Ascorbate availability affects tumor implantation-take rate and increases tumor rejection in Gulo−/− mice

E. J. Campbell, M. Vissers, G. Dachs
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引用次数: 19

Abstract

In solid tumors, HIF1 upregulates the expression of hundreds of genes involved in cell survival, tumor growth, and adaptation to the hypoxic microenvironment. HIF1 stabilization and activity are suppressed by prolyl and asparagine hydroxylases, which require oxygen as a substrate and ascorbate as a cofactor. This has led us to hypothesize that intracellular ascorbate availability could modify the hypoxic HIF1 response and influence tumor growth. In this study, we investigated the effect of variable intracellular ascorbate levels on HIF1 induction in cancer cells in vitro, and on tumor-take rate and growth in the Gulo−/− mouse. These mice depend on dietary ascorbate, and were supplemented with 3,300 mg/L, 330 mg/L, or 33 mg/L ascorbate in their drinking water, resulting in saturating, medium, or low plasma and tissue ascorbate levels, respectively. In Lewis lung carcinoma cells (LL/2) in culture, optimal ascorbate supplementation reduced HIF1 accumulation under physiological but not pathological hypoxia. LL/2, B16-F10 melanoma, or CMT-93 colorectal cancer cells were implanted subcutaneously into Gulo−/− mice at a range of cell inocula. Establishment of B16-F10 tumors in mice supplemented with 3,300 mg/L ascorbate required an increased number of cancer cells to initiate tumor growth compared with the number of cells required in mice on suboptimal ascorbate intake. Elevated ascorbate intake was also associated with decreased tumor ascorbate levels and a reduction in HIF1α expression and transcriptional activity. Following initial growth, all CMT-93 tumors regressed spontaneously, but mice supplemented with 33 mg/L ascorbate had lower plasma ascorbate levels and grew larger tumors than optimally supplemented mice. The data from this study indicate that improved ascorbate intake is consistent with increased intracellular ascorbate levels, reduced HIF1 activity and reduced tumor initiation and growth, and this may be advantageous in the management of cancer.
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抗坏血酸可影响Gulo - / -小鼠的肿瘤植入率并增加肿瘤排斥反应
在实体肿瘤中,HIF1上调数百个基因的表达,这些基因参与细胞存活、肿瘤生长和对缺氧微环境的适应。脯氨酸和天冬酰胺羟化酶抑制HIF1的稳定性和活性,这需要氧作为底物和抗坏血酸作为辅助因子。这使我们假设细胞内抗坏血酸可用性可以改变缺氧HIF1反应并影响肿瘤生长。在这项研究中,我们研究了细胞内可变抗坏血酸水平对体外诱导癌细胞中HIF1的影响,以及对Gulo - / -小鼠的肿瘤取瘤率和生长的影响。这些小鼠依赖于饮食中的抗坏血酸,并在其饮用水中添加3,300 mg/L、330 mg/L或33 mg/L的抗坏血酸,分别导致血浆和组织中的抗坏血酸水平达到饱和、中等或较低。在培养的Lewis肺癌细胞(LL/2)中,在生理性而非病理性缺氧条件下,补充最佳抗坏血酸可减少HIF1的积累。将LL/2、B16-F10黑色素瘤或CMT-93结直肠癌细胞以不同的细胞接种方式皮下植入Gulo - / -小鼠。在补充了3300 mg/L抗坏血酸的小鼠中,B16-F10肿瘤的形成需要更多的癌细胞来启动肿瘤生长,而在摄入了次优抗坏血酸的小鼠中则需要更多的细胞。升高的抗坏血酸摄入量也与肿瘤抗坏血酸水平降低和HIF1α表达和转录活性降低有关。在最初的生长过程中,所有的CMT-93肿瘤都自发消退,但与补充了33 mg/L抗坏血酸的小鼠相比,补充了33 mg/L抗坏血酸的小鼠血浆抗坏血酸水平更低,肿瘤生长更大。这项研究的数据表明,抗坏血酸摄入的改善与细胞内抗坏血酸水平的增加、HIF1活性的降低和肿瘤发生和生长的减少是一致的,这可能对癌症的治疗是有利的。
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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Abstract IA-015: Hypoxia-induced SETX links replication stress with the unfolded protein response Abstract PO-033: Papaverine derivative smv-32 alleviates tumor hypoxia and radiosensitizes tumors by inhibiting mitochondrial metabolism Abstract PO-034: Changes in cancer associated fibroblast subsets following angiotensin II type I receptor blocker (ARB) treatment reduces transient hypoxia and radiation resistance Abstract IA-017: Chromatin and gene transcription in hypoxia Abstract IA-016: Metabolic deregulation drives a redox vulnerability in pancreatic cancer
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