与分子佐剂支持的肌肉注射相比,通过纹身接种dna疫苗可诱导更强的体液和细胞免疫反应。

Dana Pokorna, Ivonne Rubio, Martin Müller
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引用次数: 9

摘要

纹身是许多DNA传递方法之一,其结果是在皮肤的表皮和真皮层中有效地表达引入的基因。纹身过程会造成许多轻微的机械损伤,随后会导致出血、坏死、炎症和皮肤再生,因此会非特异性地刺激免疫系统。与肌肉注射DNA相比,通过纹身传递的DNA疫苗可诱导更高的特异性体液和细胞免疫反应。在这项研究中,我们重点比较了DNA免疫方案使用不同的DNA给药途径(皮内纹身与肌肉注射)和分子佐剂(心脏毒素预处理或GM-CSF DNA共递送)。为了进行比较,我们使用16型人乳头瘤病毒的主要衣壳蛋白L1作为模型抗原。用50微克质粒DNA免疫3次和4次后检测l1特异性免疫应答。心毒素预处理或GM-CSF DNA共递送可显著增强肌肉注射DNA疫苗的效力,但对皮内纹身疫苗几乎没有影响。两种佐剂的促进作用在三次而不是四次免疫后更为明显。然而,三次无佐剂的DNA纹身免疫诱导的l1特异性体液免疫反应明显高于三次甚至四次有分子佐剂的肌肉内DNA注射。纹身也比肌肉注射DNA和佐剂联合引起更高的l1特异性细胞免疫反应。此外,接受纹身装置治疗的小鼠淋巴细胞在有丝分裂原刺激后增殖更强烈,这表明纹身后存在炎症反应。纹身传递DNA是一种经济有效的方法,可用于实验室条件下,当需要更快速和更强大的免疫反应。
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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DNA-vaccination via tattooing induces stronger humoral and cellular immune responses than intramuscular delivery supported by molecular adjuvants.

Tattooing is one of a number of DNA delivery methods which results in an efficient expression of an introduced gene in the epidermal and dermal layers of the skin. The tattoo procedure causes many minor mechanical injuries followed by hemorrhage, necrosis, inflammation and regeneration of the skin and thus non-specifically stimulates the immune system. DNA vaccines delivered by tattooing have been shown to induce higher specific humoral and cellular immune responses than intramuscularly injected DNA. In this study, we focused on the comparison of DNA immunization protocols using different routes of administrations of DNA (intradermal tattoo versus intramuscular injection) and molecular adjuvants (cardiotoxin pre-treatment or GM-CSF DNA co-delivery). For this comparison we used the major capsid protein L1 of human papillomavirus type 16 as a model antigen. L1-specific immune responses were detected after three and four immunizations with 50 microg plasmid DNA. Cardiotoxin pretreatment or GM-CSF DNA co-delivery substantially enhanced the efficacy of DNA vaccine delivered intramuscularly by needle injection but had virtually no effect on the intradermal tattoo vaccination. The promoting effect of both adjuvants was more pronounced after three rather than four immunizations. However, three DNA tattoo immunizations without any adjuvant induced significantly higher L1-specific humoral immune responses than three or even four intramuscular DNA injections supported by molecular adjuvants. Tattooing also elicited significantly higher L1-specific cellular immune responses than intramuscularly delivered DNA in combination with adjuvants. In addition, the lymphocytes of mice treated with the tattoo device proliferated more strongly after mitogen stimulation suggesting the presence of inflammatory responses after tattooing. The tattoo delivery of DNA is a cost-effective method that may be used in laboratory conditions when more rapid and more robust immune responses are required.

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