Enhanced Non-viral Gene Delivery Via Calcium Phosphate/DNA Co-precipitates with Low-voltage Pulse Electroporation in NK-92 Cells for Immunocellular Therapy

Overview

Journal APL Bioeng

Date 2024 Aug 12

PMID 39131207

Authors

Che-Yung Kuan

I-Hsuan Yang

Chia-Ting Chang

Zhi-Yu Chen

Jhih-Ni Lin

Wei-Ting Kuo

Yu-Ying Lin

Andrew Yueh

Feng-Huei Lin

Affiliations

Soon will be listed here.

Abstract

Achieving high cell transfection efficiency is essential for various cell types in numerous disease applications. However, the efficient introduction of genes into natural killer (NK) cells remains a challenge. In this study, we proposed a design strategy for delivering exogenous genes into the NK cell line, NK-92, using a modified non-viral gene transfection method. Calcium phosphate/DNA nanoparticles (pDNA-CaP NPs) were prepared using co-precipitation methods and combined with low-voltage pulse electroporation to facilitate NK-92 transfection. The results demonstrated that the developed pDNA-CaP NPs exhibited a uniform diameter of approximately 393.9 nm, a DNA entrapment efficiency of 65.8%, and a loading capacity of 15.9%. Furthermore, at three days post-transfection, both the transfection efficiency and cell viability of NK-92 were significantly improved compared to standalone plasmid DNA (pDNA) electroporation or solely relying on the endocytosis pathway of pDNA-CaP NPs. This study provides valuable insights into a novel approach that combines calcium phosphate nanoparticles with low-voltage electroporation for gene delivery into NK-92 cells, offering potential advancements in cell therapy.

Citing Articles

Calcium Phosphate Nanoparticles as Carriers of Low and High Molecular Weight Compounds.

Popova E, Tikhomirova V, Akhmetova A, Ilina I, Kalinina N, Taliansky M Int J Mol Sci. 2024; 25(23).

PMID: 39684598 PMC: 11641504. DOI: 10.3390/ijms252312887.

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