Nanoparticle as a new gene transferring vector in VEGF gene transfection
- VernacularTitle:纳米粒子介导血管内皮生长因子基因转染的实验研究
- Author:
Fu YI
;
Hong WU
;
Guoliang JIA
- Publication Type:Journal Article
- Keywords:
transfection;
nanoparticle;
vascular endothelial growth factors
- From:
Medical Journal of Chinese People's Liberation Army
1982;0(03):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To evaluate the possibility and efficiency of nanoparticles as a new vector in vascular endothelial growth factor (VEGF) gene transfection. Methods Nanoparticle-VEGF (Np/VEGF)complex was prepared with poly (D, L-lactide-co-glycolide) (PLGA) loading VEGF165 gene using the multiple emulsion (w/o/w) technique. The envelopment efficiency and size of the complex were determined. Rat myocardial cells were cultured in vitro, and the Np/VEGF was transfected into the cultured myocardial cells. Then RT-PCR and ELISA were used to evaluate whether the Np/VEGF increased the level of gene expression. Four New Zealand rabbits were used, the suspension of Np/VEGF was injected into myocardial tissue of rabbits after thoracotomy. 96h after the operation, the tissue sections of the implant sites were observed with transmission electron microscope (TEM) to determine the process of nanoparticles as vectors for gene transfer to cardiac myocytes. Results The envelopment efficiency and size of the Np/VEGF complex thus prepared were 1.87% and 25-300nm respectively. RT-PCR and ELISA showed that VEGF gene could be successfully transfected into myocardial cells by nanoparticle, and NP/VEGF significantly enhanced gene transfection efficiency, and it was more effective than plasmid. 96h after the operation, a great number of nanoparticles were observed in myocardial cytoplasm and nucleus with TEM, and many nanoparticles began to dissolve and degrade, suggesting that the DNA was released slowly from the nanoparticles localized in the cytoplasmic compartment, and was then transferred into the nucleus. Conclusions NP/VEGF can act as a vector to transfect VEGF gene in vitro and in vivo, it significantly enhanced gene transfection efficiency, and it was more effective than plasmid.