Department of Inflammation, Amgen, Inc, Seattle, WA, USA.
Department of Comparative Medicine, University of Washington, Seattle, WA, USA.
J Inflamm (Lond). 2012 Oct 12;9(1):39. doi: 10.1186/1476-9255-9-39.
Interleukin-7 (IL-7) acts primarily on T cells to promote their differentiation, survival, and homeostasis. Under disease conditions, IL-7 mediates inflammation through several mechanisms and cell types. In humans, IL-7 and its receptor (IL-7R) are increased in diseases characterized by inflammation such as atherosclerosis, rheumatoid arthritis, psoriasis, multiple sclerosis, and inflammatory bowel disease. In mice, overexpression of IL-7 results in chronic colitis, and T-cell adoptive transfer studies suggest that memory T cells expressing high amounts of IL-7R drive colitis and are maintained and expanded with IL-7. The studies presented here were undertaken to better understand the contribution of IL-7R in inflammatory bowel disease in which colitis was induced with a bacterial trigger rather than with adoptive transfer.
We examined the contribution of IL-7R on inflammation and disease development in two models of experimental colitis: Helicobacter bilis (Hb)-induced colitis in immune-sufficient Mdr1a-/- mice and in T- and B-cell-deficient Rag2-/- mice. We used pharmacological blockade of IL-7R to understand the mechanisms involved in IL-7R-mediated inflammatory bowel disease by analyzing immune cell profiles, circulating and colon proteins, and colon gene expression.
Treatment of mice with an anti-IL-7R antibody was effective in reducing colitis in Hb-infected Mdr1a-/- mice by reducing T-cell numbers as well as T-cell function. Down regulation of the innate immune response was also detected in Hb-infected Mdr1a-/- mice treated with an anti-IL-7R antibody. In Rag2-/- mice where colitis was triggered by Hb-infection, treatment with an anti-IL-7R antibody controlled innate inflammatory responses by reducing macrophage and dendritic cell numbers and their activity.
Results from our studies showed that inhibition of IL-7R successfully ameliorated inflammation and disease development in Hb-infected mice by controlling the expansion of multiple leukocyte populations, as well as the activity of these immune cells. Our findings demonstrate an important function of IL-7R-driven immunity in experimental colitis and indicate that the therapeutic efficacy of IL-7R blockade involves affecting both adaptive and innate immunity.
白细胞介素 7(IL-7)主要作用于 T 细胞,促进其分化、存活和稳态。在疾病状态下,IL-7 通过多种机制和细胞类型介导炎症。在人类中,IL-7 和其受体(IL-7R)在以炎症为特征的疾病中增加,如动脉粥样硬化、类风湿关节炎、银屑病、多发性硬化症和炎症性肠病。在小鼠中,IL-7 的过表达导致慢性结肠炎,而 T 细胞过继转移研究表明,表达大量 IL-7R 的记忆 T 细胞驱动结肠炎,并通过 IL-7 维持和扩增。本研究旨在更好地了解 IL-7R 在炎症性肠病中的贡献,其中结肠炎是由细菌触发而不是过继转移引起的。
我们在两种实验性结肠炎模型中研究了 IL-7R 对炎症和疾病发展的贡献:免疫功能正常的 Mdr1a-/-小鼠中的幽门螺旋杆菌(Hb)诱导结肠炎和 T 和 B 细胞缺陷的 Rag2-/-小鼠。我们使用 IL-7R 药理学阻断来理解 IL-7R 介导的炎症性肠病的机制,通过分析免疫细胞谱、循环和结肠蛋白以及结肠基因表达。
用抗 IL-7R 抗体治疗 Hb 感染的 Mdr1a-/-小鼠可有效减轻结肠炎,减少 T 细胞数量及其功能。在 Hb 感染的 Mdr1a-/-小鼠中,也检测到先天免疫反应的下调。在 Rag2-/-小鼠中,Hb 感染触发结肠炎,用抗 IL-7R 抗体治疗可通过减少巨噬细胞和树突状细胞数量及其活性来控制先天炎症反应。
我们的研究结果表明,抑制 IL-7R 通过控制多种白细胞群体的扩张以及这些免疫细胞的活性,成功地减轻了 Hb 感染小鼠的炎症和疾病发展。我们的发现表明,IL-7R 驱动的免疫在实验性结肠炎中具有重要功能,并表明 IL-7R 阻断的治疗效果涉及影响适应性和先天免疫。
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