释放细胞固有炎症作为杀死 AML 白血病细胞的策略。

Unleashing Cell-Intrinsic Inflammation as a Strategy to Kill AML Blasts.

机构信息

Department of Pediatric Oncology, Dana-Farber Cancer Institute and Boston Children's Hospital, Harvard Medical School, Boston, Massachusetts.

The Broad Institute of MIT and Harvard, Cambridge, Massachusetts.

出版信息

Cancer Discov. 2022 Jul 6;12(7):1760-1781. doi: 10.1158/2159-8290.CD-21-0956.

DOI:10.1158/2159-8290.CD-21-0956

PMID:35405016

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9308469/

Abstract

UNLABELLED

Leukemic blasts are immune cells gone awry. We hypothesized that dysregulation of inflammatory pathways contributes to the maintenance of their leukemic state and can be exploited as cell-intrinsic, self-directed immunotherapy. To this end, we applied genome-wide screens to discover genetic vulnerabilities in acute myeloid leukemia (AML) cells implicated in inflammatory pathways. We identified the immune modulator IRF2BP2 as a selective AML dependency. We validated AML cell dependency on IRF2BP2 with genetic and protein degradation approaches in vitro and genetically in vivo. Chromatin and global gene-expression studies demonstrated that IRF2BP2 represses IL1β/TNFα signaling via NFκB, and IRF2BP2 perturbation results in an acute inflammatory state leading to AML cell death. These findings elucidate a hitherto unexplored AML dependency, reveal cell-intrinsic inflammatory signaling as a mechanism priming leukemic blasts for regulated cell death, and establish IRF2BP2-mediated transcriptional repression as a mechanism for blast survival.

SIGNIFICANCE

This study exploits inflammatory programs inherent to AML blasts to identify genetic vulnerabilities in this disease. In doing so, we determined that AML cells are dependent on the transcriptional repressive activity of IRF2BP2 for their survival, revealing cell-intrinsic inflammation as a mechanism priming leukemic blasts for regulated cell death. See related commentary by Puissant and Medyouf, p. 1617. This article is highlighted in the In This Issue feature, p. 1599.

摘要

未标记

白血病细胞是发生恶变的免疫细胞。我们假设炎症途径的失调有助于维持其白血病状态，可以作为细胞内源性、自我导向的免疫疗法加以利用。为此，我们应用全基因组筛选技术，发现了与炎症途径相关的急性髓系白血病（AML）细胞中的遗传易损性。我们确定了免疫调节剂 IRF2BP2 是 AML 的选择性依赖性。我们通过体外和体内遗传方法验证了 AML 细胞对 IRF2BP2 的依赖性。染色质和全基因表达研究表明，IRF2BP2 通过 NFκB 抑制 IL1β/TNFα 信号转导，IRF2BP2 扰动导致急性炎症状态，导致 AML 细胞死亡。这些发现阐明了一个迄今尚未探索的 AML 依赖性，揭示了细胞内炎症信号作为引发白血病细胞受控死亡的机制，并确立了 IRF2BP2 介导的转录抑制作为细胞存活的机制。

意义

本研究利用 AML 白血病细胞固有的炎症程序来确定该疾病的遗传脆弱性。通过这样做，我们确定 AML 细胞依赖于 IRF2BP2 的转录抑制活性来存活，这表明细胞内炎症作为引发白血病细胞受控死亡的机制。请参阅相关评论文章 Puissant 和 Medyouf 的第 1617 页。本文在本期特色文章中被重点介绍，第 1599 页。

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