靶向肿瘤线粒体代谢可克服对抗血管生成药物的耐药性。

Targeting Tumor Mitochondrial Metabolism Overcomes Resistance to Antiangiogenics.

作者信息

Navarro Paloma, Bueno Maria J, Zagorac Ivana, Mondejar Tamara, Sanchez Jesus, Mourón Silvana, Muñoz Javier, Gómez-López Gonzalo, Jimenez-Renard Veronica, Mulero Francisca, Chandel Navdeep S, Quintela-Fandino Miguel

机构信息

Breast Cancer Clinical Research Unit, CNIO-Spanish National Cancer Research Center, Melchor Fernández Almagro, 3, 28029 Madrid, Spain.

Proteomics Unit, CNIO-Spanish National Cancer Research Center, Melchor Fernández Almagro, 3, 28029 Madrid, Spain.

出版信息

Cell Rep. 2016 Jun 21;15(12):2705-18. doi: 10.1016/j.celrep.2016.05.052. Epub 2016 Jun 9.

DOI:10.1016/j.celrep.2016.05.052

PMID:27292634

Abstract

Epithelial malignancies are effectively treated by antiangiogenics; however, acquired resistance is a major problem in cancer therapeutics. Epithelial tumors commonly have mutations in the MAPK/Pi3K-AKT pathways, which leads to high-rate aerobic glycolysis. Here, we show how multikinase inhibitor antiangiogenics (TKIs) induce hypoxia correction in spontaneous breast and lung tumor models. When this happens, the tumors downregulate glycolysis and switch to long-term reliance on mitochondrial respiration. A transcriptomic, metabolomic, and phosphoproteomic study revealed that this metabolic switch is mediated by downregulation of HIF1α and AKT and upregulation of AMPK, allowing uptake and degradation of fatty acids and ketone bodies. The switch renders mitochondrial respiration necessary for tumor survival. Agents like phenformin or ME344 induce synergistic tumor control when combined with TKIs, leading to metabolic synthetic lethality. Our study uncovers mechanistic insights in the process of tumor resistance to TKIs and may have clinical applicability.

摘要

抗血管生成药物能有效治疗上皮性恶性肿瘤；然而，获得性耐药是癌症治疗中的一个主要问题。上皮性肿瘤通常在MAPK/Pi3K - AKT信号通路中存在突变，这导致了高速率的有氧糖酵解。在此，我们展示了多激酶抑制剂抗血管生成药物（TKIs）如何在自发性乳腺癌和肺癌肿瘤模型中诱导缺氧纠正。当这种情况发生时，肿瘤下调糖酵解并转而长期依赖线粒体呼吸。一项转录组学、代谢组学和磷酸化蛋白质组学研究表明，这种代谢转换是由HIF1α和AKT的下调以及AMPK的上调介导的，从而允许脂肪酸和酮体的摄取和降解。这种转换使线粒体呼吸成为肿瘤存活所必需的。当与TKIs联合使用时，像二甲双胍或ME344这样的药物会诱导协同的肿瘤控制，导致代谢性合成致死。我们的研究揭示了肿瘤对TKIs耐药过程中的机制性见解，可能具有临床应用价值。

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靶向肿瘤线粒体代谢可克服对抗血管生成药物的耐药性。

Targeting Tumor Mitochondrial Metabolism Overcomes Resistance to Antiangiogenics.

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