Formation and utilization of methionine by rat liver cells in culture

Summary The enzymeN ⁵-methyltetrahydrofolate: homocysteine methyltransferase (methionine synthetase) catalyzes the synthesis of methionine from homocysteine. Methylcobalamin is a cofactor for the reaction. The effects of methionine deprivation and methylcobalamin supplementation on the growth of normal and transformed rat liver epithelial cell lines were determined using growth constants to quantitate cell proliferation. No marked specific requirement by the transformed cell lines for methionine relative to leucine was observed. A sigmoidal relationship, however, was found to exist between growth constants and the logarithms of the amino acid concentrations for both normal and transformed cells. Methylcobalamin stimulated the growth rates of the normal and transformed liver cells in methionine-deficient, homocysteine-containing medium. Growth on methionine was not increased by the addition of methylcobalamin. The growth constants for two normal, two spontaneously transformed, one chemically transformed, and one tumor cell line grown in medium in which methionine was replaced by homocysteine were found to be proportional to the level of methionine synthetase. The results demonstrate the utility of growth quantitation to study the methionine dependency of transformed cells. Presented in part at the Conference on Differentiation and Carcinogenesis in Liver Cell Cultures sponsored by the New York Academy of Sciences, October 11, 1979 (see reference 1).     

Formation and utilization of methionine by rat liver cells in culture

The enzyme N5-methyltetrahydrofolate:homocysteine methyltransferase (methionine synthetase) catalyzes the synthesis of methionine from homocysteine. Methylcobalamin is a cofactor for the reaction. The effects of methionine deprivation and methylcobalamin supplementation on the growth of normal and transformed rat liver epithelial cell lines were determined using growth constants to quantitate cell proliferation. No marked specific requirement by the transformed cell lines for methionine relative to leucine was observed. A sigmoidal relationship, however, was found to exist between growth constants and the logarithms of the amino acid concentrations for both normal and transformed cells. Methylcobalamin stimulated the growth rates of the normal and transformed liver cells in methionine-deficient, homocysteine-containing medium. Growth on methionine was not increased by the addition of methylcobalamin. The growth constants for two normal, two spontaneously transformed, one chemically transformed, and one tumor cell line grown in medium in which methionine was replaced by homocysteine were found to be proportional to the level of methionine synthetase. The results demonstrate the utility of growth quantitation to study the methionine dependency of transformed cells.     

Reversion to methionine independence by malignant rat and SV40-transformed human fibroblasts.

Although many lines of malignant and transformed cells are unable to grow in folate- and cobalamin-supplemented medium in which methionine is replaced by homocysteine its immediate metabolic precursor, rare cells from these lines regained the normal ability to grow under these conditions. Six revertant lines, one from Walker-256 rat breast carcinoma cells and five from SV40-transformed human fibroblasts, have been characterized with regard to growth and three measures of methionine biosynthetic capacity: methionine synthetase and methylenetetrahydrofolate reductase activities in cell extracts, and uptake of label from [5-¹⁴C]methyltetrahydrofolate by intact cells. When all three measures of methionine biosynthetic capacity were considered, two revertants isolated from SV40-transformed cells had regained the ability to grow like normal cells in homocysteine medium without substantial changes in these measures. Increased methionine biosynthesis thus is not a prerequisite to reversion of the methionine auxotrophy present in the transformed parental lines.     

Establishment of functional epithelial cell lines from a rat thymoma and rat thymus

Summary Seven clonal epithelial cell lines from a thymoma of an (ACI/NMs×BUF/Mna)F1 rat and seven clonal epithelial cell lines from an ACI/NMs rat thymus were established in a medium containing 1 μM dexamethasome (DM) and were characterized cytologically. Long-term treatment of DM stabilized the epithelial nature of these epithelial cells irreversibly. The established cell lines showed a polygonal shape, were positively stained with antikeratin antiserum and had tonofilaments and desmosomes. Species of their keratin paptides were the same as those of normal thymic epithelial cells in primary cultures. The cell lines were positively stained with Th-4 monoclonal antibody which preferentially stains the medullary epithelial cells of the thymus, but not with Th-3 which preferentially stains the subcapsular and cortical epithelial cells of the thymus. The cells from the rat thymoma were much large than those from the normal thymus, as reflected in their primary cultures. No transformed phenotypes, such as high growth rate, high saturation density anchorage independency, low serum dependency and so on, were found on the cell lines from the thymoma as in the cell lines from the normal thymus by in vitro assays. DNA synthesis of the thymic lymphocytes was stimulated by culturing with a line of rat thymoma with no lectins. Thymic lymphocytes strongly bound on the cell lines from the thymoma and changed the shape of the cells. These cell lines may be useful to investigate the mechanism of thymomegenesis and the interactions between epithelial cells and thymocytes in the rat thymoma.     

Growth of cells on a perfluorocarbon-medium interphase: A quantitative assay for anchorage-independent cell growth

Summary A high density, purified, nontoxic solvent, heptacosafluorotributylamine (FC43), was successfully used as a culture surface for growing several normal and oncogene-transformed cell lines under anchorage-independent conditions. Normal rat kidney (NRK) fibroblasts and the normal mammary epithelial cell lines NMuMG and A1, clone N4, of murine and human origin, respectively, failed to grow at a FC43 growth medium interphase or in soft agar in the absence of transforming growth factor alpha (TGFα) and transforming growth factor beta (TGFβ). However, NRK fibroblasts transformed with the Kirstenras viral oncogene (K-NRK) or NMuMG cells transformed with a point-mutated c-Harvey-ras proto-oncogene or polyoma middle T-transforming gene (NMuMG-ras ^H and NMuMG-pyt, respectively) exhibited rapid growth and formed large colonies when cultured on an FC43-medium interphase. In addition, NRK cells treated with TGFα and TGFβ and K-NRK cells grown on FC43 exhibited a sensitivity to the growth inhibitory effects of 4-cis-L-hydroxyproline comparable to that observed for the same cells grown in soft agar. These results demonstrated that the two-phase assay system (FC43-growth medium interphase) may be superior to soft agar for monitoring the anchorage-independent growth of cells because of the ease of cell plating, the ability to recover cells and secreted products from the upper aqueous phase, and the shorter growth period required to complete the assay (3–4 days). Editor's Statement This report describes the application of a novel technique that provides an alternative approach to assay of anchorage independence with some unique advantages over conventional methods.     

Loss of adenylate cyclase hormonal sensitivity in chemically transformed epithelial cells.

The hormonal sensitivity of adenylate cyclase from a normal rat liver epithelial cell line (K16) and its chemically transformed derivative (W8) were compared. Intact normal rat liver cells had markedly increased cAMP levels after brief exposure to epinephrine, isoproterenol, norepinephrine or prostaglandin E₁. In contrast, the cAMP levels of chemically transformed cells were relatively unaffected by these same compounds even after prolonged incubation. A comparison of broken cell adenylate cyclase activities revealed a decreased basal activity in the chemically transformed cells; the response to NaF was similar in the two cell lines, while the response to catecholamines and prostaglandins paralleled the intact cell studies. These data suggest that one reason for loss of adenylate cyclase hormonal responsiveness in chemically transformed rat liver epithelial cells may be a dysfunction or loss of hormone binding sites.     

Methionine metabolism defect in cells transfected with an activated HRAS1 oncogene

Methionine dependence is a metabolic defect characterized by the inability of eukaryotic cells in culture to proliferate in a medium where methionine has been replaced by its immediate metabolic precursor, homocysteine. This defect has been reported to be a specific property of diverse tumour-derived and transformed cell lines; normal cell strains grow well under the above culture conditions. The basis of methionine requirement in such cells is not known. We asked whether this defect might be controlled by activated oncogenes and in particular by the mutated (activated) HRAS1 oncogene derived from the EJ/T24 human carcinoma line. We report that this oncogene induces methionine requirement after transfection in non-transformed immortalized rat cells.     

Heregulin-dependent autocrine loop regulates growth of K-ras but not erbB-2 transformed rat thyroid epithelial cells

The EGF-like family of proteins, such as epidermal growth factor (EGF), transforming growth factor α (TGFα), amphiregulin (AR), betacellulin (BTC), cripto-1 (CR-1), and heregulin (HRG), plays an important role in the pathogenesis of several human carcinomas as autocrine growth factors. Differentiation and proliferation of rat thyroid cells in culture (FRTL-5 cells) are regulated by thyrotropin (TSH); withdrawal of TSH from culture medium produces growth arrest, whereas its addition to quiescent cells stimulates cell entry into S phase. Instead, transformed thyroid cell lines as FRTL-5H2 cell line, overexpressing erbB-2, Kimol cells, transformed by the wild-type K-ras and A6 clone, transformed by a temperature sensitive K-ras mutant, can grow without addition of TSH to the culture medium. In order to identify whether EGF-like growth factors and corresponding receptors (erbB-2, erbB-3, and erbB-4) could be involved in the autonomous growth of these transformed rat thyroid epithelial cells, Northern blot for mRNA analysis and Western blot for protein expression were performed. In contrast to normal control FRTL-5 cells, both K-ras and erbB-2-transformed cells expressed elevated levels of erbB-2 receptor. Moreover, both K-ras transformed cells, Kimol and A6 cells, but no FRTL-5H2 cells, were found able to express also high levels of erbB-4 receptor and HRG/NDF ligand. Treatment of K-ras transformed thyroid cells with neutralizing antibody against HRG/NDF reduced by 50% cell proliferation. These data indicate that unlike the erbB-2 overexpressing FRTL-5 cells, in K-ras rat thyroid epithelial cells, the growth factor heregulin signals through the heterodimer erbB-2/erbB-4 receptors in an autocrine fashion. J. Cell. Physiol. 176:383–391, 1998. © 1998 Wiley-Liss, Inc.     

Expression of protein disulfide isomerase in cultured rat liver epithelial cells is unrelated to the growth inhibitory effect of TGF-beta 1.

The effect of TGF-beta 1 treatment on the level of protein disulfide isomerase (PDI) mRNA in normal and chemically or spontaneously transformed rat liver epithelial cell lines was investigated. TGF-beta 1 at 1 or 10 ng/ml concentrations did not significantly decrease the mRNA level of PDI at 4 or 24 hours after exposure to TGF-beta 1, irrespective whether the cell line was sensitive or resistant to the growth-inhibitory effect of TGF-beta 1 at these concentrations. The results indicate that in normal or neoplastic rat liver epithelial cells, the expression of PDI is unrelated to the growth inhibitory effect of TGF-beta 1.     

Comparative properties of untreated andN-nitrosobenzylmethyl-amine-transformed rat esophageal epithelial cell lines

Summary A culture system utilizing rat esophageal epithelial cells has been developed. Four normal and eightN-nitrosobenzylmethylamine-treated lines were compared with respect to chromosome number, anchorage-independent growth in agarose, and tumorigenic potential in syngenic rats. All cell lines were aneuploid with nine in the near-tetraploid range and three in the near-diploid range. No relation between tumorigenic potential and chromosome number or structure was apparent. Similarly, anchorage-independent growth in agarose did not correlate with tumorigenic potential. Three of the 12 immortalized lines (two carcinogen-treated and 1 untreated) induced well-differentiated squamous cell carcinomas in syngeneic rats. These tumors had weak metastatic potentials suggesting that tumorigenic potential and metastatic ability are separately controlled. These cell lines will be useful for the investigation of factors involved in the conversion of immortalized rat esophageal epithelial cell lines to lines of high metastatic potential.     

Amino acid transport in established adult rat liver epithelial cell lines

The capacities of Na⁺-dependent transport of -aminoisobutyrate, glutamine and glutamate in four established and three transformed rat liver epithelial cell lines were found to be considerably higher than those of isolated and cultured hepatocytes. At least for transport systems A and G^– this seemed to be due to elevated values of V _max , whereas the values for K _m were quite comparable to those of hepatocytes. In contrast to hepatocytes, however, no significant hormonal stimulation of amino acid uptake could be detected in the cell lines.Each normal cell line expressed a distinct pattern of transport capacities with respect to the three systems measured and this was not altered by chemical transformation of the lines. The individual patterns of the lines showed no similarity to presumptive patterns of subpopulations of liver parenchymal cells. In particular, there was no evidence for a direct relationship of one of the cell lines with a small subpopulation of parenchymal cells located adjacent to hepatic venules as revealed by additional measurements of glutamine synthetase, a marker enzyme for this particular subpopulation.It is concluded that established rat liver epithelial cell lines express features characteristic of normal hepatocytes with respect to amino acid transport, but have developed a distinct phenotype adapted to a rapid, hormone-independent growth in vitro. Alteration of their phenotype by transformation is not coupled with a further increase in amino acid transport capacity.Abbreviations AIB -aminoisobutyrate - LPC liver parenchymal cells - N-Methyl-AIB N-methyl--aminoisobutyrate - TAT tyrosine aminotransferase     

Hepatocytic Cells Form Bile Duct-like Structures within a Three-Dimensional Collagen Gel Matrix

It has been suggested that hepatocytes have the ability to form bile ductal structures during normal development and in various pathological conditions of the liver. In the present study, we attempted to establish anin vitromodel of ductal morphogenesis of hepatocytic cells by combining an aggregate culture and a type I collagen gel culture. When spheroidal aggregates of rat or mouse primary hepatocytes were embedded within the collagen gel matrix and then cultured with a medium containing a fibroblast-conditioned medium, the aggregates extended many dendritic processes composed of a trabecular arrangement of cells. Dendritic morphogenesis was also seen in embedded aggregates of immortal liver epithelial cell lines, which spontaneously emerged during long-term cultures of mouse primary hepatocytes. A similar morphogenesis was induced by the presence of insulin in the medium. Although epidermal growth factor (EGF) and hepatocyte growth factor (HGF) showed only a small effect on the morphogenesis of most of the hepatocytic cells when used alone, these factors, especially EGF, enhanced the morphogenetic effect of insulin. Electron microscopical observations revealed luminal structures lined by microvilli within these dendritic processes, indicating ductal differentiation. Immunocytochemically, the dendritic processes were positive for cytokeratin 19, a marker for bile duct cells. On the other hand, an H-ras-transformed mouse liver epithelial cell line and rat hepatocellular carcinoma cell lines did not demonstrate the organized morphogenesis. Our results indicate that hepatocytic cells can produce bile duct-like structures in the presence of the type I collagenous matrix and soluble morphogenetic factors.     

S-adenosylmethionine synthetase in cultured normal and oncogenically-transformed human and rat cells

We have investigated the enzymatic formation of S-adenosylmethionine in extracts of a variety of normal and oncogenically-transformed human and rat cell lines which differ in their ability to grow in medium in which methionine is replaced by its immediate precursor homocysteine. We have localized the bulk of the S-adenosylmethionine synthetase activity to the post-mitochondrial supernatant. We show that in all cell lines a single kinetic species exists in a dialyzed extract with a Km for methionine of about 3-12 microM. In selected lines we have demonstrated a requirement for Mg2+ in addition to that needed to form the Mg X ATP complex for enzyme activity and have shown that the enzyme can be regulated by product feedback inhibition. Because we detect no differences in the enzymatic ability of these cell extracts to utilize methionine for S-adenosylmethionine formation in vitro, we suggest that the failure of oncogenically-transformed cell lines to grow in homocysteine medium may result from the decreased methionine pools in these cells or from the loss of ability of these cells to properly metabolize homocysteine, adenosine, or their cellular product S-adenosylhomocysteine.     

The modulation of growth of normal rat liver epithelial cells in calcium-poor medium by epidermal growth factor,phenobarbital, phorbol ester,and retinoic acid

Summary The ability of a normal rat liver epithelial cell line with phenotypic characteristics of “oval” cells to grow in calcium-poor medium has been investigated. The growth of these cells could be arrested in medium containing 0.03 mM Ca²⁺, a concentration below which cell necrosis began to occur 24 h postexposure. With increasing calcium concentration, progressive cell proliferation was observed. Epithelial growth factor (EGF) (10 ng/ml) increased the survival and proliferation of cells in calcium-poor medium and the response was inversely correlated with the extracellular calcium concentration. In contrast, phenobarbital (0.2 to 2 mM), 12-0-tetradecanoylphorbol-13-acetate (0.01 to 1 μg/ml), or retinoic acid (0.001 to 0.1 μg/ml) depressed growth of cells in calcium-poor medium. The results confirm the ability of EGF to lower the calcium requirement for proliferation of normal cells, but such an effect does not seem to be a universal property of tumor promoters. This research was supported by National Institutes of Health Grant CA 29323.     

Changes in cobalamin metabolism are associated with the altered methionine auxotrophy of highly growth autonomous human melanoma cells.

Our aim was to identify the biochemical defect responsible for the inability of highly growth autonomous human tumor cells to proliferate in culture medium devoid of methionine, but containing homocysteine and 5-methyletrahydrofolic acid. We have adopted the terms "homocysteine-responsive" and "homocysteine-nonresponsive" to describe cells which can or cannot proliferate in methionine-free homocysteine-supplemented medium. Using a panel of genetically related homocysteine-responsive and -nonresponsive human melanoma cell lines, the results from a number of experiments indicate that acquisition of the "homocysteine-nonresponsive phenotype" is associated with the reduced intracellular accumulation of methyl-cobalamin, a critical cofactor of the methionine synthase enzyme. When in vitro methionine synthase assays were performed in the presence of exogenously added methyl-cobalamin, specific methionine synthase activity in extracts obtained from homocysteine-responsive cells was only twofold greater than that observed with extracts prepared from homocysteine-nonresponsive cells. However, when exogenous methyl-cobalamin was omitted from the enzyme assays, methionine synthase activity in extracts derived from homocysteine-nonresponsive cells was dramatically reduced, compared with the small decrease observed with homocysteine-responsive cell extracts. Compared with their homocysteine-responsive counterparts, homocysteine-nonresponsive cells exhibited increased levels of cobalamin efflux and decreased intracellular accumulation of methyl-cobalamin. There was a clear relationship between the abilities of these related melanoma cell lines to proliferate in methionine-free homocysteine-supplemented medium, and the extent of cobalamin loss and capacity of exogenously added methyl-cobalamin to stimulate in vitro methionine synthase activity. These results indicate a link between alterations in the intracellular trafficking and/or metabolism of cobalamin and the increased growth autonomy of human melanoma cells.     

Clonal growth and serial propagation of rat esophageal epithelial cells

Summary The clonal growth and serial propagation of rat esophageal epithelial cells in low serum-containing medium has been achieved without feeder layers or conditioned medium. To date, a total of four lines have been developed and maintained for as many as 40 passages in culture. Growth of the cells was possible only after modifying the culture medium (PFMR-4) by reducing the calcium concentration from 1 to 0.1 mM, and by adding low levels of dialyzed fetal bovine serum and seven growth factors; i.e. epidermal growth factor, hydrocortisone, ethanolamine, phosphoethanolamine, insulin, transferrin, and cholera toxin. Cell lines have been developed from both explant outgrowths and enzyme dissociated esophagi. The epithelial nature of the cells was confirmed by electron microscopy and immunological methods. Clonal growth studies revealed that optimal cell growth occurred in medium containing 2.4% dialyzed fetal bovine serum and 0.1 mM calcium. Calcium levels of 0.3 mM or higher caused the cells to stratify and undergo terminal differentiation. Coating the culture dishes with collagen, or a combination of collagen, fibronectin, and bovine serum albumin, increased both the cell growth rate and the colony forming efficiency. The successful long term culture of rat esophageal epithelial cells permits their use as models in studies concerned with esophageal differentiation and carcinogenesis. This investigation was supported by U.S. Public Health Service Grant CA 28950, awarded by the National Cancer Institute, Bethesda, MD.     

Flat revertants derived from Kirsten murine sarcoma virus-transformed cells produce transforming growth factors

Two flat cellular revertant cell lines, F-2 and C-11, which were originally selected from the DT line of Kirsten murine sarcoma virus (Ki-MuSV)-transformed NIH/3T3 cells, were examined for the production of transforming growth factors (TGFs). The revertant cells fail to grow in semisolid medium as colonies and exhibit a markedly reduced level of tumorigenicity in nude mice, although they are known to express high levels of p21ras, the product of the Kirsten sarcoma virus oncogene, ras, and they contain a rescuable transforming virus. TGF activity associated with the transformed, revertant, and non-transformed cell lines was measured by the ability of concentrated conditioned medium (CM) from these cells to induce normal rat kidney (NRK) and NIH/3T3 cells to form colonies in semisolid agar suspension cultures and to inhibit the binding of 125I epidermal growth factor (EGF) to specific cell surface receptors. CM from the transformed DT cells and from both the F-2 and C-11 revertants contains TGF activity, in contrast to CM obtained from normal NIH/3T3 cells. Furthermore, unlike NIH/3T3 cells, neither the DT nor the revertant cells were able to bind 125I EGF. All four cell lines were able to proliferate in serum-free medium supplemented with transferrin, insulin, EGF, and Pedersen fetuin. However, in basal medium lacking these growth factors, only DT cells and, to a lesser extent, the revertant cells were able to grow. These results suggest that the F-2 and C-11 revertants fail to exhibit all of the properties associated with transformation because the series of events leading to the transformed phenotype is blocked at a point(s) distal both to the expression of the p21 ras gene product and also to the production of TGFs and that the production of TGFs may be necessary but not sufficient for maintaining the transformed state.     

Serum-free growth of normal and transformed fibroblasts in milk: differential requirements for fibronectin

Bovine milk may be used as a supplement for the serum-free growth of certain fibroblastic cells in culture. The growth properties of three representative cell types in milk-supplemented medium were examined; fibroblastic cell strains, fibroblastic cell lines, and transformed fibroblasts. Transformed fibroblasts, which included RNA and DNA tumor virus-transformed cells and carcinogen-transformed cells, grew in milk. Instead of growing attached to the culture dishes, as they normally do in serum, transformed fibroblasts grew in milk as large clusters in suspension. In contrast, nontransformed fibroblastic cell strains and cell lines did not grow in milk-supplemented medium. Fibroblasts transformed by a temperature-sensitive transformation mutant of Rous sarcoma virus were temperature-sensitive for growth in milk. The failure of cells to adhere to the substratum in milk-supplemented medium suggested that milk might be deficient in attachment factors for fibroblasts. When the attachment of fibroblastic cells in milk- supplemented medium was facilitated by pretreating culture dishes with fibronectin, (a) transformed cells grew attached rather than in suspension, (b) normal cell lines attached and grew to confluence, and (c) normal cell strains adhered and survived but did not exhibit appreciable cell proliferation.     

Characterization of a monoclonal antibody reactive with a glycolipid antigen expressed by tumorigenic and certain immortalized,non-tumorigenic rat esophageal epithelial cell lines

A monoclonal antibody (mAb 5G) was produced against a tumorigenic rat esophageal epithelial cell line, designated B2T. Using an enzyme-linked immunosorbent assay, immunofluorescence assay (IFA), thin-layer chromatography (TLC) and immunoperoxidase staining, it was found that mAb 5G reacted specifically with a glycolipid antigen expressed by three tumorigenic rat esophageal epithelial cell lines, and two out of the three nontumorigenic, immortalized rat esophageal epithelial cell lines tested; but did not react with primary cultures of normal rat esophageal epithelial cells or fibroblasts. mAb 5G did not bind to rat respiratory tract carcinoma cell lines, to immortalized rat tracheal epithelial cell lines, or to primary cultures of normal rat tracheal epithelial cells. In addition, mAb 5G did not react with any of the human or mouse cell lines tested. In IFA experiments, mAb 5G stained imprints prepared from in vivo propagated B2T tumor tissues, but did not react with normal rat esophageal, tracheal, lung, liver, and kidney tissues. The antigen was identified by TLC as a neutral glycolipid, consisting of two bands, withR _F = 0.45 and 0.41, which migrated in proximity to the ceramide trihexoside standard on TLC plates. Densitometric scanning of the antigen bands indicated that the tumorigenic rat esophageal cell lines possessed 50%–90% more mAb-5G-reactive antigen than the nontumorigenic esophageal cell lines. The results show that mAb 5G reacts specifically with a glycolipid antigen expressed by tumorigenic and certain non-tumorigenic, immortalized rat esophageal epithelial cell lines that might be at the late stages of transformation and early malignancy.     

In Vitro transformation of LW13 Rat liver epithelial Cells

A rat liver epithelial cell line designated LW 13 was established using a sequential sedimentation method.The cell line retained many normal proerties of liver epithelial cells and showed some structural and functional features resembling those of liver parenchymal cells,LW13 cells became malignant after the intrduction of exogenous transforming EJ Ha ras gene,Tumors produced by inoculation of the transformed cells into baby rats contained areas of poorly differentialted hepatocellular carcinoma,In situ hybridization analysis confirmed the random rather than specific integration of exogenous ras gene into host chromosomes.Furthermore,an at least tenfold increase in the expression of the endogenous c mys gene was detected among transformed cell lines,suggesting the involvement of the c myc proto oncogene in the in vitro transformation of rat liver epithelial cells by EJ Ha ras oncogene.