Mannose receptor-mediated gene delivery into antigen presenting dendritic cells.

Sandra S Diebold, Christian Plank, Matt Cotten, Ernst Wagner, Martin Zenke
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引用次数: 62

Abstract

Dendritic cells are professional antigen presenting cells and are unique in their ability to prime naïve T cells. Gene modification of dendritic cells is of particular interest for immunotherapy of diseases where the immune system has failed or is aberrantly regulated, such as in cancer or autoimmune disease, respectively. Dendritic cells abundantly express mannose receptor and mannose receptor-related receptors, and receptor-mediated gene transfer via mannose receptor offers a versatile tool for targeted gene delivery into these cells. Accordingly, mannose polyethylenimine DNA transfer complexes were generated and used for gene delivery into dendritic cells. Mannose receptor belongs to the group of scavenger receptors that allow dendritic cells to take up pathogenic material, which is directed for degradation and MHC class II presentation. Therefore, a limiting step of transgene expression by mannose receptor-mediated gene delivery is endosomal degradation of DNA. Several strategies have been explored to overcome this limitation including the addition of endosomolytic components to DNA transfer complexes like adenovirus particles and influenza peptides. Here, we review the current understanding of mannose receptor-mediated gene delivery into dendritic cells and discuss strategies to identify appropriate endosomolytic agents to improve DNA transfer efficacy.

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甘露糖受体介导的抗原呈递树突状细胞基因传递。
树突状细胞是专业的抗原呈递细胞,在它们的能力是独一无二的naïve T细胞。树突状细胞的基因修饰对于免疫系统失效或异常调节的疾病(如癌症或自身免疫性疾病)的免疫治疗特别感兴趣。树突状细胞大量表达甘露糖受体和甘露糖受体相关受体,通过甘露糖受体介导的基因转移为靶向基因传递到这些细胞提供了一种通用的工具。因此,生成甘露糖聚亚胺DNA转移复合物并用于将基因传递到树突状细胞中。甘露糖受体属于清道夫受体组,允许树突状细胞吸收致病性物质,这是针对降解和MHC II类呈递。因此,通过甘露糖受体介导的基因传递进行转基因表达的一个限制步骤是DNA的内体降解。已经探索了几种策略来克服这一限制,包括向DNA转移复合物(如腺病毒颗粒和流感肽)中添加内溶性成分。在这里,我们回顾了目前对甘露糖受体介导的基因传递到树突状细胞的理解,并讨论了确定合适的内溶剂以提高DNA转移效率的策略。
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Electro-gene-transfer: a new approach for muscle gene delivery. Tumor-targeted gene transfer with DNA polyplexes. Photochemical transfection: a technology for efficient light-directed gene delivery. Sonoporation: mechanical DNA delivery by ultrasonic cavitation. Supramolecular assemblies of DNA delivery systems.
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