2-氧戊二酸类似物3-氧戊二酸降低癌细胞中的常氧缺氧诱导因子-1α,诱导细胞死亡,并降低肿瘤异种移植物生长。

Hypoxia (Auckland, N.Z.) Pub Date : 2016-01-01 Epub Date: 2016-03-04 DOI:10.2147/HP.S96366
Peppi Koivunen, Stuart M Fell, Wenyun Lu, Joshua D Rabinowitz, Andrew L Kung, Susanne Schlisio
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引用次数: 6

摘要

细胞对缺氧的反应主要由缺氧诱导因子(hif)调节。HIF-1α也是肿瘤生理的主要介质,其丰度与多种癌症的治疗耐药性相关。缺氧条件下HIF-1α的积累主要由氧敏感型HIF脯氨酰4-羟化酶(EGLNs,也称为PHDs)控制。在这里,我们在各种癌细胞系中发现了高水平的常氧HIF-1α蛋白。EGLNs需要氧气和2-氧戊二酸盐来维持酶活性。我们测试了几种细胞渗透性2-氧葡萄糖酸类似物调节HIF-1α蛋白丰度的能力。我们发现3-氧戊二酸盐在常氧条件下是HIF-1α的有效调节剂。与2-氧戊二酸相比,3-氧戊二酸降低了几种癌细胞在常氧环境下HIF-1α蛋白的丰度,并降低了不依赖于EGLN酶活性的HIF-1α水平。此外,我们观察到3-氧戊二酸对癌细胞的存活是有害的。我们发现,在体外和体内实验中,酯化的3-氧戊二酸酯与癌症化疗药物长春新碱联合使用可诱导细胞凋亡并抑制肿瘤生长。我们的数据表明,一种针对HIF-1α的新型治疗策略与现有细胞毒性药物的使用相结合,可能成为未来有效的抗肿瘤化疗药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The 2-oxoglutarate analog 3-oxoglutarate decreases normoxic hypoxia-inducible factor-1α in cancer cells, induces cell death, and reduces tumor xenograft growth.

The cellular response to hypoxia is primarily regulated by the hypoxia-inducible factors (HIFs). HIF-1α is also a major mediator of tumor physiology, and its abundance is correlated with therapeutic resistance in a broad range of cancers. Accumulation of HIF-1α under hypoxia is mainly controlled by the oxygen-sensing HIF prolyl 4-hydroxylases (EGLNs, also known as PHDs). Here, we identified a high level of normoxic HIF-1α protein in various cancer cell lines. EGLNs require oxygen and 2-oxoglutarate for enzymatic activity. We tested the ability of several cell-permeable 2-oxoglutarate analogs to regulate the abundance of HIF-1α protein. We identified 3-oxoglutarate as a potent regulator of HIF-1α in normoxic conditions. In contrast to 2-oxoglutarate, 3-oxoglutarate decreased the abundance of HIF-1α protein in several cancer cell lines in normoxia and diminished HIF-1α levels independent of EGLN enzymatic activity. Furthermore, we observed that 3-oxoglutarate was detrimental to cancer cell survival. We show that esterified 3-oxoglutarate, in combination with the cancer chemotherapeutic drug vincristine, induces apoptosis and inhibits tumor growth in vitro and in vivo. Our data imply that a novel treatment strategy targeting HIF-1α in combination with the use of existing cytotoxic agents could serve as potent, future antitumor chemotherapies.

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