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: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our previous work demonstrated that NIH-3T3 cells expressing high levels of the mutated cellular ras oncogene (EJ-ras gene) exhibited reduced hormone-sensitive adenylate cyclase and platelet-derived growth factor-stimulated (PDGF) phospholipase A2/C activities. We now report that although the ras-transformed cells display markedly reduced phospholipase C activity, as measured by the levels of inositol 1,4,5-trisphosphate synthesized after PDGF-stimulation, normal levels of phospholipase A2 activity can be uncovered; thus, similar levels of prostaglandin E2 were synthesized in EJ-ras transformed and control cells after stimulation with phorbol myristate acetate (PMA) and/or the calcium ionophore A-23187, agents which stimulate protein kinase C and intracellular Ca2+ levels, respectively. These data suggest that the EJ-ras gene product uncouples the PDGF receptor from the phospholipase C, resulting in reduced PDGF-stimulated Ca2+ mobilization, protein kinase C stimulation and an apparent decrease in Ca2+-dependent phospholipase A2.
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PMID:The lack of PDGE-stimulated PGE2 release from ras-transformed NIH-3T3 cells results from reduced phospholipase C but not phospholipase A2 activity. 311 66

It has been suggested that ras proteins are involved in the transmembrane signaling mechanism and they share structural features with GTP-binding proteins. To identify the role of ras oncogene and it's products in the coupling mechanisms of GTP-binding proteins to adenylate cyclase, we examined effect of NaF, cholera toxin and forskolin in normal and v-Ki-ras transformed NIH/3T3 fibroblast cells. In transformants, adenylate cyclase activity was markedly enhanced by NaF and cholera toxin, in contrast to normal cells. It is suggested that ras oncogene proteins plays enhancing role in coupling of GTP-binding proteins to adenylate cyclase.
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PMID:Alteration by v-Ki-ras in NaF, cholera toxin and forskolin-induced adenylate cyclase activation in NIH/3T3 fibroblast cells. 311 70

One of the major steps in the understanding of the hormonal and sensory transduction mechanisms in eukaryotic cells has been the discovery of a family of GTP binding proteins which couple receptors to specific cellular effectors. The absolute requirement of GTP for hormonal stimulation of adenylate cyclase was the initial observation which led to the purification of the protein involved: Gs. Gs couples stimulatory receptors to adenylate cyclase. It is a heterotrimer composed of an alpha chain (45 or 52 kDa), a beta chain (35-36 kDa) and a gamma chain (8 kDa). Several other G proteins of known functions have been purified: Gi, which couples inhibitory receptors to adenylate cyclase, and transducin which couples photoexcited rhodopsin to cyclic GMP phosphodiesterase. Some G proteins of uncertain function have also been purified: Go, a G protein mainly localized in nervous tissues and Gp, a G protein isolated from placenta and platelets. All these G proteins have a common design. Like Gs they all consist of 3 chains: alpha, beta and gamma. The beta chains are nearly identical, whereas the gamma chains are more variable. The alpha chains are different, but share common domains (especially at the level of the GTP binding site). These domains of homologies are also similar to those of other GTP binding proteins, such as the product of the ras gene (p21) and the initiation or elongation factors. alpha Chains are also ADP ribosylated by bacterial toxins. Gs and transducin are targets for cholera toxin, whereas Gi, Go and transducin are targets for pertussis toxin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:GTP binding proteins: a key role in cellular communication. 311 13

Choleragen (cholera toxin) activates adenylate cyclase by catalyzing ADP-ribosylation of Gs alpha, the stimulatory guanine nucleotide-binding protein. It was recently found (Tsai, S.-C., Noda, M., Adamik, R., Moss, J., and Vaughan, M. (1987) Proc. Natl. Acad. Sci. U. S. A. 84, 5139-5142) that a bovine brain membrane protein known as ADP-ribosylation factor or ARF, which enhances ADP-ribosylation of Gs alpha, also increases the GTP-dependent NAD:arginine and NAD:protein ADP-ribosyltransferase, NAD glycohydrolase, and auto-ADP-ribosylation activities of choleragen. We report here the purification and characterization of two soluble proteins from bovine brain that similarly enhance the Gs alpha-dependent and independent ADP-ribose transfer reactions catalyzed by toxin. Like membrane ARF, both soluble factors are 19-kDA proteins dependent on GTP or GTP analogues for activity. Maximal ARF effects were observed at a molar ratio of less than 2:1, ARF/toxin A subunit. Dimyristoyl phosphatidylcholine was necessary for optimal ADP-ribosylation of Gs alpha but inhibited auto-ADP-ribosylation of the choleragen A1 subunit and NAD:agmatine ADP-ribosyltransferase activity. It appears that the soluble factors directly activate choleragen in a GTP-dependent fashion. The relationships of the ARF proteins to the ras oncogene products and to the family of guanine nucleotide-binding regulatory proteins that includes Gs alpha remains to be determined.
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PMID:Stimulation of choleragen enzymatic activities by GTP and two soluble proteins purified from bovine brain. 312 77

The regulation of adenylate cyclase has been analyzed in normal rat thyroid cells as well as in the same cells transformed by the v-ras-k oncogene. In both cell types the adenylate cyclase complex consists of the two GTP-binding proteins, Gi and Gs, as demonstrated by the specific ADP-ribosylation induced by pertussis and cholera toxin, respectively. The response of adenylate cyclase of the transformed cells to forskolin, pertussis toxin and cholera toxin is attenuated with respect to the control cell line. The thyrotropic hormone (TSH), that acts on normal thyroid cells in culture as a growth factor by stimulating the adenylate cyclase activity, is not able to induce DNA synthesis nor does it stimulate adenylate cyclase in v-ras-k transformed cells.
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PMID:Adenylate cyclase activity of v-ras-k transformed rat epithelial thyroid cells. 312 65

The ADP-ribosylation factor (ARF) is a 21-kDa GTP-binding protein that serves as the cofactor in the cholera toxin-catalyzed activation of the stimulatory guanine nucleotide-binding protein of adenylate cyclase (Gs). An oligonucleotide probe based on the partial amino acid sequence was used to clone ARF from a bovine adrenal chromaffin cDNA library. The yeast (Saccharomyces cerevisiae) ARF gene was then cloned from a YCp50 genomic library by cross-species hybridization by using the coding region of the bovine gene. RNA gel blots of poly(A)+ RNA indicate that only one ARF message size (900 and 2000 base pairs) is present in yeast and cows, respectively. Comparison of the cDNA-derived amino acid sequences of ARF to other GTP-binding proteins reveals a structural relationship between ARF and the ras family of proteins. A slightly better structural relationship is detected when ARF is compared to the alpha subunits of the trimeric GTP-binding proteins, including Gs alpha. All of the biochemical characteristics of the purified ARF, including the lack of GTPase activity and the posttranslational myristoylation, are consistent with the derived sequences. Comparison of the ARF sequences to that of the chicken processed pseudogene (CPS-1), previously reported as a ras homologue, reveals that CPS-1 is actually an ARF-derived gene. These results demonstrate that ARF is a GTP-binding protein with structural features of both the ras and the trimeric GTP-binding protein families.
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PMID:Sequences of the bovine and yeast ADP-ribosylation factor and comparison to other GTP-binding proteins. 313 54

To identify the role of ras oncogene and p21 in the coupling mechanism of GTP-binding proteins to adenylate cyclase, we used v-Ki-ras transformed NIH/3T3 fibroblast cells. In the previous study, we investigated that NaF, cholera toxin and forskolin remarkably enhanced the adenylate cyclase activity in transformed cells compared to normal NIH/3T3 cells. In the present study, adenylate cyclase was more enhanced by GTP gamma S in transformed cells than in normal cells. It was considered that p21 plays enhancing role in coupling of GTP-binding proteins to adenylate cyclase. Further, as measured by the degree of [32P] ADP-ribosylation of GTP-binding proteins by cholera toxin and pertussis toxin respectively, the amount of Gs (46 kDa) was almost equal in both cells, while the amount of Gi (41 kDa) in transformant was about one third of that in normal cells. This difference seems to be reflected in either the biological situations or the quantities of Gi. Our data suggest that v-Ki-ras transformation resulted in the decrease of Gi protein so that the inhibitory regulation on adenylate cyclase relatively becomes low and then stimulatory influence of Gs seems to be enhanced.
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PMID:GTP-binding proteins and adenylate cyclase activity in v-Ki-ras transformed NIH/3T3 fibroblast cells. 313 19

In the present studies, we attempted to purify the native molecular forms of the c-ras proteins (c-ras p21s) from bovine brain crude membranes and separated at least three GTP-binding proteins (G proteins) cross-reactive with the antibody recognizing all of Ha-, Ki-, and N-ras p21s. Among them, one G protein with a Mr of about 21,000 was highly purified and characterized. The Mr 21,000 G protein bound maximally about 0.6 mol of [35S]guanosine 5'-(3-O-thio)triphosphate (GTP gamma S)/mol of protein with a Kd value of about 30 nM. [35S]GTP gamma S-binding to Mr 21,000 G protein was inhibited by GTP and GDP, but not by other nucleotides such as ATP, UTP, and CTP. [35S]GTP gamma S-binding to Mr 21,000 G protein was inhibited by pretreatment with N-ethylmaleimide. Mr 21,000 G protein hydrolyzed GTP to liberate Pi with a turnover number of about 0.01 min-1. Mr 21,000 G protein was not copurified with the beta gamma subunits of the G proteins regulatory for adenylate cyclase. Mr 21,000 G protein was not recognized by the antibody against the ADP-ribosylation factor for Gs. The peptide map of Mr 21,000 G protein was different from those of the G proteins with Mr values of 25,000 and 20,000, designated as smg p25A and rho p20, respectively, which we have recently purified from bovine brain crude membranes. The partial amino acid sequence of Mr 21,000 G protein was identical with that of human c-Ki-ras 2B p21. These results indicate that Mr 21,000 G protein is bovine brain c-Ki-ras 2B p21 and that c-Ki-ras 2B p21 is present in bovine brain membranes.
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PMID:Purification and characterization of c-Ki-ras p21 from bovine brain crude membranes. 314 15

Conservative amino acid substitutions were introduced into the proposed effector regions of both mammalian Ha-ras (residues 32 to 40) and Saccharomyces cerevisiae RAS2 (residues 39 to 47) proteins. The RAS2[Ser 42] protein had reduced biological function in the yeast S. cerevisiae. A S. cerevisiae strain with a second-site suppressor mutation, SSR2-1, was isolated which could grow on nonfermentable carbon sources when the endogenous RAS2 protein was replaced by the RAS2[Ser 42] protein. The SSR2-1 mutation was mapped to the structural gene for adenylate cyclase (CYR1), and the gene containing SSR2-1 was cloned and sequenced. SSR2-1 corresponded to a point mutation that would create an amino acid substitution of a tyrosine residue for an aspartate residue at position 1547. The SSR2-1 gene encodes an adenylate cyclase that is dependent on ras proteins for activity, but is stimulated by Ha-ras and RAS2 mutant proteins that are unable to stimulate wild-type adenylate cyclase.
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PMID:An adenylate cyclase from Saccharomyces cerevisiae that is stimulated by RAS proteins with effector mutations. 327 78

Activating mutations (valine 19 or leucine 68) were introduced into the Saccharomyces cerevisiae RAS1 and RAS2 genes. In addition, a deletion was introduced into the wild-type gene and into an activated RAS2 gene, removing the segment of the coding region for the unique C-terminal domain that lies between the N-terminal 174 residues and the penultimate 8-residue membrane attachment site. At low levels of expression, a dominant activated phenotype, characterized by low glycogen levels and poor sporulation efficiency, was observed for both full-length RAS1 and RAS2 variants having impaired GTP hydrolytic activity. Lethal CDC25 mutations were bypassed by the expression of mutant RAS1 or RAS2 proteins with activating amino acid substitutions, by expression of RAS2 proteins lacking the C-terminal domain, or by normal and oncogenic mammalian Harvey ras proteins. Biochemical measurements of adenylate cyclase in membrane preparations showed that the expression of RAS2 proteins lacking the C-terminal domain can restore adenylate cyclase activity to cdc25 membranes.
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PMID:Regulatory function of the Saccharomyces cerevisiae RAS C-terminus. 330 71


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