ABSTRACT
BACKGROUND & OBJECTIVE: Poly-l-lysine-modified silica nanoparticle(PMS-NP) was a novel non-viral vector for gene delivery. The current study was designed to evaluate the biocompatibility of PMS-NP for its further utilization in vivo. METHODS: Cell transfection and flow cytometry were used to elucidate the delivery efficiency of plasmid DNA and antisense ODN mediated by PMS-NP in the presence of serum-containing medium. Subsequently, the biocompatibility of PMS-NP in vivo was evaluated using filtration assay of plasma proteins and erythrocyte aggregation assay. RESULTS: The abilities of PMS-NP to deliver plasmid DNA and antisense ODN in vitro clearly decreased in the presence of serum-containing medium. PMS-NP/DNA(ODN)complexes bound plasma proteins and triggered erythrocyte aggregation. CONCLUSION: PMS-NP might interact with plasma proteins, resulting in decreased transfection efficiency in vitro. And filtration assay of plasma proteins and the erythrocyte aggregation assay demonstrated that the interaction of PMS-NP with plasma proteins and erythrocytes might play a negative role in gene transfection efficiency in vivo. And its biocompatibility needs to be further improved.
