乳腺癌细胞中的乳酸与逃避缺氧诱导的细胞周期停滞和患者的不良预后有关。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-05-01 Epub Date: 2024-03-13 DOI:10.1007/s13577-024-01046-1
Yamin Liu, Yasir Suhail, Ashkan Novin, Junaid Afzal, Aditya Pant, Kshitiz
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引用次数: 0

摘要

肿瘤缺氧是乳腺癌常见的微环境因素,导致细胞缺氧反应的主调节因子--缺氧诱导因子 1(HIF-1)趋于稳定。HIF-1 的代谢适应性会抑制柠檬酸循环,导致乳酸在缺氧癌症中大量积累。因此,乳酸可作为影响细胞对缺氧反应的次要微环境因素。乳酸的存在会以多种方式改变乳腺癌的缺氧反应,有时甚至是相反的方式。乳酸盐能在氧化条件下稳定HIF-1,也能在缺氧条件下破坏HIF-1的稳定性,增加细胞酸化,减轻HIF-1对细胞呼吸的抑制。因此,我们测试了乳酸在缺氧条件下对 MDA-MB-231 的影响,发现乳酸可以激活与 DNA 复制和细胞周期相关的通路,以及与侵袭过程相关的组织形态发生。我们还利用生物工程纳米图案基质侵袭试验证实,高乳酸盐和诱导的HIF-1α基因过表达能协同促进MDA-MB-231的扩散和基质侵入。此外,我们还利用癌症基因组图谱(The Cancer Genome Atlas)令人惊讶地发现,缺氧状态下的乳酸会促进预示乳腺癌患者低生存率的基因表达特征。我们的研究结果表明,乳酸积累会增加乳腺癌基因表达的异质性,促进癌症生长并降低患者生存率。
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Lactate in breast cancer cells is associated with evasion of hypoxia-induced cell cycle arrest and adverse patient outcome.

Tumor hypoxia is a common microenvironmental factor in breast cancers, resulting in stabilization of Hypoxia-Inducible Factor 1 (HIF-1), the master regulator of hypoxic response in cells. Metabolic adaptation by HIF-1 results in inhibition of citric acid cycle, causing accumulation of lactate in large concentrations in hypoxic cancers. Lactate can therefore serve as a secondary microenvironmental factor influencing cellular response to hypoxia. Presence of lactate can alter the hypoxic response of breast cancers in many ways, sometimes in opposite manners. Lactate stabilizes HIF-1 in oxidative condition, as well as destabilizes HIF-1 in hypoxia, increases cellular acidification, and mitigates HIF-1-driven inhibition of cellular respiration. We therefore tested the effect of lactate in MDA-MB-231 under hypoxia, finding that lactate can activate pathways associated with DNA replication, and cell cycling, as well as tissue morphogenesis associated with invasive processes. Using a bioengineered nano-patterned stromal invasion assay, we also confirmed that high lactate and induced HIF-1α gene overexpression can synergistically promote MDA-MB-231 dissemination and stromal trespass. Furthermore, using The Cancer Genome Atlas, we also surprisingly found that lactate in hypoxia promotes gene expression signatures prognosticating low survival in breast cancer patients. Our work documents that lactate accumulation contributes to increased heterogeneity in breast cancer gene expression promoting cancer growth and reducing patient survival.

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