Wen-Chi Tseng1, Chien-Hsiang Tang, Tsuei-Yun Fang. 1. Department of Chemical Engineering, National Taiwan University of Science and Technology, Taipei, Taiwan. tsengwc@ch.ntust.edu.tw
Abstract
BACKGROUND: Conjugation through primary amines is one of the most commonly used methods to modify polycationic vectors for gene delivery. A better understanding of the effect of the conjugation on the mechanisms of transgene expression can help design efficient polycationic vectors. METHODS: Dextran with a molecular weight of 1500 was grafted onto polyethylenimine (PEI) to produce various degrees of grafting in an effort to investigate how the conjugation affected the mechanisms of transgene expression. Flow cytometry was employed to quantitate the cellular entry of plasmid and the level of transgene expression, which were measured using ethidium monoazide labeled plasmid and green fluorescent protein (GFP), respectively. The buffering capacity of the grafted PEI was determined by titration, and the integrity of the DNA-polymer complexes were examined by exposure to heparin. RESULTS: Grafting of dextran onto PEI was found to significantly diminish the cytotoxicity, buffering capacity, cellular entry, and the integrity of the DNA-polymer complexes. The reductions enlarged as the degree of grafting increased from 0 to 1.84%; however, at an optimal degree of grafting, the dextran-grafted PEI enhanced the percentages of GFP-positive cells to a level 3 times and 1.3 times of those mediated by unmodified PEI for CHO and MDA-MB-231 cells, respectively. CONCLUSIONS: These results demonstrated that the conjugation of dextran onto the primary amines of PEI inhibited the entry of plasmid across the cell membrane, but the change in the structures of the DNA-polymer complexes was able to promote transgene expression when the degrees of conjugation fell below 0.64%.
BACKGROUND: Conjugation through primary amines is one of the most commonly used methods to modify polycationic vectors for gene delivery. A better understanding of the effect of the conjugation on the mechanisms of transgene expression can help design efficient polycationic vectors. METHODS:Dextran with a molecular weight of 1500 was grafted onto polyethylenimine (PEI) to produce various degrees of grafting in an effort to investigate how the conjugation affected the mechanisms of transgene expression. Flow cytometry was employed to quantitate the cellular entry of plasmid and the level of transgene expression, which were measured using ethidium monoazide labeled plasmid and green fluorescent protein (GFP), respectively. The buffering capacity of the grafted PEI was determined by titration, and the integrity of the DNA-polymer complexes were examined by exposure to heparin. RESULTS: Grafting of dextran onto PEI was found to significantly diminish the cytotoxicity, buffering capacity, cellular entry, and the integrity of the DNA-polymer complexes. The reductions enlarged as the degree of grafting increased from 0 to 1.84%; however, at an optimal degree of grafting, the dextran-grafted PEI enhanced the percentages of GFP-positive cells to a level 3 times and 1.3 times of those mediated by unmodified PEI for CHO and MDA-MB-231 cells, respectively. CONCLUSIONS: These results demonstrated that the conjugation of dextran onto the primary amines of PEI inhibited the entry of plasmid across the cell membrane, but the change in the structures of the DNA-polymer complexes was able to promote transgene expression when the degrees of conjugation fell below 0.64%.
Authors: Alireza Nouri; Rita Castro; Visvaldas Kairys; José L Santos; João Rodrigues; Yulin Li; Helena Tomás Journal: J Mater Sci Mater Med Date: 2012-09-04 Impact factor: 3.896