A combination of intradermal jet-injection and electroporation overcomes in vivo dose restriction of DNA vaccines.

Genetic Vaccines and Therapy Pub Date : 2012-08-08 DOI:10.1186/1479-0556-10-5

David Hallengärd, Andreas Bråve, Maria Isaguliants, Pontus Blomberg, Jenny Enger, Richard Stout, Alan King, Britta Wahren

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引用次数: 29

Abstract

Unlabelled:

Background: The use of optimized delivery devices has been shown to enhance the potency of DNA vaccines. However, further optimization of DNA vaccine delivery is needed for this vaccine modality to ultimately be efficacious in humans.

Methods: Herein we evaluated antigen expression and immunogenicity after intradermal delivery of different doses of DNA vaccines by needle or by the Biojector jet-injection device, with or without the addition of electroporation (EP).

Results: Neither needle injection augmented by EP nor Biojector alone could induce higher magnitudes of immune responses after immunizations with a high dose of DNA. After division of a defined DNA dose into multiple skin sites, the humoral response was particularly enhanced by Biojector while cellular responses were particularly enhanced by EP. Furthermore, a close correlation between in vivo antigen expression and cell-mediated as well as humoral immune responses was observed.

Conclusions: These results show that two optimized DNA vaccine delivery devices can act together to overcome dose restrictions of plasmid DNA vaccines.

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皮内注射和电穿孔的结合克服了DNA疫苗的体内剂量限制。

背景:使用优化的递送装置已被证明可提高DNA疫苗的效力。然而，要使这种疫苗方式最终在人类中有效，还需要进一步优化DNA疫苗的递送。方法:在皮内注射不同剂量的DNA疫苗(有或没有添加电穿孔(EP))后，通过针或Biojector喷射注射装置进行抗原表达和免疫原性评价。结果:高剂量DNA免疫后，无论是EP增强针头注射还是单独使用生物注射剂均不能诱导更高程度的免疫应答。在将一定剂量的DNA分成多个皮肤部位后，Biojector特别增强了体液反应，而EP特别增强了细胞反应。此外，体内抗原表达与细胞介导的免疫反应和体液免疫反应密切相关。结论:两种优化后的DNA疫苗递送装置可以协同作用，克服质粒DNA疫苗的剂量限制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Genetic Vaccines and Therapy

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