Abstract
Import of exogenous plasmid DNA (pDNA) into mammalian cell nuclei represents a key intracellular obstacle to efficient non-viral gene delivery. This includes access of the pDNA to the nuclei of non-dividing cells where the presence of an intact nuclear membrane is limiting for gene transfer. Here we identify, isolate, and characterize, cytoplasmic determinants of pDNA nuclear import into digitonin-permeabilized HeLa cells. Depletion of putative DNA-binding proteins, on the basis of their ability to bind immobilized pDNA, abolished pDNA nuclear import supporting the critical role of cytoplasmic factors in this process. Elution of pDNA-bound proteins, followed by two-dimensional sodium dodecyl polyacrylamide gel electrophoresis identified several candidate DNA shuttle proteins. We show that two of these, NM23-H2, a ubiquitous c-Myc transcription-activating nucleoside diphosphate kinase, and the core histone H2B can both reconstitute pDNA nuclear import. Further, we demonstrate a significant increase in gene transfer in non-dividing HeLa cells transiently transfected with pDNA containing binding sequences from two of the DNA shuttle proteins, NM23-H2 and the homeobox transcription factor Chx10. These data support the hypothesis that exogenous pDNA binds to cytoplasmic shuttle proteins and is then translocated to the nucleus using the minimal import machinery. Importantly, increasing the binding of pDNA to shuttle proteins by re-engineering reporter plasmids with shuttle binding sequences enhances gene transfer. Increasing the potential for exogenously added pDNA to bind intracellular transport cofactors may enhance the potency of non-viral gene transfer.
Highlights
Import of exogenous plasmid DNA into mammalian cell nuclei represents a key intracellular obstacle to efficient non-viral gene delivery
We report that whereas addition of purified importin-␣, -, and Ran is sufficient to support protein nuclear import, plasmid DNA (pDNA) nuclear import requires complementation with purified cytoplasmic extract, and is was produced using the Qiagen Endo- (WGA) inhibitable
We demonstrate a ϳ2-fold enhancement of gene transfer upon insertion of DNA binding sequences from representative DNA shuttle proteins, NM23-H2 and homeobox transcription factor Chx10, into reporter gene plasmids
Summary
Import of exogenous plasmid DNA (pDNA) into mammalian cell nuclei represents a key intracellular obstacle to efficient non-viral gene delivery. We demonstrate a significant increase in gene transfer in non-dividing HeLa cells transiently transfected with pDNA containing binding sequences from two of the DNA shuttle proteins, NM23-H2 and the homeobox transcription factor Chx10 These data support the hypothesis that exogenous pDNA binds to cytoplasmic shuttle proteins and is translocated to the nucleus using the minimal import machinery. For non-dividing cells, pDNA cyto-nucleoplasmic transport is likely to be a facilitated process that is mediated by the interaction of soluble cytoplasmic factors with the minimal nuclear transport machinery In support of this notion, one of our laboratories has previously demonstrated that, whereas addition of purified importin-␣, -, and Ran was sufficient to support protein nuclear import, pDNA nuclear import required complementation with purified nuclear extracts [4]. This approach has produced conflicting results, due to confounding factors that include the large size of the DNA molecule compared with the small peptide; masking of the peptide activity by strong interaction of the positively charged peptide with the negatively charged DNA, and modification of the physicochemical properties of the cationic lipid/plasmid complexes by the NLS peptide [6]
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