Targeting the skin for genetic immunization.

L D Falo
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引用次数: 38

Abstract

One of the most promising applications of recent advances in gene therapy is the development of immunization strategies based on the delivery of antigen-encoding DNA. DNA-based vaccination, also referred to as genetic vaccination or polynucleotide vaccination, offers considerable promise for improvement over existing immunization strategies, and the skin offers unique potential as a target tissue for genetic vaccines. The expression of genetically introduced antigens in a cutaneous microenvironment rich in both professional antigen-presenting cells and accessory cells, which are capable of producing immunostimulatory cytokines, has the potential to overcome the historical limitations of vaccinology and immunotherapy. Though the precise molecular mechanisms of genetic immunization remain unclear, a general working model of the events through which antigen-encoding plasmids introduced into the skin initiate an immune response can be constructed. The finding that Langerhans cells can be transfected in vivo raises the exciting possibility that these migrating professional antigen-presenting cells can be genetically engineered in vivo. By designing strategies to codeliver genes encoding antigens with genes encoding immunoregulatory molecules to the same antigen-presenting cell, it may be possible to either induce or suppress antigen-specific immune responses in the host. Though many aspects of the biology of cutaneous DNA immunization remain unknown, the skin appears to offer unique potential for the application of advances in gene therapy to vaccination and genetic engineering of the immune response.

针对皮肤进行基因免疫。
基因治疗的最新进展最有希望的应用之一是基于抗原编码DNA传递的免疫策略的发展。基于dna的疫苗接种,也被称为基因疫苗接种或多核苷酸疫苗接种,为改进现有的免疫策略提供了相当大的希望,皮肤作为基因疫苗的靶组织提供了独特的潜力。在富含专业抗原呈递细胞和辅助细胞的皮肤微环境中表达基因引入抗原,这些细胞能够产生免疫刺激细胞因子,有可能克服疫苗学和免疫治疗的历史局限性。虽然遗传免疫的精确分子机制尚不清楚,但可以构建一个通用的工作模型,通过该模型,抗原编码质粒被引入皮肤,从而启动免疫反应。朗格汉斯细胞可以在体内转染的发现,提出了一种令人兴奋的可能性,即这些迁移的专业抗原呈递细胞可以在体内进行基因工程改造。通过设计策略,将编码抗原的基因与编码免疫调节分子的基因共传递到同一个抗原提呈细胞,可能会在宿主体内诱导或抑制抗原特异性免疫反应。尽管皮肤DNA免疫生物学的许多方面仍然未知,但皮肤似乎为基因治疗在疫苗接种和免疫反应基因工程中的应用提供了独特的潜力。
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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