Non-Viral Gene Transfer

Challenges in non-viral ocular gene transfer.

Nowadays, there is no effective treatment for many retinal disorders. Knowledge of the genetic basis of many severe ocular diseases may allow for alternative treatments by gene therapy. Non-viral gene complexes, such as lipo- and poly-plexes, can be delivered to the posterior segment, most often the target tissue, by intravitreal or subretinal injection. Since subretinal injections are very inv...

Transposons for Non-Viral Gene Transfer

DNA based transposon vectors offer a mechanism for non-viral gene delivery into mamma‐ lian and human cells. These vectors work via a cut-and-paste mechanim whereby transpo‐ son DNA containing a transgene(s) of interest is integrated into chromosomal DNA by a transposase enzyme. The first DNA based transposon system which worked efficienty in human cells was sleeping beauty. This was followed a...

Predictive modeling of non-viral gene transfer.

In non-viral gene delivery, the variance of transgenic expression stems from the low number of plasmids successfully transferred. Here, we experimentally determine Lipofectamine- and PEI-mediated exogenous gene expression distributions from single cell time-lapse analysis. Broad Poisson-like distributions of steady state expression are observed for both transfection agents, when used with synch...

Non Viral Gene Transfer Approaches for Lysosomal Storage Disorders

Nucleocytoplasmic transport of DNA: enhancing non-viral gene transfer.

Gene therapy, the correction of dysfunctional or deleted genes by supplying the lacking component, has long been awaited as a means to permanently treat or reverse many genetic disorders. To achieve this, therapeutic DNA must be delivered to the nucleus of cells using a safe and efficient delivery vector. Although viral-based vectors have been utilized extensively due to their innate ability to...