Jamie L Shirley, Geoffrey D Keeler, Alexandra Sherman, Irene Zolotukhin, David M Markusic, Brad E Hoffman, Laurence M Morel, Mark A Wallet, Cox Terhorst, Roland W Herzog
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In this study, we sought to determine the mechanisms that promote licensing of cDCs, which is requisite for CD8<sup>+</sup> T cell activation. Blockage of type 1 interferon (T1 IFN) signaling by monoclonal antibody therapy prevented cross-priming. Furthermore, experiments in cell-type-restricted knockout mice showed a specific requirement for the receptor for T1 IFN (IFNaR) in cDCs. In contrast, natural killer (NK) cells are not needed, indicating a direct rather than indirect effect of T1 IFN on cDCs. In addition, co-stimulation by CD4<sup>+</sup> T cells via CD40-CD40L was required for cross-priming, and blockage of co-stimulation but not of T1 IFN additionally reduced antibody formation against capsid. 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引用次数: 0
摘要
腺相关病毒(AAV)载体被广泛应用于临床基因治疗,通过体内基因转移纠正遗传疾病。尽管这种载体非常有用,部分原因是其免疫原性有限,但针对载体成分的免疫反应使其在人体中的应用变得复杂。例如,这些反应包括质体树突状细胞(pDCs)对载体成分的先天性免疫感知,pDCs 通过 Toll 样受体 9 感知载体 DNA 基因组。适应性免疫反应采用传统树突状细胞(cDCs)进行抗原呈递,从而导致帽状体特异性 CD8+ T 细胞的交叉刺激。在这项研究中,我们试图确定促进 cDCs 许可的机制,这是 CD8+ T 细胞活化的必要条件。通过单克隆抗体疗法阻断1型干扰素(T1 IFN)信号传导可阻止交叉诱导。此外,在细胞类型受限的基因敲除小鼠中进行的实验表明,cDCs 对 T1 IFN(IFNaR)受体有特殊要求。相反,自然杀伤(NK)细胞则不需要,这表明 T1 IFN 对 cDC 有直接而非间接的影响。此外,交叉刺激需要 CD4+ T 细胞通过 CD40-CD40L 共同刺激,阻断共同刺激而非 T1 IFN 还能减少针对帽状体的抗体形成。这些机理启示为开发有针对性的免疫干预措施提供了信息。
Type I IFN Sensing by cDCs and CD4+ T Cell Help Are Both Requisite for Cross-Priming of AAV Capsid-Specific CD8+ T Cells.
Adeno-associated virus (AAV) vectors are widely used in clinical gene therapy to correct genetic disease by in vivo gene transfer. Although the vectors are useful, in part because of their limited immunogenicity, immune responses directed at vector components have complicated applications in humans. These include, for instance, innate immune sensing of vector components by plasmacytoid dendritic cells (pDCs), which sense the vector DNA genome via Toll-like receptor 9. Adaptive immune responses employ antigen presentation by conventional dendritic cells (cDCs), which leads to cross-priming of capsid-specific CD8+ T cells. In this study, we sought to determine the mechanisms that promote licensing of cDCs, which is requisite for CD8+ T cell activation. Blockage of type 1 interferon (T1 IFN) signaling by monoclonal antibody therapy prevented cross-priming. Furthermore, experiments in cell-type-restricted knockout mice showed a specific requirement for the receptor for T1 IFN (IFNaR) in cDCs. In contrast, natural killer (NK) cells are not needed, indicating a direct rather than indirect effect of T1 IFN on cDCs. In addition, co-stimulation by CD4+ T cells via CD40-CD40L was required for cross-priming, and blockage of co-stimulation but not of T1 IFN additionally reduced antibody formation against capsid. These mechanistic insights inform the development of targeted immune interventions.
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