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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The modulation of gap junctional intercellular communication (GJIC) plays an important role during tumor promotion. Several tumor-promoting agents are known to inhibit this form of cellular coupling. In addition, tumor cells and cells expressing certain oncogenic products have been shown to exhibit inhibited or reduced GJIC. The Ha-ras oncogene is expressed in a wide variety of human tumors from different tissues. Its p21 product is a membrane-bound polypeptide, the function of which is not fully characterized. We tested the effects of the expression of the human c-Ha-ras-1 oncogene, derived from the EJ/T4 bladder carcinoma cell line, on the ability of the Chinese hamster V79 cells to conduct gap junctional communication. The junctional competence was studied by two different methods, the scrape-loading/dye transfer technique and the metabolic cooperation assay. The results indicate a strong correlation between the expression of p21 ras protein and the inhibition of gap junctional function. Assuming that reversible inhibition of intercellular communication plays a role during tumor promotion and stable inhibition during the tumor progression phase of carcinogenesis, our data suggest that, while chemical tumor promoters and the ras oncogenes might work by different biochemical mechanisms, they both affect a critical cellular function; namely, GJIC.
Mol Carcinog 1989
PMID:Potential role of the human Ha-ras oncogene in the inhibition of gap junctional intercellular communication. 267 3

The activation of the c-Ha-ras gene and its contribution to the tumorigenic phenotype were examined in cultured mouse keratinocytes and squamous tumors using transfection into NIH 3T3 cells and nucleic acid hybridization. When normal keratinocytes were cultured in medium with 0.05 mM Ca2+ (low Ca2+ medium), many cells died within 2-3 wk, while others formed rapidly growing foci that could be subcultured. These rapidly growing cells produced benign tumors when grafted to nude mice and possessed a heterozygous mutation in the c-Ha-ras gene with an A----T transversion in codon 61. Fibroblast-conditioned low Ca2+ medium prevented cell death, focus formation, c-Ha-ras gene mutation, and tumorigenicity. Thus, suboptimal culture conditions favored a spontaneous mutation in codon 61 of the c-Ha-ras gene of keratinocytes. When a v-Ha-ras gene was introduced into normal keratinocytes by a replication-defective retrovirus, the recipient cells produced papillomas in vivo, and after 2 mo, 60% of the tumors converted to squamos cell carcinomas. None of the 22 converted tumors had an endogenous c-Ha-ras gene mutation at codon 61. However, the A----T transversion mutation developed when these carcinoma cells were cultured in low Ca2+ medium but not in fibroblast-conditioned medium. Cells with both an exogenous v-Ha-ras and an activated c-Ha61-ras gene produced undifferentiated, rapidly lethal carcinomas, while cells with only v-Ha-ras maintained the squamous carcinoma phenotype. Undifferentiated carcinomas also developed when the v-Ha-ras gene was introduced into papilloma cells with a chemically induced endogenous c-Ha61-ras gene mutation. These results suggest that mutation in the c-Ha-ras gene can contribute to initiation, malignant conversion, and malignant progression in skin carcinogenesis, and gene dosage may determine the phenotype expressed.
Mol Carcinog 1989
PMID:Spontaneous Ha-ras gene activation in cultured primary murine keratinocytes: consequences of Ha-ras gene activation in malignant conversion and malignant progression. 267 55

The male hybrid B6C3F1 mouse exhibits a 30% spontaneous hepatoma incidence, and both males and females of this strain are sensitive to chemical induction of liver tumors. The Ha-ras, Ki-ras, and myc oncogenes have been implicated in a variety of solid tumors. Specifically, Ha- and, less frequently Ki-ras have been reported to be activated in B6C3F1 mouse liver tumors, and such activated oncogenes frequently contain a particular point mutation. In light of indications that the transforming capacity of some oncogenes is directly related to the level of the gene product, we hypothesized that transcriptional control of Ha-ras, Ki-ras, and myc is compromised in B6C3F1 mouse liver tumors. A positive correlation has been established between gene expression and hypomethylation. Therefore, the methylation states of these genes were examined in spontaneous liver tumors and in tumors induced by two diverse hepatocarcinogens: phenobarbital and chloroform. Ha-ras was found to be hypomethylated in all tumors examined, whereas Ki-ras was sometimes hypomethylated; such hypomethylation might play a role in the promotion stage of carcinogenesis. The methylation state of myc was unaltered, although this gene appeared to be amplified in tumors. These results suggest that a component of the mechanism by which these oncogenes are activated in B6C3F1 mouse liver tumors involves loss of stringent control of expression, via hypomethylation of the ras oncogenes and, possibly, amplification of myc. These results support the assertion that tumors induced by different classes of carcinogens or arising spontaneously share common biochemical pathways of oncogene activation during tumorigenesis.
Mol Toxicol
PMID:Hypomethylation of ras oncogenes in chemically induced and spontaneous B6C3F1 mouse liver tumors. 270 5

Identification of potentially cancer-causing chemicals is a priority in our society. Short-term assays for mutation or chromosomal damage, which are rapid, inexpensive, and reproducible, have found widespread use; however, concern has arisen recently because such assays do not coincide completely with the standard rodent bioassay for carcinogenesis. Lack of perfect correlation is not surprising, given the complex, multicausal nature of the carcinogenic process. We have developed methodologies for interpreting short-term tests to predict carcinogenicity, which allow consideration of the influence of the proportion of carcinogens expected in the tested chemicals, the complexities of the rodent carcinogenesis bioassay, and factors affecting the worth of information. These methodologies are applied to a set of data on genotoxicity and carcinogenicity of 73 chemicals (NTP-73) recently published by the National Toxicology Program; they illustrate that with this approach, batteries of short-term tests can indeed be predictive of rodent carcinogenicity or noncarcinogenicity and that batteries are more predictive than the Salmonella assay alone. The analysis is validated using an additional group of chemicals with results in the same short-term tests as NTP-73.
Environ Mol Mutagen 1989
PMID:Application of the carcinogenicity prediction and battery selection method to recent National Toxicology Program short-term test data. 273 84

Keratinocytes from mouse skin were cultured for a short period in vitro following single or multiple treatments at low dose levels in vivo with the known chromosome-damaging agent triethylenemelamine (TEM). The chemical was applied to the skin of HRA/Skh hairless mice at concentrations corresponding to those reported to initiate cancer in initiation-promotion assays. A significant dose-related depression in keratinocyte cell recovery occurred over the dose range 0.3-1 mg TEM/mouse (single or multiple treatments). Under the same conditions, a dose-related induction of micronuclei was observed using the cytokinesis-block method with cytochalasin B. A similar frequency of micronuclei was detected in binucleate cells from mice treated with single or multiple applications of TEM. Mice held for 12-48 h post-treatment, before removal of skin for in vitro culture, yielded highest micronuclei frequencies. These results indicate that the same target cell population, skin keratinocytes, can be used to investigate both genotoxicity and carcinogenesis, and that micronucleus induction in these cells may be a sensitive signal of skin cancer initiation.
Environ Mol Mutagen 1989
PMID:Initiating carcinogen, triethylenemelamine, induces micronuclei in skin target cells. 275 23

To determine accurately the potential genetic damage induced by toxic inhaled agents, the cells that receive a high concentration of such agents should be analyzed. Pulmonary alveolar macrophages (PAMs) represent such cells. We compared the cytogenetic effects of cigarette smoke on PAMs of rats exposed repeatedly by different methods. This study was part of a larger investigation of the health effects resulting from different methods of exposing rats to cigarette smoke. Fischer 344/N male rats (4/group) were randomly selected from five different exposure groups: 1) nose-only sham-exposed (air) control, 2) whole-body sham-exposed control, 3) nose-only intermittent, 4) nose-only continuous, and 5) whole-body continuous. The rats were exposed 6 hr/day, 5 days/week for 22-24 days. All smoke-exposed rats received the same daily concentration x time product (600 mg.hr.m-3 for the first week, 1200 mg.hr.m-3 thereafter) of cigarette smoke. Rats were injected intraperitoneally with colchicine at the end of exposure. PAMs were obtained by lung lavage and chromosomal damage was measured. Highly significant smoke-induced differences in both structural and numerical aberrations were observed in continuously exposed rats vs. sham controls, regardless route of exposure. The structural aberrations observed were chromatid-type deletions. Both hypoploid and hyperploid cells were detected. Our data suggest that cigarette smoke is clastogenic and may disrupt spindle-fiber formation. These activities may play a role in the induction of human carcinogenesis caused by cigarette smoke exposure.
Environ Mol Mutagen 1989
PMID:Cytogenetic effects of cigarette smoke on pulmonary alveolar macrophages of the rat. 275 26

To evaluate a short-term epithelial cell assay system to detect respiratory carcinogens, primary cultures of rat tracheal epithelial cells were exposed to a series of 17 compounds and scored for morphologically transformed cell colonies 28 days later. The test compounds included known carcinogens and noncarcinogens in volatile or liquids form. Tracheal epithelial cells were isolated from F344 rats, plated onto collagen-coated dishes, and exposed to the test compounds on day 1 for 24 hours. At day 30 the cultures were fixed, stained, and scored for colonies having a density greater than 1,300 cells/min2. With standardized protocols, such colonies are very infrequent in media and solvent control cultures. Concentration levels for each chemical were chosen over a range from nontoxic to toxic levels. Highly positive compounds in this assay included benzo(a)pyrene, benzo(l)acean-thyrlene, 3-methylcholanthrene, and formaldehyde. Compounds which were negative in this assay included pyrene, benzo(e)pyrene, and 4-nitroquinoline-N-oxide. Examining the concordance of in vitro results with whole animal carcinogenesis studies revealed an accuracy of 88% with one false-positive and one false-negative compound. The results of these studies indicate that the rat tracheal epithelial cell assay may be useful in identifying potential respiratory carcinogens in our environment.
Environ Mol Mutagen 1989
PMID:Evaluation of a rat tracheal epithelial cell culture assay system to identify respiratory carcinogens. 275 28

Simian virus 40 (SV40)-mediated transformation of human fibroblasts offers an experimental system for studying both carcinogenesis and cellular aging, since such transformants show the typical features of altered cellular growth but still have a limited life span in culture and undergo senescence. We have previously demonstrated (D. S. Neufeld, S. Ripley, A. Henderson, and H. L. Ozer, Mol. Cell. Biol. 7:2794-2802, 1987) that transformants generated with origin-defective mutants of SV40 show an increased frequency of overcoming senescence and becoming immortal. To clarify further the role of large T antigen, we have generated immortalized transformants by using origin-defective mutants of SV40 encoding a heat-labile large T antigen (tsA58 transformants). At a temperature permissive for large-T-antigen function (35 degrees C), the cell line AR5 had properties resembling those of cell lines transformed with wild-type SV40. However, the AR5 cells were unable to proliferate or form colonies at temperatures restrictive for large-T-antigen function (39 degrees C), demonstrating a continuous need for large T antigen even in immortalized human fibroblasts. Such immortal temperature-dependent transformants should be useful cell lines for the identification of other cellular or viral gene products that induce cell proliferation in human cells.
Mol Cell Biol 1989 Jul
PMID:Growth of immortal simian virus 40 tsA-transformed human fibroblasts is temperature dependent. 277 55

The identification of agents causing aneuploidy in humans, a condition associated with carcinogenesis and birth defects, is currently limited due to the highly skilled and time-consuming nature of cytogenetic analyses. We report the development of a new simple and rapid assay to identify aneuploidy-inducing agents (aneuploidogens). The assay involves the chemical- or radiation-induced formation of micronuclei in cytokinesis-blocked human lymphocytes and the use of an antikinetochore antibody to determine whether the micronuclei contain centromeres--a condition indicating a high potential for aneuploidy. All agents tested produced dose-related increases in the frequency of micronucleated cells. The micronucleated cells induced by the known aneuploidogens--colchicine, vincristine sulfate, and diethylstilbestrol--contained kinetochore-positive micronuclei 92, 87, and 76% of the time, respectively. In contrast, the micronucleated cells induced by the potent clastogens--ionizing radiation and sodium arsenite--contained kinetochore-positive micronuclei only 3 and 19% of the time, respectively. These results indicate that this relatively simple assay can discriminate between aneuploidogens and clastogens and may allow a more rapid identification of environmental and therapeutic agents with aneuploidy-inducing potential.
Environ Mol Mutagen 1989
PMID:Identification of aneuploidy-inducing agents using cytokinesis-blocked human lymphocytes and an antikinetochore antibody. 278 9

The in vivo-in vitro hepatocyte DNA repair assay has been shown to be useful for studying genotoxic hepatocarcinogens. In addition, measurement of S-phase synthesis (SPS) provides an indirect indicator of hepatocellular proliferation, which may be an important mechanism in rodent carcinogenesis. This assay was used to examine 24 chemicals for their ability to induce unscheduled DNA synthesis (UDS) or SPS in Fischer-344 rats or B6C3F1 mice following in vivo treatment. Hepatocytes were isolated by liver perfusion and incubated with 3H-thymidine following in vivo treatment by gavage. UDS was measured by quantitative autoradiography as net grains/nucleus (NG). Controls from both sexes of both species yielded less than 0.0 NG. Chemicals chosen for testing were from the National Toxicology Program (NTP) genetic toxicology testing program and most were also evaluated in long-term animal studies conducted by the NTP. 11-Aminoundecanoic acid, benzyl acetate, bis(2-chloro-1-methylethyl)ether (BCMEE), C.I. Solvent Yellow 14, cinnamaldehyde, cinnamyl anthranilate, dichloromethane, dichlorvos, glutaraldehyde, 4,4'-methylenedianiline (MDA), 4-nitrotoluene, 4,4'-oxydianiline, a polybrominated biphenyl mixture (PBB), reserpine, 1,1,2,2-tetrachloroethane, 1,1,2-trichloroethane, trichloroethylene, and 2,6-xylidine all failed to induce UDS in rats and/or mice. Dinitrotoluene and Michler's Ketone induced positive UDS response in rat, while N-nitrosodiethanolamine and selenium sulfide induced equivocal UDS results in mouse and rat, respectively. BCMEE, bromoform, chloroform, PBB, 1,1,2-trichloroethane, and trichloroethylene were all potent inducers of SPS in mouse liver, while C.I. Solvent Yellow 14, and 1,1,2,2-tetrachloroethane yielded equivocal SPS results in rat and mouse, respectively. These results indicate that most of the test compounds do not induce UDS in the liver; however, the significant S-phase responses induced by many of these compounds, especially the halogenated solvents, may be an important mechanism in their hepatocarcinogenicity.
Environ Mol Mutagen 1989
PMID:Measurement of unscheduled DNA synthesis and S-phase synthesis in rodent hepatocytes following in vivo treatment: testing of 24 compounds. 279 91


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