Ascorbate modulates the hypoxic pathway by increasing intracellular activity of the HIF hydroxylases in renal cell carcinoma cells.

Hypoxia (Auckland, N.Z.) Pub Date : 2019-05-15 eCollection Date: 2019-01-01 DOI:10.2147/HP.S201643
Christina Wohlrab, Caroline Kuiper, Margreet Cm Vissers, Elisabeth Phillips, Bridget A Robinson, Gabi U Dachs
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引用次数: 22

Abstract

Purpose: Protein levels and activity of the hypoxia-inducible transcription factors HIF-1 and HIF-2 are controlled by hydroxylation of the regulatory alpha chains. Proline hydroxylases (PHDs) target the protein for degradation via the von-Hippel-Lindau (VHL)-ubiquitin-ligase complex, and asparagine hydroxylation by Factor Inhibiting HIF (FIH) leads to transcriptional inactivation. In cell-free systems, these enzymes require ascorbate as a cofactor, and this is also inferred to be an intracellular requirement for effective hydroxylation. However, how intracellular concentrations of ascorbate affect hydroxylase activity is unknown. In this study, we investigated the modulation of the regulatory hydroxylases in cancer cells by intracellular ascorbate. Materials and methods: To facilitate this investigation, we used clear cell renal carcinoma cell lines that were VHL-proficient (Caki-1), with a normal hypoxic response, or VHL-defective (Caki-2 and 786-0), with uncontrolled accumulation of HIF-α chains. We monitored the effect of intracellular ascorbate on the hypoxia-induced accumulation of HIF-1α, HIF-2α and the expression of downstream HIF targets BNIP3, cyclin D1 and GLUT1. Changes in hydroxylation of the HIF-1α protein in response to ascorbate were also investigated in 786-0 cells gene-modified to express full-length HIF-1α (786-HIF1). Results: In VHL-proficient cells, hypoxia induced accumulation of HIF-1α and BNIP3 which was dampened in mild hypoxia by elevated intracellular ascorbate. Increased HIF-2α accumulation occurred only under severe hypoxia and this was not modified by ascorbate availability. In VHL-defective cells, ascorbate supplementation induced additional accumulation of HIF under hypoxic conditions and HIF pathway proteins were unchanged by oxygen supply. In 786-HIF1 cells, levels of hydroxylated HIF-1α were elevated in response to increasing intracellular ascorbate levels. Conclusion: Our data provide evidence that the hypoxic pathway can be modulated by increasing HIF hydroxylase activity via intracellular ascorbate availability. In VHL-defective cells, accumulation of HIF-alpha proteins is independent of hydroxylation and is unaffected by intracellular ascorbate levels.

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抗坏血酸通过增加肾细胞癌细胞内HIF羟化酶的活性来调节缺氧途径。
目的:缺氧诱导的转录因子HIF-1和HIF-2的蛋白水平和活性受调节α链的羟基化控制。脯氨酸羟化酶(PHDs)通过von- hipel - lindau (VHL)-泛素连接酶复合物靶向蛋白质降解,而抑制因子HIF (FIH)的天冬酰胺羟化导致转录失活。在无细胞系统中,这些酶需要抗坏血酸作为辅助因子,这也被推断为有效羟基化的细胞内需求。然而,细胞内抗坏血酸浓度如何影响羟化酶活性尚不清楚。在这项研究中,我们研究了细胞内抗坏血酸对癌细胞中调节羟化酶的调节。材料和方法:为了促进这项研究,我们使用了vhl精通(Caki-1),具有正常缺氧反应的透明细胞肾癌细胞系,或vhl缺陷(Caki-2和786-0),具有不受控制的HIF-α链积累。我们监测了细胞内抗坏血酸对缺氧诱导的HIF-1α、HIF-2α积累以及下游HIF靶点binip3、cyclin D1和GLUT1表达的影响。我们还研究了786-0细胞中表达全长HIF-1α (786-HIF1)的HIF-1α蛋白羟基化对抗坏血酸反应的变化。结果:在vhl精通的细胞中,缺氧诱导HIF-1α和BNIP3的积累,轻度缺氧时细胞内抗坏血酸的升高抑制了HIF-1α和BNIP3的积累。HIF-2α积累的增加只发生在严重缺氧的情况下,并且不受抗坏血酸可用性的影响。在vhl缺陷细胞中,补充抗坏血酸会在缺氧条件下诱导HIF的额外积累,并且HIF通路蛋白不受氧气供应的影响。在786-HIF1细胞中,随着细胞内抗坏血酸水平的增加,羟基化HIF-1α水平升高。结论:我们的数据提供了证据,证明缺氧途径可以通过细胞内抗坏血酸可用性增加HIF羟化酶活性来调节。在vhl缺陷细胞中,hif - α蛋白的积累与羟基化无关,不受细胞内抗坏血酸水平的影响。
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