AI Article Synopsis
- The study aimed to enhance chitosan's ability to transfer genes by adding phosphorylcholine (PC) and diethylaminoethyl (DEAE) groups, resulting in new derivatives with improved properties.
- These derivatives showed lower cytotoxicity compared to traditional lipid vectors and formed smaller nanoparticles that increased transfection efficiency in HeLa cells, especially those with 20% PC and high DEAE content.
- The most effective derivative, PC18CH, was also successful in delivering siRNA, demonstrating its potential as a more efficient gene delivery system for future in vivo applications.
Article Abstract
The purpose of this work was to improve the functional properties of chitosan for gene transfer by inserting phosphorylcholine (PC) and diethylaminoethyl (DEAE) groups into the main chain. A series of derivatives containing increasing contents of DEAE and a fixed content of PC groups were synthesized and characterized, aiming to evaluate the effect of these groups on the nanoparticles' properties and the in vitro transfection efficiency. The derivatives were soluble at physiological pH levels and all derivatives were less cytotoxic than the control, the lipid lipofectamine. The obtained derivatives complexed pDNA into nanoparticles with smaller sizes and higher zeta potentials than plain chitosan. The in vitro transfection was performed with nanoparticles prepared at pH 6.3 and 7.4 and the results showed that nanoparticles prepared with derivatives containing 20% of PC groups (PC18-CH) and high degrees of substitution by DEAE (PC20-CH-DEAE100, CH-DEAE80, CH-DEAE100) displayed the better transfection efficiencies in HeLa cells, reaching relative values comparable to lipofectamine. The most effective derivative, PC18CH, was selected for complexation with siRNA and its complexes demonstrated an in vitro knockdown efficiency highly dependent on the N/P ratio. Our combined results indicated that, by means of controlled modifications, the limitations of chitosan can be overcome to obtain more effective carriers based on chitosan, and the derivatives here studied hold potential for in vivo studies.
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| http://dx.doi.org/10.1080/09205063.2016.1225333 | DOI Listing |
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