二十碳四烯酸调控诱导多能干细胞衍生巨噬细胞:克罗恩病人类肠道类器官模型中的促纤维化途径

Ingrid Jurickova, Benjamin W Dreskin, Elizabeth Angerman, Erin Bonkowski, Jack Nguyen, Richard Villarreal, Kentaro Tominaga, Kentaro Iwasawa, Tzipi Braun, Takanori Takebe, Michael A Helmrath, Yael Haberman, James M Wells, Lee A Denson
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引用次数: 0

摘要

背景和目的:我们之前发现了一些小分子,这些小分子可逆转未来克罗恩病(CD)狭窄的回肠基因特征。在这里,我们使用一种新的含有巨噬细胞的人体肠道类器官(HIO)模型系统来测试一种主要候选药物--二十碳四炔酸(ETYA):方法:诱导多能干细胞系(iPSC)来源于CD患者,并分化成巨噬细胞和HIO。将巨噬细胞和巨噬细胞:HIO共培养物暴露于经或未经ETYA预处理的脂多糖(LPS)中。细胞计数法和流式细胞术描述了巨噬细胞的形态和活化标记,RNA测序确定了巨噬细胞基因表达的整体模式。结果:iPSC衍生的巨噬细胞表现出与原代巨噬细胞相似的形态,并表达包括CD64和CD68在内的炎性巨噬细胞表面标记物。LPS刺激下的巨噬细胞表达了富含CD回肠炎症巨噬细胞和matrisome分泌产物的全局基因表达模式,并产生了与难治性疾病有关的细胞因子和趋化因子,包括CCL2、IL1B和OSM。ETYA 可抑制 LPS 刺激巨噬细胞中的 CD64 丰度和促纤维化基因表达途径。LPS刺激的巨噬细胞与HIO共培养会导致成纤维细胞活化基因(包括ACTA2和COL1A1)上调,并增加HIO胶原蛋白含量。ETYA预处理可防止LPS诱导的巨噬细胞产生促纤维化效应:结论:ETYA 可抑制 LPS 诱导的巨噬细胞对共培养 HIO 的促纤维化作用。该模型可用于未来治疗难治性 CD 的小分子非靶向筛选。
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Eicosatetraynoic Acid Regulates Pro-Fibrotic Pathways in an Induced Pluripotent Stem Cell Derived Macrophage:Human Intestinal Organoid Model of Crohn's Disease.

Background and aims: We previously identified small molecules predicted to reverse an ileal gene signature for future Crohn's Disease (CD) strictures. Here we used a new human intestinal organoid (HIO) model system containing macrophages to test a lead candidate, eicosatetraynoic acid (ETYA).

Methods: Induced pluripotent stem cell lines (iPSC) were derived from CD patients and differentiated into macrophages and HIOs. Macrophages and macrophage:HIO co-cultures were exposed to lipopolysaccharide (LPS) with and without ETYA pre-treatment. Cytospin and flow cytometry characterized macrophage morphology and activation markers, and RNA sequencing defined the global pattern of macrophage gene expression. TaqMan Low Density Array, Luminex multiplex assay, immunohistologic staining, and sirius red polarized light microscopy were performed to measure macrophage cytokine production and HIO pro-fibrotic gene expression and collagen content.

Results: iPSC-derived macrophages exhibited morphology similar to primary macrophages and expressed inflammatory macrophage cell surface markers including CD64 and CD68. LPS-stimulated macrophages expressed a global pattern of gene expression enriched in CD ileal inflammatory macrophages and matrisome secreted products, and produced cytokines and chemokines including CCL2, IL1B, and OSM implicated in refractory disease. ETYA suppressed CD64 abundance and pro-fibrotic gene expression pathways in LPS stimulated macrophages. Co-culture of LPS-primed macrophages with HIO led to up-regulation of fibroblast activation genes including ACTA2 and COL1A1, and an increase in HIO collagen content. ETYA pre-treatment prevented pro-fibrotic effects of LPS-primed macrophages.

Conclusions: ETYA inhibits pro-fibrotic effects of LPS-primed macrophages upon co-cultured HIO. This model may be used in future untargeted screens for small molecules to treat refractory CD.

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