- Grigsby, C. L. and Leong, K. W., Balancing protection and release of DNA: tools to address a bottleneck of non-viral gene delivery,
Journal of the Royal Society Interface, vol. 7
pp. S67-S82 .
(last updated on 2010/06/11)
Engineering polymeric gene-delivery vectors to release an intact DNA payload at the optimal time and subcellular compartment remains a formidable challenge. An ideal vector would provide total protection of complexed DNA from degradation prior to releasing it efficiently near or within the nucleus of a target cell. While optimization of polymer properties, such as molecular weight and charge density, has proved largely inadequate in addressing this challenge, applying polymeric carriers that respond to temperature, light, pH and redox environment to trigger a switch from a tight, protective complex to a more relaxed interaction favouring release at the appropriate time and place has shown promise. Currently, a paucity of gene carriers able to satisfy the contrary requirements of adequate DNA protection and efficient release contributes to the slow progression of non-viral gene therapy towards clinical translation. This review highlights the promising carrier designs that may achieve an optimal balance of DNA protection and release. It also discusses the imaging techniques and three-dimensional in vitro models that can help study these two barriers in the non-viral gene transfer process. Ultimately, efficacious non-viral gene therapy will depend on the combination of intelligent material design, innovative imaging techniques and sophisticated in vitro model systems to facilitate the rational design of polymeric gene-delivery vectors.
non-viral gene delivery nanomedicine biophotonics responsive delivery nanoparticle polyplex resonance energy-transfer bioreducible poly(amido amine)s multicellular tumor spheroids plasmid DNA in-vitro correlation spectroscopy extracellular-matrix intracellular trafficking transfection efficiency polymer micelles