AAV 基因治疗载体中的 CpGs 可在给药后早期诱导出类浆细胞树突状细胞群

IF 3.7 4区 医学 Q2 CELL BIOLOGY
Justin D. Glenn, Henos Negash, William Henry, Randolph Qian, Ye Liu, Olivier Danos, Joseph T. Bruder, Subha Karumuthil-Melethil
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引用次数: 0

摘要

AAV 介导的基因转移是一个前景广阔的平台,但仍受到宿主对治疗成分的潜在拮抗免疫反应的困扰。CpG 介导的 TLR9 刺激可激活先天性免疫细胞,导致同源 T 细胞活化并抑制转基因表达。在这里,我们证明,早在小鼠服用载体后 24 小时,CpG 缺失就会使抗体转基因产物的表达增加 2-3 倍。在抗转基因产物/抗 AAV 包膜抗体产生或细胞毒性基因诱导方面没有发现明显差异。相反,CpG 缺失显著减少了 pDC 样髓系细胞群的存在,这种细胞群能够通过 Fc-FcγR 相互作用直接结合抗体转基因产物。因此,我们扩展了 AAV 基因疗法中 TLR9 介导的转基因表达拮抗机制,将以前未报道过的 pDC 样细胞群的作用也包括在内。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The presence of CpGs in AAV gene therapy vectors induces a plasmacytoid dendritic cell-like population very early after administration

AAV-mediated gene transfer is a promising platform still plagued by potential host-derived, antagonistic immune responses to therapeutic components. CpG-mediated TLR9 stimulation activates innate immune cells and leads to cognate T cell activation and suppression of transgene expression. Here, we demonstrate that CpG depletion increased expression of an antibody transgene product by 2–3-fold as early as 24 h post-vector administration in mice. No significant differences were noted in anti-transgene product/ anti-AAV capsid antibody production or cytotoxic gene induction. Instead, CpG depletion significantly reduced the presence of a pDC-like myeloid cell population, which was able to directly bind the antibody transgene product via Fc-FcγR interactions. Thus, we extend the mechanisms of TLR9-mediated antagonism of transgene expression in AAV gene therapy to include the actions of a previously unreported pDC-like cell population.

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来源期刊
Cellular immunology
Cellular immunology 生物-免疫学
CiteScore
8.20
自引率
2.30%
发文量
102
审稿时长
30 days
期刊介绍: Cellular Immunology publishes original investigations concerned with the immunological activities of cells in experimental or clinical situations. The scope of the journal encompasses the broad area of in vitro and in vivo studies of cellular immune responses. Purely clinical descriptive studies are not considered. Research Areas include: • Antigen receptor sites • Autoimmunity • Delayed-type hypersensitivity or cellular immunity • Immunologic deficiency states and their reconstitution • Immunologic surveillance and tumor immunity • Immunomodulation • Immunotherapy • Lymphokines and cytokines • Nonantibody immunity • Parasite immunology • Resistance to intracellular microbial and viral infection • Thymus and lymphocyte immunobiology • Transplantation immunology • Tumor immunity.
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