Dielectrophoresis-assisted 3D Nanoelectroporation for Non-viral Cell Transfection in Adoptive Immunotherapy

Overview

Journal Lab Chip

Publisher Royal Society of Chemistry

Specialties Biotechnology
Chemistry

Date 2015 Jun 25

PMID 26105628

Citations 37

Authors

Lingqian Chang

Daniel Gallego-Perez

Xi Zhao

Paul Bertani

Zhaogang Yang

Chi-Ling Chiang

Veysi Malkoc

Junfeng Shi

Chandan K Sen

Lynn ODonnell

Jianhua Yu

Wu Lu

L James Lee

Affiliations

Soon will be listed here.

Abstract

Current transfection technologies lead to significant inter-clonal variations. Previously we introduced a unique electrotransfection technology, Nanochannel-Electroporation (NEP), which can precisely and benignly transfect small cell populations (~100-200 cells) with single-cell resolution. Here we report on the development of a novel 3D NEP system for large scale transfection. A properly-engineered array of nanochannels, capable of handling/transfecting ~60 000 cells cm(-2), was fabricated using cleanroom technologies. Positive dielectrophoresis was used to selectively position cells on the nanochannels, thus allowing highly efficient transfection. Single-cell dosage control was demonstrated using both small and large molecules, and different cell types. The potential clinical relevance of this system was tested with difficult-to-transfect natural killer cell suspensions, and plasmids encoding for the chimeric antigen receptor (CAR), a model of high relevance for adoptive immunotherapy. Our results show significantly higher CAR transfection efficiencies for the DEP-NEP system (>70% vs. <30%), as well as enhanced cell viabilities.

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