Issue 33, 2015

Preparation of optimized lipid-coated calcium phosphate nanoparticles for enhanced in vitro gene delivery to breast cancer cells

Abstract

Lipid coated calcium phosphate (LCP) nanoparticles (NPs) remain an attractive option for siRNA systemic delivery. Previous research has shown that the stoichiometry of reactants affects the size and morphology of nanostructured calcium phosphate (CaP) particles. However, it is unclear how synthesis parameters such as the Ca/P molar ratio and mixing style influence the siRNA loading and protection by LCP NPs, and subsequent siRNA delivery efficiency. In this research, we found that the Ca/P molar ratio is critical in controlling the size, zeta potential, dispersion state, siRNA loading and protection. Based on the siRNA loading efficiency and capacity as well as siRNA protection effectiveness, we suggested an optimized LCP NPs delivery system. The optimized LCP NPs had a hollow, spherical structure with the average particle size of ∼40 nm and were able to maintain their stability in serum containing media and PBS for over 24 h, with a pH-sensitive dissolution property. The superior ability of optimized LCP NPs to maintain the integrity of encapsulated siRNA and the colloidal stability in culture medium allow this formulation to achieve improved cellular accumulation of siRNA and enhanced growth inhibition of human breast cancer cells in vitro, compared with the commercial transfection agent OligofectamineTM.

Graphical abstract: Preparation of optimized lipid-coated calcium phosphate nanoparticles for enhanced in vitro gene delivery to breast cancer cells

Supplementary files

Article information

Article type
Paper
Submitted
14 May 2015
Accepted
29 Jul 2015
First published
29 Jul 2015

J. Mater. Chem. B, 2015,3, 6805-6812

Author version available

Preparation of optimized lipid-coated calcium phosphate nanoparticles for enhanced in vitro gene delivery to breast cancer cells

J. Tang, L. Li, C. B. Howard, S. M. Mahler, L. Huang and Z. P. Xu, J. Mater. Chem. B, 2015, 3, 6805 DOI: 10.1039/C5TB00912J

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