Multiple effects on drug-sensitivity, genome stability and malignant potential by combinations of h-ras, C-myc and mutant p53 gene overexpression |
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Authors: | Huang A Jin H Taylor W Wright J |
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Affiliation: | UNIV MANITOBA,MANITOBA INST CELL BIOL,WINNIPEG,MB R3E 0V9,CANADA. |
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Abstract: | Activation of specific oncogenes and inactivation of tumor suppressor genes play major roles in mechanisms leading to neoplastic transformation. The potential involvement of these genes in determining genome stability is an important issue. To examine the relationships between altered oncogene expression and the effects on genome stability, we have investigated the drug sensitivity properties of mouse 10T1/2 fibroblasts transfected with combinations of H-ras, c-myc and the proline 193 mutant form of p53. The relative colony forming efficiencies of these cells were investigated in the absence or presence of various concentrations of the chemotherapeutic agents, methotrexate, N-(phosphonacetyl)-L-aspartate (PALA) or hydroxyurea. The effects of altered oncogene expression were found to be drug and locus specific, and to lead to increased drug resistance (e.g. H-ras transfectants were significantly resistant to methotrexate or PALA), decreased drug resistance (e.g. H-ras/-myc transfectants were significantly less resistant to PALA or hydroxyurea than H-ras transfected cells), or to no significant change in drug sensitivity (e.g. H-ras transfected cells were not significantly different in sensitivity to hydroxyurea than non-transfected cells). Gene amplification was an important but not the only mechanism for drug resistance. Cells that were transfected with p53 (H-ras/p53 or H-ras/c-myc/p53) exhibited the greatest drug resistance properties with all three chemotherapeutic agents, in keeping with the important role of p53 in DNA repair and DNA amplification mechanisms. Although both H-ras/p53 and H-ras/c-myc/p53 groups exhibited very similar genome stability characteristics as determined by drug sensitivity results, they were significantly different in their abilities to produce transformed foci in vitro and lung metastases in vivo. The H-ras/c-myc/p53 transfected cells formed significantly higher numbers of transformed foci and exhibited a greater malignant potential. These results are consistent with observations that H-ras expression directly correlates with malignant potential, and that H-ras/c-myc/p53 transfected cells have higher H-ras expression than H-ras/p53 transfected cells. Alterations in genomic integrity through changes in onocogene expression play important roles in mechanisms determining drug sensitivity; in addition to genome destabilization, other events are critically involved in regulating transformed and malignant characteristics. |
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