Differential effect of hypoxia and acidity on lung cancer cell and fibroblast metabolism.

A. Giatromanolaki, Maria Liousia, Stella Arelaki, D. Kalamida, S. Pouliliou, A. Mitrakas, A. Tsolou, E. Sivridis, M. Koukourakis
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引用次数: 10

Abstract

This study examined the metabolic response of lung cancer cells and normal lung fibroblasts to hypoxia and acidity. GLUT1 and HXKII mRNA/protein expression was up-regulated under hypoxia in the MRC5 fibroblasts and in the A549 and H1299 lung cancer cell lines, indicating intensified glucose absorption and glycolysis. Under hypoxia, the LDHA mRNA and LDH5 protein levels increased in the cancer cells but not in the fibroblasts. Acidity suppressed the above-mentioned hypoxia effect. PDH-kinase-1 (PDK1 mRNA and protein) and inactive phosphorylated-PDH protein levels were induced under hypoxia in the cancer cells, whereas these were reduced in the MRC5 lung fibroblasts. In human tissue sections, the prevalent expression patterns supported the contrasting metabolic behavior of cancer cells vs. tumor fibroblasts. The monocarboxylate/lactate transporter 1 (MCT1) was up-regulated in all the cell lines under hypoxic conditions, but it was suppressed under acidic conditions. The mitochondrial DNA (mtDNA) content per cell decreased significantly in the A549 cancer cell line under hypoxia, but it increased in the MRC5 fibroblasts. Taking into account these findings, we suggest that, under hypoxia, cancer cells intensify the anaerobic direction in glycolysis, while normal fibroblasts prefer to seek energy by intensifying the aerobic use of the available oxygen.
缺氧和酸性对肺癌细胞和成纤维细胞代谢的差异影响。
本研究考察了肺癌细胞和正常肺成纤维细胞对缺氧和酸性的代谢反应。缺氧条件下,MRC5成纤维细胞和A549和H1299肺癌细胞系中GLUT1和HXKII mRNA/蛋白表达上调,表明葡萄糖吸收和糖酵解增强。缺氧条件下,LDHA mRNA和LDH5蛋白水平在癌细胞中升高,而在成纤维细胞中没有升高。酸度抑制上述缺氧作用。缺氧诱导癌细胞中PDK1激酶-1 (PDK1 mRNA和蛋白)和无活性磷酸化pdh蛋白水平,而MRC5肺成纤维细胞中这些水平降低。在人体组织切片中,普遍的表达模式支持癌细胞与肿瘤成纤维细胞的代谢行为对比。在缺氧条件下,所有细胞系的单羧酸/乳酸转运蛋白1 (MCT1)均上调,但在酸性条件下被抑制。缺氧条件下,A549癌细胞单细胞线粒体DNA (mtDNA)含量显著降低,MRC5成纤维细胞线粒体DNA含量升高。考虑到这些发现,我们认为,在缺氧条件下,癌细胞在糖酵解过程中强化厌氧方向,而正常成纤维细胞更倾向于通过强化可用氧的有氧利用来寻求能量。
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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