Biochemical and Biophysical Research Communications, Vol.319, No.2, 426-432, 2004
pDNA bioparticles: comparative heterogeneity, surface, binding, and activity analyses
New applications for nucleic acid-bound micro/nanoparticles are emerging in drug delivery, biocatalysis, diagnostics, and toxicology. Bioactivity of viral or liposomal based technologies is limited by heterogeneity, partitioning, aggregation, and protein binding in physiological fluids, underlying immunotoxicity, and poor in vitro and cell-culture corollaries. Here we have systematically investigated novel pDNA bioparticles formed through complexation to model non-viral/non-lipid materials, peptides, aminoglycans, and small molecules (polybrene, chitosan, butirosin, protamine, Lys10, RGDS, bupivacaine, and chlorpromazine). On the basis of characterization by heterogeneity, kinetics, partitioning in physiological fluid and serum protein-binding, surface, size and electrophoretic behavior, transfection, and immunotoxicity, notably protamine, and chitosan DNA particles gave a long lifetime (12-18 h), low protein-binding (< 10 mug/ml), good transfection activity (10(2)-10(4) RLU/mg cell protein), and low immunotoxicity. Our results support further evaluation of these materials as potential alternatives to viral or liposomal approaches, in combination with pDNA as binding, expression or therapeutic agents. (C) 2004 Elsevier Inc. All rights reserved.