We have sequenced p53 in three colon cancer cell lines capable of autonomous proliferation. SNU-C1 and SNU-C4 cells, whose autonomous growth is dependent upon autocrine stimulation of epidermal growth factor receptor (EGFR), had wildtype p53 sequence of exons 4-9. In contrast, an EGFR ligand-independent cell line, SNU-C5, had heterozygous missense mutations affecting codons 218 (valine to leucine) and 248 (arginine to tryptophan) of p53. Bacterial cloning of p53 from SNU-C5 cells showed that the 248trp and 218leu mutants were both expressed and on separate alleles. 248trp is a common 'hot spot' mutant of p53 with variable dominant negative activity depending on the celullar context. Valine 218, in contrast, is rarely affected by mutation in cancers and is located in a region of the hydrophobic core domain away from 'hot spot' DNA contact sights. However, valine 218 is completely conserved across species, prompting us to investigate the function of 218leu in SNU-C5 cells. SNU-C5 cells exhibited complete loss of normal p53 function as evidenced by over-expression of p53 protein and by failure to show induction of p53, waf-1, mdm-2 or G1/S arrest in response to the DNA damaging agent, bleomycin. In a yeast p53 functional assay (FASAY), 50% of the clones were unable to transactivate a p53-specific promoter required for yeast colony expansion at 25, 30 or 37 degrees C. Sequencing of the p53 insert from several randomly selected wild-type and mutant yeast clones revealed that 218leu-bearing clones retained their ability to transactivate the p53-specific promoter. As expected, the 248trp-bearing clones lost this function. These data indicate that although 218leu retains normal transactivation activity on a p53 promoter in yeast at physiological temperatures, it is not capable of normal p53 function in the presence of a 248trp allele in SNU-C5 cells. It remains unclear whether the strong dominant negative activity of 248trp in SNU-C5 cells is related to the cellular context or to an unresolved abnormality of 218leu function.