人类 IL-22 受体靶向小蛋白拮抗剂可抑制小鼠 DSS 诱导的结肠炎。

IF 8.2 2区 生物学 Q1 CELL BIOLOGY Cell Communication and Signaling Pub Date : 2024-10-01 DOI:10.1186/s12964-024-01846-w
Milan Kuchař, Kristýna Sloupenská, Leona Rašková Kafková, Yaroslava Groza, Jozef Škarda, Petr Kosztyu, Marie Hlavničková, Joanna M Mierzwicka, Radim Osička, Hana Petroková, Stephen I Walimbwa, Shiv Bharadwaj, Jiří Černý, Milan Raška, Petr Malý
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引用次数: 0

摘要

背景:人类白细胞介素-22(IL-22)被称为 "双重功能 "细胞因子,是维持体内平衡、肠上皮屏障结构完整性和抵御细菌病原体的主调节因子。另一方面,IL-22 的过度表达与病理效应细胞的过度增殖和招募有关,从而导致组织损伤和慢性炎症等特定疾病,包括炎症性肠病(IBD)。为了研究 IL-22 介导的信号轴在肠道炎症中的作用,我们生成了一组 IL-22R1 的小蛋白阻断剂,并在小鼠结肠炎模型上验证了它们的抑制潜力:我们利用蛋白质的定向进化来鉴定人类 IL-22 受体 alpha(IL-22R1)的结合体,并将其命名为 ABR 配体。这种方法结合了从小型白蛋白结合域支架中提取的高度复杂的组合蛋白库的组装,以及利用核糖体展示筛选出有前景的蛋白变体,然后进行大规模的 ELISA 筛选。通过流式细胞仪和 LigandTracer 分析了 ABR 变体在转染 HEK293T 细胞上的结合亲和力和特异性。通过竞争酶联免疫吸附试验、HEK-Blue IL-22 报告细胞和小鼠右旋糖酐硫酸钠(DSS)诱导的结肠炎进一步验证了 ABR 的抑制功能:结果:我们证明 ABR 能特异性识别 HEK293T 细胞上表达的转基因 IL-22R1 和 TNFα/IFNγ 激活的 HaCaT 细胞上的 IL-22R1。此外,一些 ABR 结合剂能与 IL-22 细胞因子竞争,并在 HEK-Blue IL22 报告细胞中发挥 IL-22R1 拮抗剂的作用。在 DSS 诱导的急性肠炎小鼠模型中,每天腹腔注射最佳 IL-22R1 拮抗剂 ABR167 可抑制结肠炎临床和组织学指标的发展,包括防止粘膜炎症和结构恶化。此外,ABR167 还能降低 DSS 诱导的炎性细胞因子(如 IL-1β、IL-6、IL-10 和 IL-17A 等)mRNA 转录水平的升高:我们开发了具有拮抗特性的小型抗人 IL-22R1 阻断剂,确定了 IL-22 介导的信号传导在肠道炎症发展中的重要作用。所开发的 ABR 阻断剂可作为进一步开发 IBD 药物的分子线索。
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Human IL-22 receptor-targeted small protein antagonist suppress murine DSS-induced colitis.

Background: Human interleukin-22 (IL-22) is known as a "dual function" cytokine that acts as a master regulator to maintain homeostasis, structural integrity of the intestinal epithelial barrier, and shielding against bacterial pathogens. On the other hand, the overexpression of IL-22 is associated with hyper-proliferation and recruitment of pathologic effector cells, leading to tissue damage and chronic inflammation in specific diseases including inflammatory bowel disease (IBD). To study a role of IL-22-mediated signaling axis during intestinal inflammation, we generated a set of small protein blockers of IL-22R1 and verified their inhibitory potential on murine model of colitis.

Methods: We used directed evolution of proteins to identify binders of human IL-22 receptor alpha (IL-22R1), designated as ABR ligands. This approach combines the assembly of a highly complex combinatorial protein library derived from small albumin-binding domain scaffold and selection of promising protein variants using ribosome display followed by large-scale ELISA screening. The binding affinity and specificity of ABR variants were analyzed on transfected HEK293T cells by flow cytometry and LigandTracer. Inhibitory function was further verified by competition ELISA, HEK-Blue IL-22 reporter cells, and murine dextran sulfate sodium (DSS)-induced colitis.

Results: We demonstrate that ABR specifically recognizes transgenic IL-22R1 expressed on HEK293T cells and IL-22R1 on TNFα/IFNγ-activated HaCaT cells. Moreover, some ABR binders compete with the IL-22 cytokine and function as IL-22R1 antagonists in HEK-Blue IL22 reporter cells. In a murine model of DSS-induced acute intestinal inflammation, daily intraperitoneal administration of the best IL-22R1 antagonist, ABR167, suppressed the development of clinical and histological markers of colitis including prevention of mucosal inflammation and architecture deterioration. In addition, ABR167 reduces the DSS-induced increase in mRNA transcript levels of inflammatory cytokines such as IL-1β, IL-6, IL-10, and IL-17A.

Conclusions: We developed small anti-human IL-22R1 blockers with antagonistic properties that ascertain a substantial role of IL-22-mediated signaling in the development of intestinal inflammation. The developed ABR blockers can be useful as a molecular clue for further IBD drug development.

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来源期刊
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期刊介绍: Cell Communication and Signaling (CCS) is a peer-reviewed, open-access scientific journal that focuses on cellular signaling pathways in both normal and pathological conditions. It publishes original research, reviews, and commentaries, welcoming studies that utilize molecular, morphological, biochemical, structural, and cell biology approaches. CCS also encourages interdisciplinary work and innovative models, including in silico, in vitro, and in vivo approaches, to facilitate investigations of cell signaling pathways, networks, and behavior. Starting from January 2019, CCS is proud to announce its affiliation with the International Cell Death Society. The journal now encourages submissions covering all aspects of cell death, including apoptotic and non-apoptotic mechanisms, cell death in model systems, autophagy, clearance of dying cells, and the immunological and pathological consequences of dying cells in the tissue microenvironment.
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