Composites of peptide nucleic acids with ttitanium dioxide nanoparticles. I. Construction of nanocomposites containing DNA/PNA duplexes and their delivery into HeLa cells

Abstract

In order to investigate the possibility of using titanium dioxide (TiO2) nanoparticles to transport peptide nucleic acids (PNA) in eukaryotic cells, a PNA oligomer has been synthesized, and method of PNA immobilization in the form of hybrid DNA/PNA duplexes on the surface of TiO2 nanoparticles covered with polylysine (PL) has been designed. Attaching of DNA/PNA duplex on TiO2 x PL nanoparticles occurred due to electrostatic interactions between the negatively charged DNA chain and the positively charged amino groups of PL. Binding of the PNA with the nanocomposite achieved through noncovalent Watson-Crick interactions between the PNA and complementary DNA. The capacity of obtained TiO2 x PL x DNA/PNA nanocomposites depending on immobilization conditions was 10-30 nmol PNA per 1 mg of TiO2 particles, which corresponds to -1-3 PNA molecules per one TiO2 particle with size of 4-6 nm. By method ofconfocal laser scanning microscopy on the example of the fluorescein labeled PNA oligomer (Flu)PNA it has been shown that the PNA molecules in composition of TiO2 x PL x DNA/(Flu)PNA nanocomposites effectively penetrate and accumulate in HeLa cells without the use oftransfection agents, electroporation, or other auxiliary procedures has been shown.