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)

We have identified and characterized receptors for the amino-terminal domains of PTH and PTH-like peptide (PLP) on an immortalized human keratinocyte cell line, RHEK-1. Binding of both PLP-(1-34) and PTH-(1-34) to the RHEK-1 cells was consistent with a two-site model; affinities and capacities for each site were similar for the two peptides. Both peptides also stimulated adenylate cyclase activity with an equal ED50 in this cell line. Pertussis toxin pretreatment enhanced this peptide-mediated enzyme activity, suggesting linkage of the receptor to an inhibitory guanyl nucleotide-binding protein (Gi). Adenylate cyclase activity was diminished by both homologous [PLP-(1-34)] and heterologous [epidermal growth factor (EGF)] effectors. Malignant conversion of the immortalized cells with an activated H-ras oncogene to produce the RHEK-ras cell line was associated with a reduction in binding at both PLP/PTH and EGF receptors as well as a postreceptor defect in PLP/PTH-stimulated adenylate cyclase activity. The defect in enzyme activity appeared to be due in part to a decrease in the activity of the stimulatory guanyl nucleotide-binding protein (Gs), but not to an increase in Gi activity. Activation of the keratinocyte amino-terminal PLP/PTH receptor resulted in a small increase in [3H]thymidine incorporation, which was associated with an increase in cell numbers. This mitogenic effect was enhanced in the presence of EGF and was markedly reduced when cells were cultured in a high extracellular calcium environment. These studies demonstrate that the amino-terminal region of PLP and PTH activates adenylate cyclase-linked receptors, which are associated with mitogenesis, in RHEK-1 cells and suggest that this cell line represents a suitable model in which to examine the actions of PLP in keratinocytes.
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PMID:Identification and functional characterization of adenylate cyclase-linked receptors for parathyroid hormone-like peptides on immortalized human keratinocytes. 130 43

8-Bromo-cAMP and substances elevating cAMP levels within cells, such as forskolin, cholera toxin, and Bordetella pertussis-invasive adenylate cyclase (BPAC), suppress the growth of cultured granulosa cells cotransfected by simian virus-40 (SV40) DNA and Ha-ras oncogene concomitantly with the induction of steroidogenesis and without affecting oncogene expression. We, therefore, tested the hypothesis that cAMP can modulate tumorigenesis and metastatic spread of these cells in vivo. The cotransfected cells induced rapid development of tumors when injected sc in nude mice. Tumor development was faster in less differentiated cotransfected cells originating from preantral ovarian follicles than in those obtained from highly differentiated transformed cells originating from preovulatory follicles. Cells transfected by SV40 DNA alone produced only slow-growing small tumors. Metastatic lesions of cotransfected cells were most abundant in lung and less frequent in ovaries, kidney, and spleen. No metastatic lesions were found in the liver. However, metastatic spread was dramatically suppressed when cotransfected cells injected into nude mice were pretreated with the invasive BPAC. In contrast, no suppression of metastases was observed when the cells were pretreated with 8-bromo-cAMP, forskolin, or cholera toxin. Removal of forskolin in cultured cotransfected cells yielded a rapid decrease in cAMP levels. In contrast, high levels of cAMP persist in cell cultures even several hours after 1-h pretreatment and subsequent removal of BPAC from the medium of culture cotransfected cells. It is suggested that the inhibitory effect of BPAC on the metastatic spread of these cells is due to prolonged elevation of cAMP in vivo. The newly established granulosa cell lines transformed by SV40 and the Ha-ras oncogene can serve as a model for further studies of cAMP modulation of carcinogenesis in ovarian malignancies.
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PMID:Adenosine 3',5'-monophosphate suppresses metastatic spread in nude mice of steroidogenic rat granulosa cells transformed by simian virus-40 and Ha-ras oncogene. 131 28

Mammalian ras genes substitute for the yeast RAS gene, and their products activate adenylate cyclase in yeast cells, although the direct target protein of mammalian ras p21s remains to be identified. ras p21s undergo posttranslational processing, including prenylation, proteolysis, methylation, and palmitoylation, at their C-terminal regions. We have previously reported that the posttranslational processing of Ki-ras p21 is essential for its interaction with one of its GDP/GTP exchange proteins named smg GDS. In this investigation, we have studied whether the posttranslational processing of Ki- and Ha-ras p21s is critical for their stimulation of yeast adenylate cyclase in a cell-free system. We show that the posttranslationally fully processed Ki- and Ha-ras p21s activate yeast adenylate cyclase far more effectively than do the unprocessed proteins. The previous and present results suggest that the posttranslational processing of ras p21s is important for their interaction not only with smg GDS but also with the target protein.
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PMID:The posttranslational processing of ras p21 is critical for its stimulation of yeast adenylate cyclase. 140 40

In order to characterize the interaction between the Saccharomyces cerevisiae Cdc25 protein and Harvey-ras (p21H-ras), we have constructed a yeast strain disrupted at the RAS1 and RAS2 loci, expressing both p21H-ras and the catalytic domain of the bovine GTPase activating protein (GAP) and containing the cdc25-2 mutation. Such a strain exhibits a temperature-sensitive phenotype. The shift to the nonpermissive temperature is accompanied by the loss of guanyl nucleotide-dependent activity of adenylylcyclase in vitro. The temperature-sensitive phenotype can be rescued by CDC25 itself, as well as by a plasmid containing a truncated SDC25 gene. In addition, wild type CDC25 significantly improves the guanyl nucleotide response observed in the background of the cdc25ts allele at the permissive temperature in a dosage-dependent manner and restores the guanyl nucleotide response at the restrictive temperature. Both CDC25 and a truncated SDC25 also restored p21H-ras-dependent guanyl nucleotide response in a strain isogenic to the one described above but containing a disrupted CDC25 locus instead of the temperature-sensitive allele. These results suggest that the S. cerevisiae Cdc25 protein interacts with p21H-ras expressed in yeast by promoting GDP-GTP exchange. It follows that the yeast system can be used for characterizing the interaction between guanyl nucleotide exchangers of Ras proteins and mammalian p21H-ras.
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PMID:Interaction between the Saccharomyces cerevisiae CDC25 gene product and mammalian ras. 142 24

GDP-dissociation stimulators (GDSs) are the key element for the regeneration of the active state of ras proteins, but despite intensive investigations, little is so far known about their functional and structural properties, particularly in mammals. A growing number of genes from various organisms have been postulated to encode GDSs on the basis of sequence similarity with the Saccharomyces cerevisiae CDC25 gene, whose product acts as a GDS of RAS proteins. However, except for CDC25 and the related SDC25 C-domain, no biochemical evidence of ras GDS activity for these CDC25-like proteins has yet been available. We show that the product of a recently isolated mouse CDC25-like gene (CDC25Mm) can strongly enhance (more than 1000 times) the GDP release from both human c-Ha-ras p21 and yeast RAS2 in vitro. As a consequence, the CDC25Mm induces a rapid formation of the biologically active Ras.GTP complex. This GDS is much more active on the GDP than on the GTP complex and has a narrow substrate specificity, since it was found to be inactive on several ras-like proteins. The mouse GDS can efficiently substitute for yeast CDC25 in an in vitro adenylylcyclase assay on RAS2 cdc25 yeast membranes. Our results show that a cloned GDP to GTP exchange factor of mammalian ras belongs to the novel family of CDC25-like proteins.
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PMID:A mouse CDC25-like product enhances the formation of the active GTP complex of human ras p21 and Saccharomyces cerevisiae RAS2 proteins. 144 67

The SEC8 and SEC15 genes are essential for exocytosis in the yeast Saccharomyces cerevisiae and exhibit strong genetic interactions with SEC4, a gene of the ras superfamily. The SEC8 gene encodes a hydrophilic protein of 122 kD, while the temperature-sensitive sec8-9 allele encodes a protein prematurely truncated at 82 kD by an opal stop codon. The Sec8p sequence contains a 202 amino acid region that is 25% identical to the leucine rich domain of yeast adenylate cyclase that has been implicated in ras responsiveness. Fractionation, stability, and cross-linking studies indicate that Sec8p is a component of a 19.5S particle that also contains Sec15p. This particle is found both in the cytosol and peripherally associated with the plasma membrane, but it is not associated with secretory vesicles. Gel filtration studies suggest that a portion of Sec4p is in association with the Sec8p/Sec15p particle. We propose that this particle may function as a downstream effector of Sec4p, serving to direct the fusion of secretory vesicles with the plasma membrane.
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PMID:Sec8p and Sec15p are components of a plasma membrane-associated 19.5S particle that may function downstream of Sec4p to control exocytosis. 151 89

We previously showed that the proliferative response of a serum- and interleukin-3 (IL-3)-dependent murine myeloid cell line, NFS/N1-H7, was partially inhibited by pertussis toxin as a result of toxin-induced increased adenylate cyclase activity. In the present studies, we examined the role of the phosphoinositide cycle in the proliferative response of these cells and demonstrated that there was no change in PIP (phosphatidylinositol bisphosphate)-specific phospholipase C activity in response to IL-3 alone. However, serum caused a pertussis toxin-insensitive increase in PIP2-specific phospholipase C activity as reflected by decreased cellular levels of 32P-labelled PIP2. Proliferation of a subline selected from val-12-mutant H-ras-transfected NFS-H7 cells, clone E5, was insensitive to pertussis toxin, occurred in the absence of serum but remained serum-stimulatable and absolutely dependent on IL-3. This val-12 mutant ras-expressing cell line showed an increase in 32P-labelled PIP (phosphatidylinositol phosphate) in response to serum whereas the parent cell line did not. Membrane fractions from 32P-labelled ras-transfected cells displayed higher GTP gamma S-, GTP-, or F(-)-stimulated PIP2-specific phospholipase C activity compared to membranes from the parent cell line. Thus serum-dependence and adenylate cyclase-mediated pertussis toxin-sensitivity of the parent cell line was bypassed by val-12 mutant ras p21, possibly as a result of increased PIP2-specific phospholipase C activity.
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PMID:Expression of val-12 mutant ras p21 in an IL-3-dependent murine myeloid cell line is associated with loss of serum-dependence and increases in membrane PIP2-specific phospholipase C activity. 165 97

The Saccharomyces cerevisiae ras-like gene RSR1 is particularly closely related to the mammalian gene Krev-1 (also known as smg21A and rap1A). RSR1 was originally isolated as a multicopy suppressor of a cdc24 mutation, which causes an inability to bud or establish cell polarity. Deletion of RSR1 itself does not affect growth but causes a randomization of bud position. We have now constructed mutant alleles of RSR1 encoding proteins with substitutions of Val for Gly at position 12 (analogous to constitutively activated Ras proteins) or Asn for Lys at position 16 (analogous to a dominant-negative Ras protein). rsr1Val-12 could not restore a normal budding pattern to an rsr1 deletion strain but could suppress a cdc24 mutation when overexpressed. rsr1Asn-16 could randomize the budding pattern of a wild-type strain even in low copy number but was not lethal even in high copy number. These and other results suggest that Rsr1p functions only in bud site selection and not in subsequent events of polarity establishment and bud formation, that this function involves a cycling between GTP-bound and GDP-bound forms of the protein, and that the suppression of cdc24 involves direct interaction between Rsr1p[GTP] and Cdc24p. Functional homology between Rsr1p and Krev-1 p21 was suggested by the observations that expression of the latter protein in yeast cells could both suppress a cdc24 mutation and randomize the budding pattern of wild-type cells. As Krev-1 overexpression can suppress ras-induced transformation of mammalian cells, we looked for effects of RSR1 on the S. cerevisiae Ras pathway. Although no suppression of the activated RAS2Val-19 allele was observed, overexpression of rsr1Val-12 suppressed the lethality of strains lacking RAS gene function, apparently through a direct activation of adenyl cyclase. This interaction of Rsr1p with the effector of Ras in S. cerevisiae suggests that Krev-1 may revert ras-induced transformation of mammalian cells by affecting the interaction of ras p21 with its effector.
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PMID:RSR1, a ras-like gene homologous to Krev-1 (smg21A/rap1A): role in the development of cell polarity and interactions with the Ras pathway in Saccharomyces cerevisiae. 173 42

Several domains of guanine nucleotide-binding proteins are conserved and form the guanine nucleotide-binding pocket. Mutations in these domains in EF-Tu, ras, and Gas have been shown to result in informative phenotypes. We made several analogous changes in SCG1, which encodes the alpha subunit of the G protein involved in pheromone response in yeast. The scg1Lys388 and scg1Ala391 mutations resulted in severe growth and cell morphology defects; this phenotype is similar to the null phenotype and results from constitutive activation of the pheromone response pathway. On the basis of the model for the action of the yeast G protein, the effect of these mutations is consistent with the effect of analogous mutations in ras, which result in a transforming phenotype. The SCG1Ala322 mutation resulted in pheromone response and mating defects. This effect is similar to the effect of the analogous G alpha s mutation, which results in a defect in stimulation of adenylate cyclase. The scg1Val50 mutation, which is analogous to the transforming mutation rasVal12, resulted in multiple effects, including defects in growth, cell morphology, and mating. Some of our results and interpretations are different from previously published results of others for the same mutation in SCG1; specifically, our gene replacement of this mutation resulted in high basal activation of the pheromone response pathway, consistent with a GTPase defect, which was not seen previously with scg1Val50 on a low-copy plasmid. Implications of these phenotypes are discussed.
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PMID:Mutations in the guanine nucleotide-binding domains of a yeast G alpha protein confer a constitutive or uninducible state to the pheromone response pathway. 190 Apr 95

Using crude membrane preparations of Saccharomyces cerevisiae, we have demonstrated that glucose and glucose analogues which are not efficiently phosphorylated activate the guanine nucleotide-dependent adenylate cyclase in vitro. The activation appears to be mediated by the Ras proteins. Moreover, data are presented indicating that glucose and its analogues activate adenylate cyclase by stimulating the exchange of guanine nucleotides at its regulatory component. Thus, it has been possible to show the action of a physiological effector on the nucleotide exchange reaction in a member of the ras superfamily.
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PMID:In vitro activation of the Saccharomyces cerevisiae Ras/adenylate cyclase system by glucose and some of its analogues. 191 90


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