1. Transdermal microarrayed electroporation for enhanced cancer immunotherapy based on DNA vaccination.
- Author
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Yuan Wang, Jin Qu, Chuxiao Xiong, Bing Chen, Kai Xie, Mingxue Wang, Zhen Liu, Zhao Yue, Zhenghua Liang, Feng Wang, Tianlong Zhang, Guangyu Zhu, Yi Becki Kuang, and Peng Shi
- Subjects
GENE delivery techniques ,CYTOTOXIC T cells ,GENE transfection ,IMMUNOTHERAPY ,ELECTROPORATION - Abstract
Despite the tremendous clinical potential of nucleic acid-based vaccines, their efficacy to induce therapeutic immune response has been limited by the lack of efficient local gene delivery techniques in the human body. In this study, we develop a hydrogel-based organic electronic device (pEPO) for both transdermal delivery of nucleic acids and in vivo microarrayed cell electroporation, which is specifically oriented toward one-step transfection of DNAs in subcutaneous antigen-presenting cells (APCs) for cancer immunotherapy. The pEPO device contains an array of microneedle-shaped electrodes with pre-encapsulated dry DNAs. Upon a pressurized contact with skin tissue, the electrodes are rehydrated, electrically triggered to release DNAs, and then electroporate nearby cells, which can achieve in vivo transfection of more than 50% of the cells in the epidermal and upper dermal layer. As a proof-of-concept, the pEPO technique is employed to facilitate transdermal delivery of neoantigen genes to activate antigen-specific immune response for enhanced cancer immunotherapy based on a DNA vaccination strategy. In an ovalbumin (OVA) cancer vaccine model, we show that high-efficiency transdermal transfection of APCs with OVA-DNAs induces robust cellular and humoral immune responses, including antigen presentation and generation of IFN-Y+ cytotoxic T lymphocytes with a more than 10-fold dose sparing over existing intramuscular injection (IM) approach, and effectively inhibits tumor growth in rodent animals. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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