The effect of modifications of p53 expression on the incidence of numerical and structural chromosome aberrations was studied. Infection of LIM1215 cells containing two alleles of the wild-type p53 gene (P53wt) with the recombinant viruses that expressed mutant cDNAs coding for human p53 (His273, Trp248, and His175) resulted in appearance of hyperdiploid cells in populations and an increased proportion of metaphases with chromosome breakage. Expression of the exogenous p53wt or vectors HSG/neo and pPS/neo, which did not contain the p53 cDNA, did not induce numerical or structural chromosome aberrations. Treatment of cells with caffeine decreased the p53wt content and increased the proportion of metaphases with chromosome breaks; however, it did not induce hyperdiploidy in the majority of cell lines. Only in the subline that expressed the exogenous p53Trp248 did caffeine treatment increase the proportion of hyperdiploid variants, which was correlated with the hyperexpression of the product of the mutant allele. The increase in the frequency of chromosome breaks probably resulted from p53wt inactivation, whereas changes in chromosome number might be induced by some additional activities of p53 determined by mutations. Possible mechanisms for inducing heteroploidy by mutant p53 variants, including the role of endoreduplication in inducing hyper- and polyploidy, are discussed.