The role of polyamines, Na(+) and K(+) in the formation of triple helices between purine oligonucleotides and the promoter region of the human c-src proto-oncogene.

Binding constants for triplex formation between purine-rich oligonucleotides and a pyrimidine.purine tract of the human c-src proto-oncogene were measured by fluorescence polarization in the presence of polyamines, Na(+) and K(+). In both the hexamine and tetramine series, the longer polyamines had the larger binding constants for triplex formation at low concentrations of polyamine. At higher concentrations all values tended to plateau in the 10(9)/M range. In contrast to previous reports, K(+) did not inhibit triplex formation and at 150 mM the binding constants were again in the 10(9)/M range for both an 11mer and 22mer oligonucleotide. At 150 mM K(+) the addition of polyamines did not lead to any significant increase in the binding constants. It was determined that the lack of inhibition by K(+) was due to the low concentration (1 nM) of purine oligonucleotide required for the fluorescence polarization technique. At higher concentrations (1 microM) self-association of the oligonucleotide was observed. These results suggest that in vivo, at least for the c-src promoter, the inhibition of triplex formation by K(+) may not be detrimental. However, it may be difficult to achieve binding constants above approximately 10(9)/M even in the presence of polycations.