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)

The product of the jun proto-oncogene has been identified as one form of the transcription factor AP-1. The p55fos protein associates with jun/AP-1 by means of a heterodimer which requires intact 'leucine zipper' domains of both proteins. The fos/jun heterodimer binds to and activates transcription from TPA-responsive promoter elements (TGACTCA), which represent one final target of the protein kinase C pathway. The other main signal transduction pathway, initiated by the activation of the adenylate cyclase, involves the transcription factor CREB. The promoter element recognized by CREB, a cyclic AMP responsive element (CRE), consist of a palyndromic sequence similar to a TRE (TGACGTCA). We show that jun efficiently trans-activates CRE sequences and that fos and jun efficiently bind and cooperate in activating CRE promoter elements. The similarity between TRE and CRE sequences may involve an interplay in transcriptional regulation and 'cross-talk' between components of the two major signal transduction pathways.
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PMID:Cross-talk in signal transduction: TPA-inducible factor jun/AP-1 activates cAMP-responsive enhancer elements. 210 94

Transducin, the GTP-binding protein of the retinal light-sensitive phosphodiesterase system, and Gs and Gi, regulatory proteins of the hormone-sensitive adenylate cyclase, are members of a family of guanyl nucleotide-binding proteins termed G proteins that are important in signal transduction. To probe relationships within this family of G proteins, monoclonal antibodies were prepared against the alpha-subunit of bovine transducin (T alpha). Three of four monoclonal antibodies were specific for T alpha and did not cross-react with other G proteins. One, MAB1, cross-reacted strongly with the alpha-subunit of Gi (Gi alpha) purified from rabbit liver and, to a lesser extent, with the alpha-subunit of Go (Go alpha) purified from bovine brain and the proto-oncogene product H-ras p21. All four monoclonal antibodies recognized epitopes on a 23-kDa tryptic peptide fragment of T alpha which is derived from the N-proximal region. The three monoclonal antibodies that recognized only T alpha inhibited rhodopsin-stimulated GTP binding and hydrolysis by transducin, whereas MAB1 had no significant effect in these assays. These studies demonstrate that, within the 23-kDa tryptic peptide of T alpha, there is a domain(s) unique to T alpha that is involved in GTP binding and hydrolysis and another domain which is highly conserved in T alpha and to a lesser extent in other G proteins. Prior studies have identified regions involved in nucleotide binding and hydrolysis that are homologous in all G proteins. The observations reported here are consistent with the conclusion that the G proteins may have in addition unique regions involved in these functions.
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PMID:Structural and functional characterization of guanyl nucleotide-binding proteins using monoclonal antibodies to the alpha-subunit of transducin. 242 38

Transcription of proto-oncogene fos is induced by elevated levels of intracellular cAMP. We report that human c-fos promoter recombinants transfected into rat pheochromocytoma cells (PC12) and human choriocarcinoma cells (JEG-3) are induced by stimulation of adenylate cyclase and that this induction is diminished considerably in the mutant PC12 cell line A126-1B2, which is deficient in cAMP-dependent protein kinase II. An element centered at position -60 of the c-fos promoter, which encompasses a consensus cAMP response element (CRE), is sufficient to confer cAMP responsiveness to a herpes thymidine kinase/CAT fusion gene. The specific binding of a nuclear protein to the c-fos CRE can be competed by the somatostatin and alpha-chorionic gonadotropin (alpha-CG) promoter regions that contain CREs. Gel mobility shift assays with double-stranded oligonucleotides containing either the wild-type or mutated c-fos CRE sequence have demonstrated that binding occurs only to the wild-type CRE. The nuclear factor binding to the c-fos CRE is likely to be transcription factor CREB (CRE nuclear binding protein), because an affinity-purified 43-kD CREB isolated from PC12 cells binds efficiently in a DNA footprinting assay. Thus, regulation of the c-fos gene transcription appears to involve a mechanism common to many genes that respond to cAMP as a second message leading to cell growth and differentiation.
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PMID:Induction of proto-oncogene fos transcription through the adenylate cyclase pathway: characterization of a cAMP-responsive element. 285 Sep 67

This paper reviews recent data on the adenylate cyclase system of the yeast Saccharomyces cerevisiae. Since the discovery of yeast adenylate cyclase mutants and the possibility of molecular biological analysis, adenylate cyclase and the subsequent steps in the cAMP cascade have become subject of intense investigation. CYR1, the structural gene for the adenylate cyclase catalytic subunit is necessary for cell division and in diploid cells is involved in the choice between sporulation and cell division. The cell division cycle in yeast is initiated by a step called START, which has been defined by mutations causing an arrest of the cells in an unbudded state. One class of mutation causes the cell to arrest at the same stage of the cell division cycle as the pheromone implicated in conjugation. A second class causes cells to cease growth in a different manner, but one which is similar to the arrest brought about by nutient deprivation. The adenylate cyclase gene belongs to the second class and has been identified as CDC35. Two genes of the first class have been cloned and sequenced. CDC28 codes for a kinase which has homology with the src proto-oncogene family. CDC36 is partly homologous with the oncogene ets. Two genes related to the ras oncogene family have also been implicated in the control of START. START can be dissociated in two subsequent phases, the first being controlled by the AMPc system and the second including proto-oncogenes. A model in which cAMP is a positive indicator of available nutrients such as nitrogen has been constructed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Control of the cell division cycle and sporulation in Saccharomyces cerevisiae by the cyclic AMP system]. 298 30

Many receptors, in response to ligand activation, trigger inositol phospholipid breakdown, which leads to rapid intracellular responses. The sustained activation of this pathway is believed to be at least one of the factors involved in the stimulation of cell growth and there has been much speculation that certain oncogenes use this pathway to effect uncontrolled cellular proliferation. It has been suggested, by analogy with the receptor-mediated control of adenylate cyclase, that the receptor stimulation of inositol phospholipid metabolism is mediated through a guanine nucleotide regulatory protein (G-protein) called Gp (or Np). Although such a species has not been identified, there is now strong experimental evidence that this process is mediated by a G-protein distinct from the stimulatory and inhibitory G-proteins (Gs and Gi, respectively). The ras genes code for a plasma membrane protein, p21, whose only known biochemical property is a high-affinity GTPase activity. We show here that the expression of normal p21N-ras in NIH 3T3 fibroblasts leads to the coupling of certain growth factor receptors to stimulated inositol phosphate production. We propose that the N-ras proto-oncogene encodes a protein which couples the receptors for certain growth factors to the stimulation of phospholipase C. Thus, N-ras p21 may be the putative Gp or a functionally related protein.
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PMID:Normal p21N-ras couples bombesin and other growth factor receptors to inositol phosphate production. 301 91

The ras proto-oncogene, found in all eukaryotes so far examined, encode s a protein with guanine nucleotide-binding and GTPase activity. Gene disruption experiments in yeast indicate that ras is essential for cell growth. Anit-sense mutagenesis approaches suggest that this is also true for Dictyostelium. Most mutations causing an amino-acid substitution for Gly 12 result in decreased GTPase activity and produce a transforming phenotype. In yeast, a Gly 19---- Val 19, missense mutation (Gly 19 is similar to Gly 12 in mammalian and Dictyostelium ras proteins) causes a series of dominant phenotypes, including elevated adenylate cyclase activity. In mammalian cells there is no evidence that ras activates adenylate cyclase activity. D. discoideum contains a single ras gene (Dd-ras) that encodes a protein very similar to the mammalian ras protein and identical to c-ras at the potentially transforming positions. Dd-ras is expressed in vegetative cells and later in development in prestalk cells whereas ras protein is found in vegetative and developing cells. In the migrating pseudoplasmodium, ras protein is found in prestalk but not prespore cells, suggesting it is involved in the function and/or differentiation of the anteriorly localized prestalk cells. In this report we examine the effects of expression of a Dd-ras gene carrying a Gly-12----Thr 12 missense mutation.
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PMID:Phenotypic changes induced by a mutated ras gene during the development of Dictyostelium transformants. 309 90

Cancer is a malfunction of cellular growth control. The discovery of oncogenes, first in transforming retroviruses, and later in human and animal tumors, may have uncovered the key to understanding one of the most elusive subjects of basic cell biology, namely, the controlling mechanisms of cell growth. The ras gene family encodes a group of closely related 21,000 dalton (p21) proteins with special affinity for guanine nucleotides. Other cellular proteins with similar biochemical properties, collectively known as G-proteins, include the regulatory G proteins of adenylate cyclase, the alpha subunit of transducin of retina rod outer segments, the recently identified rho gene proteins, and perhaps also the elongation factors, EF-Tu and EF-G, of the protein synthesis system. These G-proteins have roles in cellular signal transduction; by analogy p21 may have a similar cellular function in mediating the flow of growth control signals. Recent progress in the cloning and sequencing of these genes, overproduction of gene products in E. coli, protein engineering, detailed biochemical characterization, and the molecular structure determined by high resolution X-ray crystallography, have helped to elucidate in great detail the structure and function of p21 ras proteins. p21 appears to have a small membrane binding domain at the C-terminus, which contains a palmitylation site at cysteine-186, four amino acid residues from the end. Separated by a variable "hinge" region, most of the rest of ras amino acid sequences are highly conserved in nature. Four regions of extensive sequence homology among G-proteins constitute the GTP/GDP binding domain. In the crystal structure of EF-Tu, four peptide loops connecting beta sheets and alpha helices form the pocket for binding GDP. Studies using site-directed mutagenesis and immnochemical probes, indicate that the basic structure of the GDP binding site is conserved between p21 and EF-Tu. Furthermore, these studies also conclude that GTP binding is crucial for p21 ras cellular function. Although the precise target molecules for p21 are still unknown, the finding of the on/off switch function for ras genes have provided a better understanding of the mechanism of proto-oncogene activation, and may also provide further impetus to explore means of cancer intervention by interfering with the switch function.
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PMID:Structure and function of p21 ras proteins. 333 61

Prostanoids induce expression of several immediate-early genes, but the molecular mechanisms underlying these responses remain poorly characterized. We studied induction of the proto-oncogene c-fos by PGE2 in mesangial cells as a model of gene regulation by prostanoids. PGE2 induced marked and transient accumulation of c-fos mRNA. Addition of exogenous 8-bromo-cAMP or forskolin failed to induce c-fos mRNA, suggesting that activation of an EP2 receptor linked to adenylate cyclase did not account for induction of c-fos by PGE2. These data contrast with previous experiments in NIH 3T3 cells in which PGE2 induced c-fos by a cAMP-dependent mechanism. Depletion of protein kinase C blocked induction of c-fos mRNA by PGE2, whereas a protein tyrosine kinase inhibitor had no effect. We further showed that PGE2 induces the c-fos gene by increasing the transactivating capacity of the serum-response element. Transient transfections with a CAT fusion gene driven by an AP-1 cis-element demonstrated that although PGE2 markedly induced c-fos, PGE2 did not increase AP-1-driven transcriptional responses. Electrophoretic gel mobility shift assays revealed that PGE2 failed to increase binding of AP-1 complexes to a consensus AP-1 DNA sequence. Taken together, these experiments provide evidence for a cAMP-independent, protein kinase C-dependent pathway linking a PGE2 receptor on the plasma membrane to transcriptional activation in the nucleus. Regulation of gene transcription by PGE2 probably involves c-fos induction without concomitant activation of AP-1.
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PMID:PGE2 induces c-fos expression by a cAMP-independent mechanism in glomerular mesangial cells. 752 23

We have analyzed the relationship between the signaling pathways coupled to surface immunoglobulin and interleukin (IL)-4 receptors in human B cells from the patterns of expression of a panel of phorbol ester-inducible early response genes (ERG) activated by anti-IgM and IL-4 stimulation in vitro. Anti-IgM stimulation led to the induction of all eleven ERG tested. Two of these, the proto-oncogene, c-fos and an anonymous ERG 1R20 were insensitive to protein kinase C (PKC) inhibition with the drug, staurosporine and retained inducibility after down-regulation of PKC activity by purging with phorbol ester. These observations are consistent with previous data showing anti-IgM signaling through both PKC-dependent and PKC-independent pathways. c-fos and 1R20 were also the only ERG inducible in response to IL-4 stimulation and whilst ionomycin induced only c-fos, dibutyryl cyclic adenosine monophosphate stimulation led to induction of both c-fos and 1R20. These observations lend support to a role for the adenylate cyclase pathway being important for coupling of IL-4-generated signals to B cells responses. None of the anti-IgM-responsive ERG was further induced when B cells were co-stimulated with a combination of anti-IgM and IL-4, suggesting that the signaling cascades from these two agents are integrated downstream of third messenger pathways to synergistically promote B cell proliferation.
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PMID:Multiple signaling pathways mediate anti-Ig and IL-4-induced early response gene expression in human tonsillar B cells. 769 80

The transcription control region of the proto-oncogene c-fos contains multiple cis-acting elements to which specific trans-acting factors bind. One such well-studied binding motif in the c-fos promoter is the major cyclic AMP response element (CRE) TGACGT located at -62/-57. In this study we investigated the role of this element in gene regulation by beta 2-adrenergic/adenylate cyclase signalling and DNA methylation. By transient gene expression assays we were able to show that the c-fos regulatory sequences spanning nucleotides -361 to +13 could mediate gene expression by the beta 2-adrenergic agonist isoproterenol and the phosphodiesterase inhibitor theophylline. For isoproterenol however, a stimulating effect was observed in serum-starved cells, while an inhibitory effect was measured in cells supplemented with serum. The gene regulation by the cAMP elevating agents could be due, at least partially, to the major CRE since this isolated motif mediated gene expression by these drugs. Distinct protein-DNA complexes were obtained with nuclear extracts prepared from cells exposed to isoproterenol or/and theophylline under different serum conditions. We further show that DNA methylation of this CRE may also be involved in gene regulation as methylation of the CRE motif strongly reduced the binding of nuclear proteins.
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PMID:The c-fos cAMP-response element: regulation of gene expression by a beta 2-adrenergic agonist, serum and DNA methylation. 809 31


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