Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0043167 (pertussis)
 19,595 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

Rat 1a fibroblasts transformed by the Gi2 oncogene, gip2, exhibit a constitutively elevated mitogen-activated protein (MAP) kinase activity that correlates with enhanced tyrosine phosphorylation of the p42 MAP kinase polypeptide. The MAP kinase activity in gip2 transformed cells is 50-60% of the pertussis toxin-sensitive, thrombin-stimulated activity observed in wild-type Rat 1a cells. A similar activation of MAP kinase is observed in src but not ras or raf transformed Rat 1a cells, indicating that the persistent MAP kinase activity results from the action of the specific oncoprotein and is not the consequence of cellular transformation. The enhanced transactivation function of c-Jun characteristic of the transformed phenotype, measured using a collagenase promoter-CAT reporter gene, is observed in gip2, src, ras, and raf transformed Rat 1a cells. The regulatory networks controlled by the four transforming oncogenes therefore alter the activity of specific transcription factors, but only gip2 and src constitutively activate MAP kinase. The findings demonstrate that the catalytic activity of growth factor-regulated cytoplasmic kinases are selectively and stably activated as a consequence of specific oncogene expression.
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PMID:MAP kinase is constitutively activated in gip2 and src transformed rat 1a fibroblasts. 131 14

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

The GTP binding (G) proteins of normal (FRTL5) and ras-transformed thyroid cells (KiKi) were characterized by cholera and pertussis toxin-induced ADP-ribosylation and immunoblot analysis. Two pertussis toxin substrates with molecular masses of 40 and 41 kDa were identified in normal cells as the alpha i2 and alpha i3 subunits. The molecular masses of the cholera toxin substrates were 42 and 45 kDa. The same cholera and pertussis toxin substrates were present in the K-ras-transformed cell line. However, the toxin-dependent ADP-ribosylation was markedly higher in KiKi than in normal cell membranes (more than 50-fold). The reason for this difference was investigated; it could not be explained by the relative amounts of G proteins in the two cell systems, since the levels of alpha i2 subunit as measured by quantitative immunoblot in K-ras-transformed cells were only slightly (65%) higher than in normal cells. The difference in ADP-ribosylation was not due to poly-ADP-ribosylation nor to a different degree of subunit dissociation of G proteins in the two cell lines. Rather, the enhanced ADP-ribosylation in K-ras-transformed cells appears to be due to the loss of an inhibitory factor present in the normal cells. Partial characterization indicates that such a factor is a peripheral membrane protein of less than 25 kDa capable of directly interfering with the ADP-ribosylation reaction.
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PMID:K-ras transformation greatly increases the toxin-dependent ADP-ribosylation of GTP binding proteins in thyroid cells. Involvement of an inhibitor of the ADP-ribosylation reaction. 151 71

In many mammalian cells brefeldin A interferes with mechanisms that keep the Golgi appartus separate from the endoplasmic reticulum. The earliest effect of brefeldin A is release of the coat protein beta-COP from the Golgi. This release is blocked by pretreatment with GTP-gamma S or AlF4- (ref. 12). The AlF4- ion activates heterotrimeric G proteins but not proteins of the ras superfamily, suggesting that a heterotrimeric G protein might control membrane transfer from the endoplasmic reticulum to the Golgi. We report here that mastoparan, a peptide that activates heterotrimeric G proteins, promotes binding of beta-COP to Golgi membranes in vitro and antagonizes the effect of brefeldin A on beta-COP in perforated cells and on isolated Golgi membranes. This inhibition is greatly diminished if cells are pretreated with pertussis toxin before perforation. Thus, a heterotrimeric G protein of the Gi/Go subfamily regulates association of coat components with Golgi membranes.
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PMID:Action of brefeldin A blocked by activation of a pertussis-toxin-sensitive G protein. 154 78

The activities of GTP-binding and GTPase in Candida albicans were present in the cytosol, KCl- and cholate-extractable fractions. At least two kinds of GTP-binding proteins were found in the cytosolic fraction; the major one with a molecular mass of about 30 kDa and the other about 500 kDa. The former specifically bound guanine nucleotides and was most likely to bind GDP since guanosine 5'-O-(thio) triphosphate (GTP gamma S)-binding was accelerated by addition of (NH4)2SO4. The latter showed no specificity in nucleotide binding and could also bind adenine nucleotides. The proteins were not ADP-ribosylated by either pertussis toxin or cholera toxin. These results indicate that ras-like monomeric, low molecular mass GTP-binding proteins distinct from heterotrimeric G proteins such as Gi, Go and Gs are present in C. albicans.
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PMID:Occurrence and biochemical characterization of GTP-binding proteins in Candida albicans. 158 60

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

Tumor-cell migration plays an essential role in invasion into surrounding tissues and the formation of metastatic colonies in distant organs. Metastatic human A2058 melanoma and ras-transfected NIH3T3 cells produce autocrine motility factors (AMFs) which stimulate their own motility, and the A2058 cell AMF (AMF/A2058) has been purified. In this study, we partially purified the AMF produced by N-ras-transfected NIH3T3 cells (AMF/NIH3T3) and compared it with AMF/A2058. The two AMFs differed in their gel filtration patterns and heat stability, although both elicited migration of N-ras-transfected NIH3T3 cells. The receptor for AMF/A2058 in A2058 cells is linked to a pertussis-toxin-sensitive GTP-binding protein. Pre-treatment of N-ras-transfected NIH3T3 cells with pertussis toxin also specifically blocked the promotion of motility by AMF/A2058, but did not affect the activity of AMF/NIH3T3. Stimulation of N-ras-transfected NIH3T3 cells by both AMFs elicited an additive response. Thus, the autocrine mechanisms of these two metastatic tumor cell lines are different with regard to the AMF molecules, receptors, and signal transduction pathways.
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PMID:Comparison of autocrine mechanisms promoting motility in two metastatic cell lines: human melanoma and ras-transfected NIH3T3 cells. 165 97

Platelet activation begins with the binding of an agonist to the cell surface and culminates in the events of platelet aggregation, secretion and clot formation. Recent studies have identified two large families of GTP-binding proteins in platelets that are thought to participate in the events of platelet activation. The first of these are the G proteins, heterotrimeric proteins which are best known for their ability to mediate the interaction between agonist receptors and intracellular enzymes such as adenylyl cyclase, phospholipase C and phospholipase A2. To date, at least six G proteins have been identified in platelets: Gs, Gz, three variants of Gi and either Gq or G11 (or both). An additional, pertussis toxin-resistant G protein, Gq, may also be present. The second group of GTP-binding proteins present in platelets is substantially smaller than the heterotrimeric G proteins, ranging in size from 21 to 28 kDa. At least 15 such low molecular weight GTP-binding proteins have been identified in platelets, many of which are homologous to the products of the ras proto-oncogenes. In cells other than platelets, low molecular weight GTP-binding proteins have been implicated in protein transport, cell activation events and malignant transformation. Their role in platelets is unknown.
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PMID:The role of GTP-binding proteins in platelet activation. 166 93

We have previously shown that bradykinin-induced production of second messengers such as inositol trisphosphate and diacylglycerol in neurotumor cells is inhibited by raising cellular cyclic AMP levels, which in turn inhibit phospholipase C. A monoclonal antibody to phospholipase C-II immunoprecipitated the 140-kDa form of phospholipase C-II from [35S]methionine/[3H]eucine-labeled cells, but not [32P]orthophosphate-labeled phospholipase C-II, following treatment with either forskolin or dibutyryl cyclic AMP. This suggested that phospholipase C is not the target for cyclic AMP-dependent protein kinase-mediated phosphorylation. In vitro studies confirmed that phospholipase C activity was inhibited by raising cellular cAMP levels, and partial sensitivity to Bordetella pertussis toxin suggested the involvement of a GTP-binding protein which could be the target for protein kinase A. The involvement of a GTP-binding protein in coupling the bradykinin receptor to phospholipase C was further suggested by the ability of both guanosine 5'-O-(thio-triphosphate) and fluoride (NaF) to release inositol phosphates from NCB-20 cell membranes previously labeled with [3H]inositol. Both effects were blocked by pretreatment of the cells with protein kinase A activators, further suggesting a GTP-binding protein as the target for protein kinase A-mediated phosphorylation. When whole NCB-20 cell extracts were blotted onto nitrocellulose and incubated with [alpha- 32P]GTP, a major 24-kDa band plus minor bands at 22 and 20 kDa were revealed by autoradiography. A pH 3.0/6.0 soluble (basic protein) NCB-20 cell extract revealed the major 24-kDa band plus the 20-kDa band, and similar basic proteins were shown to be heavily phosphorylated following [32P]orthophosphate labeling and pretreatment with forskolin. The size and ability to bind GTP on Western blots are characteristic of the ras, rho, smg, etc. family of GTP-binding proteins recently suggested to be the much sought after GPLC (Lapetina, E.G., Lacal, J. C., Reep, B. R., and Molina y Vedia, L. (1989) Proc. Natl. Acad. Sci. U.S.A. 86, 3131-3134; Wang, P., Nishihata, J., Takabori, E., Yamamoto, K., Toyoshima, S., and Osawa, T. (1989) J. Biochem. (Tokyo) 105, 461-466; Nagata, K.-I., Nagao, S., and Nozawa, Y. (1989) Biochem. Biophys. Res. Commun. 160, 235-242). We propose that GPLC is uniquely sensitive to protein kinase A-mediated phosphorylation and that phosphorylation inhibits stimulus-secretion coupling in these cells.
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PMID:Phospholipase C activity in NCB-20 cells is inhibited by protein kinase A-mediated phosphorylation of low molecular mass GTP-binding proteins. 169 Nov 76


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