Biochemical analysis of the role of transmethylation in the methionine dependence of tumor cells.

The effects on methionine metabolism of the substitution of homocysteine for methionine in vitro were investigated in normal and tumor cell lines differing in their ability to utilize homocysteine for growth. The major finding of this study was that methionine-independent (Met-Indep) cell lines had much lower basal transmethylation rates than methionine-dependent (Met-Dep) cell lines. This was particularly evident in the parent SP1 cell line and its Met-Indep revertant, SP1-R. SP1-R compensated for a lack of methionine by reducing both its transmethylation and growth rates. An analysis of other potential differences in methionine metabolism between Met-Dep and Met-Indep cell lines failed to demonstrate any consistent abnormalities in all but the absolutely Met-Dep MDAY-D2 cell line. Thus, protein, S-adenosylmethionine, and polyamine synthesis were the same in Met-Dep and Met-Indep cell lines. These results indicate that the major regulatory step in determining the Met-Dep phenotype is an inherent increase in the rate of transmethylation reactions. Cell lines with high basal transmethylation rates cannot compensate for a relative deficiency of methionine and either cease growing (MDAY-D2) or generate revertants (SP1-R) for which the basal rate of transmethylation is considerably reduced.