Dual IFN-γ/hypoxia priming enhances immunosuppression of mesenchymal stromal cells through regulatory proteins and metabolic mechanisms

Holly M. Wobma , Mariko Kanai , Stephen P. Ma , Ying Shih , Hao Wei Li , Raimon Duran-Struuck , Robert Winchester , Shahar Goeta , Lewis M. Brown , Gordana Vunjak-Novakovic
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引用次数: 37

Abstract

The immunosuppressive capacity of human mesenchymal stromal cells (MSCs) renders them promising candidates for treating diverse immune disorders. However, after hundreds of clinical trials, there are still no MSC therapies approved in the United States. MSCs require specific cues to adopt their immunosuppressive phenotype, and yet most clinical trials use cells expanded in basic culture medium and growth conditions. We propose that priming MSCs prior to administration will improve their therapeutic efficacy. Interferon-gamma (IFN-γ) priming are cues common to situations of immune escape that have individually shown promise as MSC priming cues but have not been systematically compared. Using mixed lymphocyte reactions, we show that priming MSCs with either cue alone improves T-cell inhibition. However, combining the two cues results in additive effects and markedly enhances the immunosuppressive phenotype of MSCs. We demonstrate that IFN-γ induces expression of numerous immunosuppressive proteins (IDO, PD-L1, HLA-E, HLA-G), whereas hypoxia switches MSCs to glycolysis, causing rapid glucose consumption and production of T-cell inhibitory lactate levels. Dual IFN-γ/hypoxia primed MSCs display both attributes and have even higher induction of immunosuppressive proteins over IFN-γ priming alone (IDO and HLA-G), which may reflect another benefit of metabolic reconfiguration.

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双IFN-γ/缺氧启动通过调节蛋白和代谢机制增强间充质间质细胞的免疫抑制
人间充质间质细胞(MSCs)的免疫抑制能力使其成为治疗多种免疫疾病的有希望的候选者。然而,经过数百次临床试验,美国仍然没有MSC疗法获得批准。骨髓间充质干细胞需要特定的线索来采用其免疫抑制表型,然而大多数临床试验使用在基本培养基和生长条件下扩增的细胞。我们建议在给药前启动MSCs可以提高其治疗效果。干扰素-γ (IFN-γ)启动是免疫逃逸情况下常见的线索,已单独显示出作为MSC启动线索的希望,但尚未进行系统比较。使用混合淋巴细胞反应,我们发现单独用任何一种线索启动MSCs都可以改善t细胞抑制。然而,结合这两种线索会产生加性效应,并显著增强MSCs的免疫抑制表型。我们证明IFN-γ诱导多种免疫抑制蛋白(IDO, PD-L1, HLA-E, HLA-G)的表达,而缺氧使MSCs转向糖酵解,导致快速的葡萄糖消耗和t细胞抑制性乳酸水平的产生。与IFN-γ单独启动相比,双IFN-γ/缺氧启动的MSCs显示出这两种属性,并且具有更高的免疫抑制蛋白诱导(IDO和HLA-G),这可能反映了代谢重组的另一个好处。
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