Composites of peptide nucleic acids with titanium dioxide nanoparticles. III. Kinetics of PNA dissociation from nanocomposites containing DNA/PNA duplexes

When delivering peptide nucleic acids (PNA) into cells in the TiO₂ · PL · DNA/PNA nanocomposites consisting of titanium dioxide nanoparticles coated with polylysine (PL) and immobilized DNA/PNA duplexes, it is important to control the rate of the release of PNA from the carrier due to dissociation of the immobilized DNA/PNA duplex, followed by the desorption of PNA to solution while the DNA remains on the carrier. It was found that the rate constant of dissociation of the DNA/PNA duplex in the TiO₂ · PL · DNA/PNA nanocomposites depended on the number of complementary bases in the duplex. The half-retention time values for PNA in the studied nanocomposites containing the duplexes with 10, 12, 14, and 16 overlapping complementary base pairs were 10, 14, 22, and 70 min, respectively. Thus, it was shown that the rate of the release of PNA from the proposed nanocomposites can be controlled by varying the number of overlapping complementary base pairs in the immobilized DNA/PNA duplex. The method of the PNA immobilization may be used for designing nanocomposites having the optimum time value of the PNA release. The proposed TiO₂ · PL · DNA/PNA nanocomposites can be used to efficiently deliver therapeutically significant PNA drugs for their selective effect on pathogenic nucleic acids in cells.