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Hypoxia research, where to now?低氧研究,路在何方?
Trends Biochem Sci. 2024 Jul;49(7):573-582. doi: 10.1016/j.tibs.2024.03.008. Epub 2024 Apr 9.
2
Hypoxia induces a glycolytic complex in intestinal epithelial cells independent of HIF-1-driven glycolytic gene expression.缺氧诱导肠道上皮细胞糖酵解复合物的形成,不依赖于 HIF-1 驱动的糖酵解基因表达。
Proc Natl Acad Sci U S A. 2023 Aug 29;120(35):e2208117120. doi: 10.1073/pnas.2208117120. Epub 2023 Aug 21.
3
A HIF independent oxygen-sensitive pathway for controlling cholesterol synthesis.一种 HIF 非依赖型氧敏感通路调控胆固醇合成。
Nat Commun. 2023 Aug 9;14(1):4816. doi: 10.1038/s41467-023-40541-1.
4
How cancer cells make and respond to interferon-I.癌细胞如何产生和应对干扰素-I。
Trends Cancer. 2023 Jan;9(1):83-92. doi: 10.1016/j.trecan.2022.09.003. Epub 2022 Oct 8.
5
Entinostat Decreases Immune Suppression to Promote Antitumor Responses in a HER2+ Breast Tumor Microenvironment.恩替诺特可降低免疫抑制作用,促进 HER2+乳腺癌肿瘤微环境中的抗肿瘤反应。
Cancer Immunol Res. 2022 May 3;10(5):656-669. doi: 10.1158/2326-6066.CIR-21-0170.
6
Zero-preserving imputation of single-cell RNA-seq data.单细胞 RNA-seq 数据的零保留插补。
Nat Commun. 2022 Jan 11;13(1):192. doi: 10.1038/s41467-021-27729-z.
7
Hypoxia Regulates Endogenous Double-Stranded RNA Production Reduced Mitochondrial DNA Transcription.缺氧调节内源性双链RNA生成并减少线粒体DNA转录。
Front Oncol. 2021 Nov 24;11:779739. doi: 10.3389/fonc.2021.779739. eCollection 2021.
8
STING Agonists as Cancer Therapeutics.作为癌症治疗药物的STING激动剂
Cancers (Basel). 2021 May 30;13(11):2695. doi: 10.3390/cancers13112695.
9
Opposing Roles of Type I Interferons in Cancer Immunity.Ⅰ型干扰素在癌症免疫中的双重作用
Annu Rev Pathol. 2021 Jan 24;16:167-198. doi: 10.1146/annurev-pathol-031920-093932. Epub 2020 Dec 2.
10
Hypoxia Induces Transcriptional and Translational Downregulation of the Type I IFN Pathway in Multiple Cancer Cell Types.缺氧诱导多种癌细胞类型中 I 型 IFN 途径的转录和翻译下调。
Cancer Res. 2020 Dec 1;80(23):5245-5256. doi: 10.1158/0008-5472.CAN-19-2306. Epub 2020 Oct 28.

低氧记忆介导肿瘤内固有Ⅰ型干扰素抑制的长期作用促进乳腺癌进展。

Hypoxic Memory Mediates Prolonged Tumor-Intrinsic Type I Interferon Suppression to Promote Breast Cancer Progression.

机构信息

Department of Stem Cell Biology and Regenerative Medicine, Keck School of Medicine of the University of Southern California, Los Angeles, California.

USC Norris Comprehensive Cancer Center, Keck School of Medicine of the University of Southern California, Los Angeles, California.

出版信息

Cancer Res. 2024 Oct 1;84(19):3141-3157. doi: 10.1158/0008-5472.CAN-23-2028.

DOI:10.1158/0008-5472.CAN-23-2028
PMID:38990731
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11444891/
Abstract

Hypoxia is a common feature of many solid tumors due to aberrant proliferation and angiogenesis that is associated with tumor progression and metastasis. Most of the well-known hypoxia effects are mediated through hypoxia-inducible factors (HIF). Identification of the long-lasting effects of hypoxia beyond the immediate HIF-induced alterations could provide a better understanding of hypoxia-driven metastasis and potential strategies to circumvent it. Here, we uncovered a hypoxia-induced mechanism that exerts a prolonged effect to promote metastasis. In breast cancer patient-derived circulating tumor cell lines and common breast cancer cell lines, hypoxia downregulated tumor-intrinsic type I IFN signaling and its downstream antigen presentation (AP) machinery in luminal breast cancer cells, via both HIF-dependent and HIF-independent mechanisms. Hypoxia induced durable IFN/AP suppression in certain cell types that was sustained after returning to normoxic conditions, presenting a "hypoxic memory" phenotype. Hypoxic memory of IFN/AP downregulation was established by specific hypoxic priming, and cells with hypoxic memory had an enhanced ability for tumorigenesis and metastasis. Overexpression of IRF3 enhanced IFN signaling and reduced tumor growth in normoxic, but not hypoxic, conditions. The histone deacetylase inhibitor entinostat upregulated IFN targets and erased the hypoxic memory. These results point to a mechanism by which hypoxia facilitates tumor progression through a long-lasting memory that provides advantages for circulating tumor cells during the metastatic cascade. Significance: Long-term cellular memory of hypoxia leads to sustained suppression of tumor-intrinsic type I IFN signaling and the antigen presentation pathway that facilitates tumorigenesis and metastasis. See related commentary by Purdy and Ford, p. 3125.

摘要

缺氧是许多实体瘤的常见特征,这是由于与肿瘤进展和转移相关的异常增殖和血管生成。大多数众所周知的缺氧效应是通过缺氧诱导因子(HIF)介导的。除了立即的 HIF 诱导改变之外,鉴定缺氧的持久效应可以更好地理解缺氧驱动的转移和潜在的规避策略。在这里,我们发现了一种缺氧诱导的机制,它可以产生持久的效应来促进转移。在乳腺癌患者来源的循环肿瘤细胞系和常见的乳腺癌细胞系中,缺氧通过 HIF 依赖性和非依赖性机制下调了腔乳腺癌细胞中的肿瘤内在型 I 型 IFN 信号及其下游抗原呈递(AP)机制。缺氧诱导某些细胞类型中持久的 IFN/AP 抑制作用,在返回常氧条件后仍然持续,表现出“缺氧记忆”表型。IFN/AP 下调的缺氧记忆通过特定的缺氧启动建立,具有缺氧记忆的细胞具有增强的致瘤和转移能力。IRF3 的过表达增强了 IFN 信号,并减少了常氧条件下而非缺氧条件下的肿瘤生长。组蛋白去乙酰化酶抑制剂恩替诺特上调了 IFN 靶标,并消除了缺氧记忆。这些结果表明,缺氧通过持久的记忆促进肿瘤进展的机制,为循环肿瘤细胞在转移级联过程中提供了优势。意义:缺氧导致的长期细胞记忆导致肿瘤内在型 I 型 IFN 信号和抗原呈递途径的持续抑制,从而促进肿瘤发生和转移。见 Purdy 和 Ford 的相关评论,第 3125 页。

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