Oakes Robert S, Tostanoski Lisa H, Kapnick Senta M, Froimchuk Eugene, Black Sheneil K, Zeng Xiangbin, Jewell Christopher M
Fischell Department of Bioengineering, University of Maryland, 3102 A. James Clark Hall, 8278 Paint Branch Drive, College Park, Maryland 20742, United States.
United States Department of Veterans Affairs, VA Maryland Health Care System, 10 N. Greene Street, Baltimore, Maryland 21201, United States.
ACS Nano. 2021 Mar 23;15(3):4305-4320. doi: 10.1021/acsnano.0c07440. Epub 2021 Mar 1.
Autoimmune diseases like multiple sclerosis (MS), type 1 diabetes, and lupus occur when the immune system attacks host tissue. Immunotherapies that promote selective tolerance without suppressing normal immune function are of tremendous interest. Here, nanotechnology was used for rational assembly of peptides and modulatory immune cues into immune complexes. Complexes containing self-peptides and regulatory nucleic acids reverse established paralysis in a preclinical MS model. Importantly, mice responding to immunotherapy maintain healthy, antigen-specific B and T cell responses during a foreign antigen challenge. A therapeutic library isolating specific components reveals that regulatory nucleic acids suppress inflammatory genes in innate immune cells, while disease-matched peptide sequences control specificity of tolerance. Distinct gene expression profiles in cells and animals are associated with the immune signals administered in particulate and soluble forms, highlighting the impact of biophysical presentation of signals. This work provides insight into the rational manipulation of immune signaling to drive tolerance.
自身免疫性疾病,如多发性硬化症(MS)、1型糖尿病和狼疮,是在免疫系统攻击宿主组织时发生的。能够促进选择性耐受而不抑制正常免疫功能的免疫疗法备受关注。在此,纳米技术被用于将肽和调节性免疫信号合理组装成免疫复合物。含有自身肽和调节性核酸的复合物在临床前MS模型中逆转了已建立的麻痹状态。重要的是,对免疫疗法有反应的小鼠在受到外来抗原攻击时能维持健康的、抗原特异性的B细胞和T细胞反应。一个分离特定成分的治疗文库显示,调节性核酸可抑制先天免疫细胞中的炎症基因,而与疾病匹配的肽序列则控制耐受的特异性。细胞和动物中不同的基因表达谱与以颗粒形式和可溶性形式施用的免疫信号相关,突出了信号生物物理呈现的影响。这项工作为合理操纵免疫信号以驱动耐受提供了见解。
