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Overexpression of an activated ras gene in the rat embryo fibroblast line REF52 results in growth arrest at either the G1/S or G2/M boundary of the cell cycle. Both the DNA tumor virus proteins simian virus 40 large T antigen and adenovirus 5 E1a are able to rescue ras induced lethality and cooperate with ras to fully transform REF52 cells. In this report, we present evidence that the wild-type activity of the tumor suppressor gene p53 is involved in the negative growth regulation of this model system. p53 genes encoding either a p53Val-135 or p53Pro-193 mutation express a highly stable p53 protein with a conformation-dependent loss of wild-type activity and the ability to eliminate any endogenous wild-type p53 activity in a dominant negative manner. In cotransfection assays, these mutant p53 genes are able to rescue REF52 cells from ras-induced growth arrest, resulting in established cell lines which express elevated levels of the ras oncoprotein and show morphological transformation. Full transformation, as assayed by tumor formation in nude mice, is found only in the p53Pro-193-plus-ras transfectants. These cells express higher levels of the ras protein than do the p53Val-135-plus-ras-transfected cells. Transfection of REF52 cells with ras alone or a full-length genomic wild-type p53 plus ras results in growth arrest and lethality. Therefore, the selective event for p53 inactivation or loss during tumor progression may be to overcome a cell cycle restriction induced by oncogene overexpression (ras). These results suggest that a normal function of p53 may be to mediate negative growth regulation in response to ras or other proliferative inducing signals.
Mol Cell Biol 1991 Mar
PMID:Mutant p53 tumor suppressor alleles release ras-induced cell cycle growth arrest. 199 96

Recently, the failure of interleukin 4 (IL4) autocrine growing CT4S cells to grow in vivo has been demonstrated. Because it could not be excluded that the cells produce insufficient amounts of IL4 to support their growth in vivo, subclones were established which are unresponsive to exogenous IL4 and therefore have acquired full growth autonomy. From the fact that the subclones likewise did not give rise to tumors when injected into nude mice, one may conclude that the IL4 production of autocrine growing CT4S prevents their growth in vivo. To test this hypothesis, a retroviral vector containing the IL4 gene under the control of the immunoglobulin heavy chain (Igh) enhancer/promoter was constructed and used to infect the myeloma cell line J558L. An IL4 producing clone was established (J558L-XEPIL4) and the tumor progression in comparison to the parental clone J558L was monitored in nude mice. The IL4 production significantly delayed the growth of J558L-XEPIL4 in vivo. Tumor suppression was much more evident when J558L-XEPIL4 cells were injected into syngeneic BALB/c mice. These results may explain why autocrine growing CT4S do not grow in vivo and suggest the involvement of functional T lymphocytes in the effectiveness of the host dependent anti-tumor action of IL4.
Mol Immunol 1990 Dec
PMID:Lack of tumorigenicity of interleukin 4 autocrine growing cells seems related to the anti-tumor function of interleukin 4. 227 62

We examined the pattern of expression of several proto-oncogenes during nonneoplastic growth and in acinar cell neoplasms in the rat pancreas. The levels of c-myc, c-raf-1, and c-Ki-ras mRNAs were increased in regenerating pancreata following surgical partial pancreatectomy and following administration of camostat. We also investigated proto-oncogene expression associated with the progression of pancreatic cancers in azaserine-treated rats. Injection of a single dose (30 mg/kg) of azaserine (O-diazoacetyl-L-serine) to 14-d-old rats leads to a variety of neoplastic lesions in the rat pancreas. Total RNA was isolated from lesions in various stages of tumor progression, including adenomas, carcinomas in situ, and invasive carcinomas. We observed increased expression of c-myc, c-raf-1, and c-Ki-ras in azaserine-induced adenomas and carcinomas. Actin expression was also increased in these tissues, whereas amylase expression was variable. However, when compared to the normal growing pancreas, the level of proto-oncogene expression in the adenomas and carcinomas was disproportionate to the degree of cellular division in those tissues. Thus, the alterations induced by azaserine apparently caused a deregulated increase in expression of cellular oncogenes associated with growth regulation.
Mol Carcinog 1990
PMID:Expression of c-myc, c-raf-1, and c-Ki-ras in azaserine-induced pancreatic carcinomas and growing pancreas in rats. 227 33

A series of clonal cell lines were derived from rat liver epithelial cells after being infected with a defective retrovirus containing either v-raf (3611-MSV) or v-raf/v-myc(J2) together with a helper virus. These clones exhibited a different morphology from the regular cuboid shape of the control cells, infected only with the helper virus. All of the infected cell lines contained at least one full length copy of appropriate proviral DNA and expressed comparable levels of v-raf mRNA, although only the cells transformed with the v-raf/v-myc combination were capable of anchorage-independent growth in soft agar. All of the clones except the controls formed tumors in nude mice but with markedly different latency periods and growth rates. Thus, these cell lines represent an in vitro model for tumor progression. Two-dimensional polyacrylamide electrophoresis was used to investigate changes in cellular protein expression related to malignant conversion. The expression of three proteins of pI/Mr x 10(-3) 5.9-7.2/205 (RP1), 6.5-7.5/160 (RP2) and 4.0/85 (RP3) consistently matched the transformed phenotype. In particular the expression of RP1 and RP2 correlated with the relative tumorigenicity of the cell lines. Rat liver epithelial cell lines transformed by other protocols that did not involve v-raf also showed downregulation of these three polypeptides. Crude fractionation studies determined RP1 to be soluble and RP2 and RP3 to be membrane associated. RP2 was shown to be a glycoprotein containing mannose and galactose residues. These three proteins are consistent markers for the tumorigenic potential of rat liver epithelial cells.
Mol Carcinog 1990
PMID:Development of an in vitro model of tumor progression using v-raf and v-raf/v-myc transformed rat liver epithelial cells: correlation of tumorigenicity with the downregulation of specific proteins. 232 86

To investigate the role of transforming growth factor alpha (TGF alpha) in tumor development, we introduced the human TGF alpha (hTGF alpha) cDNA into cultured primary mouse epidermal cells or papilloma cells using a replication-defective retroviral vector and analyzed skin grafts constructed with such cells. Expression of the exogenous gene was confirmed by detection of hTGF alpha mRNA by northern RNA blot analysis, and the secreted hTGF alpha was measured by ELISA of culture supernatants. Tumor cells expressing hTGF alpha produced benign tumors (papillomas), which were 1.5- to 2-fold larger than tumors of parental cells when tested as skin grafts on nude mice. Grafts of normal cells that expressed hTGF alpha produced normal skin. When mixtures of parental tumor cells and normal mouse keratinocytes were grafted to nude mice, papilloma formation was suppressed and tumors that did form were small. Grafts of hTGF alpha-producing papilloma cells combined with either normal epidermal cells or hTGF alpha-producing epidermal cells yielded large tumors. Mixed grafts containing keratinocytes expressing hTGF alpha and parental papilloma cells also produced large tumors. While the tumor size was substantially increased by hTGF alpha expression, the tumors that developed in all groups were histologically benign and reached a stable size 4-5 wk after grafting. These results indicate that expression of hTGF alpha by either tumor cells (autocrine) or adjoining normal cells (paracrine) can stimulate tumor growth, particularly when tumor growth is suppressed by normal tissue. However, expression of this growth factor did not appear to influence tumor progression directly.
Mol Carcinog 1988
PMID:TGF alpha stimulates growth of skin papillomas by autocrine and paracrine mechanisms but does not cause neoplastic progression. 247 36

Expression of four oncogenes and two keratin genes was determined in rat tracheal epithelial cell lines derived from tracheal implants exposed in vivo to 7,12-dimethylbenz[a]anthracene. Cell lines were grouped into four stages of neoplastic progression based on phenotypic markers in order to correlate oncogene expression with stage of malignancy. Northern analysis of RNA revealed a significantly enhanced expression of the c-myc oncogene in the most tumorigenic or tumor-derived cell lines, whereas preneoplastic cells expressed approximately five-fold less transcript. Southern analysis of tracheal cell DNA did not demonstrate amplification of the c-myc gene in any of the positive cell lines. In contrast to c-myc, other oncogenes such as ras and fos were expressed in all cell lines, as well as in control cell cultures, to a similar extent. Patterns of differentiation were examined in these epithelial cell lines by determining the expression of two distinct keratin genes, KA-1 and KB-2. Both malignant and preneoplastic cells expressed the KB-2 gene at variably high levels, whereas the expression of the KA-1 keratin was barely detectable in any of the cell lines. The stage-specific expression of the c-myc oncogene in these tracheal cell lines suggests a correlation between the regulation of certain oncogenes and neoplastic progression in this model of respiratory carcinogenesis.
Mol Carcinog 1989
PMID:Oncogene expression in cell lines derived from rat tracheal implants exposed in vivo to 7,12-dimethylbenz[a]anthracene. 248 55

Autocrine interleukin 3 (IL-3)-secreting tumors were generated from an IL-3-dependent mouse mast cell line (PB-3c) after introduction of the v-H-ras oncogene. Tumor progression was characterized by four distinct phenotypes. The first corresponded to immortalized mast cells unresponsive to the oncogenic effect of v-H-ras. The second was expressed in a clonable subpopulation of PB-3c cells and was marked by the competence to form v-H-ras-dependent tumors (immortalized transformation competence). The third was a direct effect of v-H-ras expression on all PB-3c cells and was characterized in vitro by a reduced IL-3 requirement. Upon injection of v-H-ras-expressing, transformation-competent cells into mice, the final, fully malignant phenotype developed with a long latency period and was marked in vitro by independence of exogenous IL-3 and by autocrine IL-3 stimulation. Northern (RNA) blot analysis and an RNase A-T1 protection assay showed that IL-3 production was strictly associated with the tumor phenotype. Two of six tumors showed an alteration at the 5' region of the IL-3 gene. We conclude that v-H-ras required complementation by IL-3 gene rearrangement or an alternate event to generate autocrine mastocytomas.
Mol Cell Biol 1989 Mar
PMID:A v-H-ras-dependent hemopoietic tumor model involving progression from a clonal stage of transformation competence to autocrine interleukin 3 production. 249 44

Using a direct cytogenetic technique, we identified a nonrandom trisomy of chromosome 6 in 12 of 12 aneuploid mouse skin papillomas and in 10 of 11 squamous cell carcinomas induced by chemical carcinogenesis. The second most common abnormality observed was trisomy of chromosome 7 found in most dysplastic papillomas and in 10 of 11 carcinomas. The two trisomies were the only abnormalities found in all aneuploid papillomas and in several carcinomas. Mutation at codon 61 of the Ha-ras gene, which resides on chromosome 7, was also a common feature of the tumors sampled. Extensive homology exists between mouse chromosome 6 and human chromosome 7, the trisomy of which was recently suggested as a primary cytogenetic event in several human epithelial cancers. We propose a multistep model of tumor progression in which a sequence of specific nonrandom chromosomal abnormalities appear to be required for malignant transformation.
Mol Carcinog 1989
PMID:Sequential trisomization of chromosomes 6 and 7 in mouse skin premalignant lesions. 249 43

We have examined avian leukosis virus-induced B-cell lymphomas for multiple, stage-specific oncogene activations. Three targets for viral integration were identified: c-myb, c-myc, and a newly identified locus termed c-bic. The c-myb and c-myc genes were associated with different lymphoma phenotypes. The c-bic locus was a target for integration in one class of lymphomas, usually in conjunction with c-myc activation. The data indicate that c-myc and c-bic may act synergistically during lymphomagenesis and that c-bic is involved in late stages of tumor progression.
Mol Cell Biol 1989 Jun
PMID:Multiple proto-oncogene activations in avian leukosis virus-induced lymphomas: evidence for stage-specific events. 254 84

Mammary cancer in mice is characterized by progression through defined stages of preneoplasia, with the most common preneoplastic stage being the hyperplastic alveolar nodule (HAN). We determined the relative levels of RNA expression of various cellular proto-oncogenes and endogenous mouse mammary tumor virus genes in outgrowths and tumors of three sublines of the transplantable D1 HAN preneoplastic outgrowth line. The three sublines differed in relative tumor-producing capabilities. Subline D1B produced a high incidence of tumors with short latency periods, whereas sublines D1C and D1D produced low incidences of tumors with long latency periods. No consistent alteration in proto-oncogene expression correlated with relative tumorigenicity, although tumors frequently contained higher levels of one or more proto-oncogene transcripts as compared with preneoplastic tissue. Slightly elevated (2- to 6-fold) levels of different oncogene transcripts were detected in 13 of 17 tumors as compared with outgrowth tissue, including abl (2 tumors), fps (5 tumors), Ha-ras (6 tumors), and Ki-ras (8 tumors). One tumor contained 45 times more Ki-ras-specific RNA than outgrowth tissue because of a comparable amplification of Ki-ras DNA sequences. Elevated levels of Ha-ras occurred more frequently in tumors of a high-incidence subline than in a less-aggressive subline (5/10 vs 1/7), but this difference was not statistically significant. However, consistent changes in MMTV expression accompanied progression from preneoplastic tissues to mammary tumors. All 17 tumors displayed reduced levels of the MMTV-specific long terminal repeat (LTR) transcript (1.6 kb) as compared with HAN tissue; tumors with moderate levels of LTR transcript expressed the 3.8-kb envelope message as well, one not detected in HANs. Expression of the LTR transcript is apparently influenced by factors in addition to the methylation status of endogenous mouse mammary tumor virus genes, which was similar in outgrowths and tumors. As the survey of representative proto-oncogenes failed to identify a uniform change between HAN and tumors, it is likely that other genes are involved in tumor progression in the mammary gland.
Mol Carcinog 1989
PMID:Spontaneous progression of hyperplastic outgrowths of the D1 lineage to mammary tumors: expression of mouse mammary tumor virus and cellular proto-oncogenes. 255 32

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