Insights into the Influences of Carboxymethyl-β-Cyclodextrin on DNA Formulations Characteristics and Gene Transfection Efficiency

Abstract

Background: Gene therapy is an expanding field and it can treat genetic and acquired diseases.

Objective: It was found that formulations with DNA: CM-β-CD (Carboxymethyl-beta-cyclodextrin): Pluronic-F127 1:3:3 and 1:3 DNA: CM-β-CD are the most stable formulations indicating high incorporation of DNA within CM-β -CD.

Method: Gel electrophoresis revealed DNA with low CM-β -CD concentration has formed a more stable complex. Samples 1:3 DNA: CM-β-CD and 1:3:3 DNA: CM-β-CD: Pluronic-127 show no DNA fragment, suggesting good condensation of DNA inside cyclodextrin cavity.

Results: This was confirmed by fluorescence data where fluorescence intensity was reduced for samples DNA: CM-β-CD 1:3. Overall, the findings showed that Carboxymethyl-beta-cyclodextrin (as a novel non-viral gene vector) was able to provide condensation and protection to the DNA, with and without Pluronic-F127, at low concentration.

Conclusion: pDNA/CM-β-CD complex has not only shown to be able to transfect COS 7 and SHSY5Y cell lines, but it gives a higher transfection efficiency than that produced by the TransIT-LT1 commercial transfection reagent.

Keywords: Carboxymethyl-β-cyclodextrin; freeze drying; gel electrophoresis; gene therapy; pDNA; transfection..