Nanoparticles Formation of Philippine Carrageenan with pDNA/polyethylenimine and pDNA/Chitosan as Monitored by Atomic Force Microscopy (AFM) for Potential use in Gene Delivery

Asian Journal of Biological and Life Sciences,2016,5,1,9-14.
Published:April 2016
Type:Research Article
Authors:
Author(s) affiliations:

Annabelle V. Briones1, Toshinori Sato2

1Industrial Technology Development Institute DOST Compd., Gen. Santos Ave., Bicutan, Taguig City, PHILIPPINES.

2Department of Biosciences and Informatics, Keio University 3-14-1 Hiyoshi, Kouhoku-ku, Yokohama, 223-8522, JAPAN.

Abstract:

Philippine carrageenan, was interacted with pDNA/PEI and pDNA/chitosan nanoparticles to study its effect on DNA condensation for potential use in non-viral gene delivery. Complexation and DNA condensation was monitored by atomic force microscopy. A cloud like structure was observed in the image of carrageenan-PEI complex as compared with the complex of carrageenan-chitosan which is more compact showing a fibrous structure. When pDNA was complexed with -carrageenan a distinct morphology was observed. The structure showed the formation of linear strands of DNA into a web-like structure or a network without interlacing with the single stranded chains of carrageenan. Using an N/P ratio of 5, pDNA was not condensed using the different types of carrageenan. All of the images formed a cloud-like or dendritic structures. The complex of chitosan and carrageenan showed a poor medium for DNA condensation as observed in the micrograph. pDNA is more condensed with PEI-carrageenan complex than chitosan-carrageenan combination. The electrostatic interaction of carrageenan with PEI was able to condense the DNA at N/P ratio of 3.3 better than chitosan-carrageenan interaction with an N/P ratio of 5. Comparing the three types of Philippine carrageenan in the interaction of pDNA/PEI, iota type forms a good complex with PEI that can condense DNA, which is an important aspect in gene delivery.