protein that is either directly or indirectly associated with triggering of T cells via the TCR/CD3 molecular complex. The data also suggest that this protein is not G alpha s and it probably represents an as yet unidentified moiety or one of the several G proteins that have been recently described as regulators of phospholipase C activation.
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PMID:Cholera toxin inhibits resting human T cell activation via a cAMP-independent pathway. 255 13

The basal and stimulated intracellular cyclic AMP (cAMP) levels of peripheral blood mononuclear cells (PBMC) of 16 control subjects and 14 patients with systemic lupus erythematosus (SLE), all fulfilling the ARA criteria, were studied. No significant difference in basal cAMP level was observed between SLE patients and controls. SLE lymphocytes (both active and inactive) elicited a diminished response to aminophylline and prostaglandin E2 (PGE2). No correlation was seen between disease activity and either baseline cAMP levels or response to these stimulators. We suggest an intrinsic (not disease activity-related) impairment of the adenylate cyclase-dependent regulatory mechanism in the PBMC of SLE patients, which may result in a defective IL-2 production and IL-2 dependent biological functions.
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PMID:Cyclic AMP level of lymphocytes in patients with systemic lupus erythematosus and its relation to disease activity. 255 72

The expression of the interleukin-2 receptor (IL-2-R) is regulated by transcriptional and post-transcriptional mechanisms. IL-2-R gene expression is induced by pharmacological agents including calcium ions, phorbol esters such as phorbol myristate acetate (PMA) and forskolin (FK), a direct activator of adenylate cyclase. HTLV-I(+) leukemic T cells and T cell lines from patients with adult T cell leukemia (ATL) continuously expressed IL-2-R without production of IL-2. However, there was no abnormality of the structural gene for IL-2-R in these cell lines as well as in fresh leukemic cells of ATL. We have detected that many HTLV-I(+) T4(+) T cell lines constitutively produce a non-IL-2 lymphokine named ATL-derived factor (ADF), which induced the expression of the high-affinity IL-2-R on a variety of cells including HTLV-I(+) T cells, myeloid leukemia cells and YT cells. IL-2-R-inducing agents such as ADF and FK were shown to induce elevation of the mRNA levels for IL-2-R through transcriptional enhancement of the IL-2-R gene. The possible involvement of IL-2-R-inducing cytokines in the physiological lymphocyte activation and the leukemogenesis in ATL and other T cell leukemias is discussed.
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PMID:Interleukin-2 receptor-inducing factor(s) in adult T cell leukemia. 289 6

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