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)

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

Three (two soluble and one membrane) guanine nucleotide-binding proteins (G proteins) that enhance ADP-ribosylation of the Gs alpha stimulatory subunit of the adenylyl cyclase (EC 4.6.1.1) complex by choleragen have recently been purified from bovine brain. To further define the structure and function of these ADP-ribosylation factors (ARFs), we isolated a cDNA clone (lambda ARF2B) from a bovine retinal library by screening with a mixed heptadecanucleotide probe whose sequence was based on the partial amino acid sequence of one of the soluble ARFs from bovine brain. Comparison of the deduced amino acid sequence of lambda ARF2B with sequences of peptides from the ARF protein (total of 60 amino acids) revealed only two differences. Whether these are cloning artifacts or reflect the existence of more than one ARF protein remains to be determined. Deduced amino acid sequences of ARF, Go alpha (the alpha subunit of a G protein that may be involved in regulation of ion fluxes), and c-Ha-ras gene product p21 show similarities in regions believed to be involved in guanine nucleotide binding and GTP hydrolysis. ARF apparently lacks a site analogous to that ADP-ribosylated by choleragen in G-protein alpha subunits. Although both the ARF proteins and the alpha subunits bind guanine nucleotides and serve as choleragen substrates, they must interact with the toxin A1 peptide in different ways. In addition to serving as an ADP-ribose acceptor, ARF interacts with the toxin in a manner that modifies its catalytic properties.
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PMID:Guanine nucleotide-binding proteins that enhance choleragen ADP-ribosyltransferase activity: nucleotide and deduced amino acid sequence of an ADP-ribosylation factor cDNA. 313 49

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

The rat thyroid cell line (FRTL5) is dependent on thyrotropic hormone (TSH) for its growth. c-fos and c-myc oncogenes expression was measured in these cells after addition of their specific growth factor TSH and after treatment with either forskolin, an activator of adenylate cyclase or with a tumor promoter, TPA. Transient expression of oncogenes coding for nuclear products and a slight increase in ras-h oncogene expression were observed in normal rat thyroid cells after all treatments. In contrast, in v-ras-transformed rat thyroid cells, which express very high levels of p21, treatment with either TSH, forskolin or TPA does not induce c-fos gene expression, while c-myc expression was constitutive. Normal unstimulated cells show no c-myc expression.
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PMID:Forskolin and a tumor promoter are able to induce c-fos and c-myc expression in normal, but not in a v-ras-transformed rat thyroid cell line. 332 19

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

Microinjection of monoclonal antibodies (lines 238, 172, and 259) directed against the ras gene product, p21, into Xenopus laevis oocytes accelerated progesterone-induced germinal vesicle breakdown. Antibody 238 had the greatest effect on the acceleration of progesterone-induced oocyte maturation, and this effect was correlated with in vitro inhibition of adenylate cyclase (EC 4.6.1.1) activity in a concentration-dependent manner. Inhibition of adenylate cyclase by antibody 238 was also measured in membranes prepared from oocytes pretreated with either cholera toxin or pertussis toxin. These results suggest a role for the ras gene product in the regulation of vertebrate cell adenylate cyclase activity.
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PMID:Antibodies to the ras gene product inhibit adenylate cyclase and accelerate progesterone-induced cell division in Xenopus laevis oocytes. 353 92

Rat kidney (NRK) cells infected with a temperature-sensitive mutant of the Kirsten sarcoma virus were arrested in the G0/G1 phase of their cell cycle by incubation in serum-deficient medium at a p21-inactivating temperature of 41 degrees C. These quiescent ts K-NRK cells were then stimulated to transit G1 and initiate DNA replication by lowering the temperature to 36 degrees C, which rapidly reactivated p21. Reactivating the viral Ki-RAS protein by temperature shift led to an increase in adenylate cyclase activity in early G1 phase. The Ki-RAS protein increased the sensitivity of adenylate cyclase to guanyl nucleotides by a mechanism that seemed to involve inactivation of the enzyme's inhibitory G1 regulatory protein.
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PMID:Viral p21 Ki-RAS protein: a potent intracellular mitogen that stimulates adenylate cyclase activity in early G1 phase of cultured rat cells. 355 14

Harvey (Ha-MSV) and Kirsten (Ki-MSV) murine sarcoma viruses induce tumours in animals and transform various cells in culture because of the expression of the ras oncogene product, p21 (ref. 1). Proto-oncogenes homologous with these genes are highly conserved evolutionarily and activated ras oncogenes have been detected in many human cancers. Whether c-ras oncogenes are directly responsible for human carcinogenesis is uncertain; however, it is clear that p21 mediates virus-induced transformation, although by an unknown mechanism. Epithelial and fibroblast cell lines transformed with Ha-MSV and Ki-MSV express p21 (ref. 8) and exhibit reduced adenylate cyclase activity. Like the guanine nucleotide regulatory proteins, Ns and Ni, which mediate stimulation and inhibition, respectively, of adenylate cyclase, p21 is a membrane-associated GTP binding protein, which exhibits GTPase activity. These similarities suggest that p21 and the adenylate cyclase regulatory proteins are related in cellular function, and that p21 depresses adenylate cyclase by inhibiting the activity of Ns or acting as Ni. We have therefore now examined the structural and functional similarities between p21 and Ns and Ni and find no evidence that p21 regulates adenylate cyclase activity by acting as one of these regulatory proteins.
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PMID:The ras oncogene product p21 is not a regulatory component of adenylate cyclase. 392 44

We expressed normal and activated human cellular Ha-ras cDNAs which encode 21,000-dalton polypeptides (p21s) in Saccharomyces cerevisiae by their insertion into a 2 micron-based replicating plasmid vector under 3-phosphoglycerate kinase promoter control. We found that newly synthesized p21 in S. cerevisiae was produced as a soluble precursor (pro-p21) which matured into a form electrophoretically indistinguishable from the processed form (p21) observed in mammalian cells. Coincident with the processing event was translocation to a membrane component, suggesting a coupling of the two events. Using vectors that direct the synthesis of p21 variants possessing the ability to autophosphorylate in vitro, we found that processing of p21 did not significantly affect this autophosphorylation reaction. In contrast to Escherichia coli, marked phenotypic changes were observed in S. cerevisiae as a consequence of the synthesis of p21, including reduction in growth rate and induction of flocculation. Accompanying these phenotypic alterations was a significant elevation of adenylate cyclase activity.
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PMID:Expression of normal and activated human Ha-ras cDNAs in Saccharomyces cerevisiae. 393 54

Most studies characterizing H-ras have been conducted in constitutively expressing cell lines. To explore the early interaction between H-ras p21 and signal transduction systems we have utilized an NIH3T3 fibroblast line transfected with a steroid inducible MMTV H-ras vector. Exposure to dexamethasone resulted in transcription of H-ras accompanied by an increase in PI turnover. Addition of cAMP analogs restored PI metabolism to control level. We postulate that these effects are due to the regulatory action of PKA on PLC and that H-ras may interfere with cAMP metabolism, negating its regulatory effect on PLC. Therefore, we investigated the role of p21 in cAMP metabolism and PLC activity. We demonstrated that after p21 reached maximal level of expression, cAMP synthesis was reduced to 45% of the control. Radioimmunoassay of cAMP also indicated H-ras acts to inhibit adenylate cyclase activity. Further, we found a 4-fold increase in PLC activity in H-ras expressing cells that could be reversed by elevation of cAMP. Incubation with the PKA inhibitor, KT5720, resulted in activity similar to that observed in H-ras expressing cells. Additionally, we have shown no correlation between H-ras expression and GTP gamma s stimulated PI metabolism, indicating that H-ras is not functioning as a G protein in PLC activation. These results imply that H-ras functions, in this system, to decrease levels of cAMP, thus negating the regulatory effect of PKA on PLC.
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PMID:Alteration of phosphoinositide metabolism by attenuation of cAMP resulting from expression of the H-ras oncogene. 780 40


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