Department of Veterinary Microbiology, University of Saskatchewan, Saskatoon, SK, Canada.
Allergy. 2013 Sep;68(9):1126-35. doi: 10.1111/all.12203. Epub 2013 Aug 2.
Allergen-presenting dendritic cells differentiated with IL-10 (DC10) reverse the asthma phenotype in mice by converting their Th2 cells to regulatory T cells (Tregs). DC10 express elevated levels of IL-10, but substantially reduced levels of MHCII and costimulatory molecules, so the relationships between these factors with each other and tolerogenicity have not been clearly elucidated.
We assessed the roles of these inputs in DC10 reversal of OVA-associated asthma-like disease by treating affected mice with OVA-pulsed DC10 generated from wild-type or IL-10-sufficient MHCII(-/-) or CD80/CD86(-/-) mice, or with MHCII-intact IL-10-silenced DC10.
IL-10 silencing did not discernibly affect the cells' immunobiology (e.g., costimulatory molecules, chemokines), but it eliminated IL-10 secretion and the cell's abilities to induce tolerance, as determined by assessments of airway hyper-responsiveness, eosinophilia, and Th2 responses to recall OVA challenge. MHCII(-/-) DC10 expressed normal levels of IL-10, but, nevertheless, were unable to induce allergen tolerance in asthma phenotype mice, while tolerance induced by CD80/CD86(-/-) DC10 was attenuated but not eliminated. We also assessed the induction of multiple Treg cell markers (e.g., ICOS, PD-1, GITR) on pulmonary CD25(+) Foxp3(+) cells in the treated mice. Wild-type DC10 treatments upregulated expression of each marker, while neither IL-10-silenced nor MHCII(-/-) DC10 did so, and the CD80/86(-/-) DC10 induced an intermediate Treg cell activation phenotype.
Both IL-10 and MCHII expression by DC10 are requisite, but not sufficient for tolerance induction, suggesting that DC10 and Th2 effector T cells must be brought together in a cognate fashion in order for their IL-10 to induce tolerance.
白细胞介素 10(IL-10)分化的呈递过敏原的树突状细胞(DC10)通过将 Th2 细胞转化为调节性 T 细胞(Treg)来逆转哮喘表型。DC10 表达高水平的 IL-10,但 MHCII 和共刺激分子的水平显著降低,因此这些因素之间的关系及其与耐受性的关系尚未清楚阐明。
我们通过用 OVA 脉冲处理来自野生型或 IL-10 充足的 MHCII(-/-)或 CD80/CD86(-/-)小鼠或 MHCII 完整的 IL-10 沉默的 DC10 产生的受影响的小鼠来评估这些输入在 DC10 逆转 OVA 相关哮喘样疾病中的作用。
IL-10 沉默对细胞的免疫生物学(例如共刺激分子、趋化因子)没有明显影响,但消除了 IL-10 分泌和细胞诱导耐受的能力,这通过评估气道高反应性、嗜酸性粒细胞增多和 Th2 对回忆 OVA 挑战的反应来确定。MHCII(-/-)DC10 表达正常水平的 IL-10,但仍然无法在哮喘表型小鼠中诱导过敏原耐受,而 CD80/CD86(-/-)DC10 诱导的耐受减弱但未消除。我们还评估了在治疗的小鼠中肺 CD25(+)Foxp3(+)细胞上多种 Treg 细胞标记物(例如 ICOS、PD-1、GITR)的诱导。野生型 DC10 处理上调了每个标记物的表达,而 IL-10 沉默或 MHCII(-/-)DC10 均未上调,CD80/86(-/-)DC10 诱导中间 Treg 细胞激活表型。
DC10 表达的 IL-10 和 MHCII 都是必需的,但不足以诱导耐受,这表明 DC10 和 Th2 效应 T 细胞必须以同源方式聚集,以便它们的 IL-10 诱导耐受。
