Institute of Life Science, Swansea University Medical School, Faculty of Medicine, Health & Life Science, Swansea University, Swansea, SA2 8PP, United Kingdom.
School of Translational Health Sciences, Dorothy Hodgkin Building, University of Bristol, Bristol, BS1 3NY, UK.
Mol Metab. 2024 Mar;81:101900. doi: 10.1016/j.molmet.2024.101900. Epub 2024 Feb 13.
The pyruvate transporter MPC1 (mitochondrial pyruvate carrier 1) acts as a tumour-suppressor, loss of which correlates with a pro-tumorigenic phenotype and poor survival in several tumour types. In high-grade serous ovarian cancers (HGSOC), patients display copy number loss of MPC1 in around 78% of cases and reduced MPC1 mRNA expression. To explore the metabolic effect of reduced expression, we demonstrate that depleting MPC1 in HGSOC cell lines drives expression of key proline biosynthetic genes; PYCR1, PYCR2 and PYCR3, and biosynthesis of proline. We show that altered proline metabolism underpins cancer cell proliferation, reactive oxygen species (ROS) production, and type I and type VI collagen formation in ovarian cancer cells. Furthermore, exploring The Cancer Genome Atlas, we discovered the PYCR3 isozyme to be highly expressed in a third of HGSOC patients, which was associated with more aggressive disease and diagnosis at a younger age. Taken together, our study highlights that targeting proline metabolism is a potential therapeutic avenue for the treatment of HGSOC.
丙酮酸转运蛋白 MPC1(线粒体丙酮酸载体 1)作为一种肿瘤抑制因子,其缺失与几种肿瘤类型中的促肿瘤发生表型和不良预后相关。在高级别浆液性卵巢癌(HGSOC)中,约 78%的患者存在 MPC1 的拷贝数缺失,且 MPC1 mRNA 表达降低。为了探究表达降低的代谢效应,我们证明在 HGSOC 细胞系中耗尽 MPC1 会促使关键脯氨酸生物合成基因(PYCR1、PYCR2 和 PYCR3)的表达,并促进脯氨酸的生物合成。我们发现,脯氨酸代谢的改变为卵巢癌细胞的增殖、活性氧(ROS)的产生以及 I 型和 VI 型胶原的形成提供了基础。此外,通过对癌症基因组图谱(The Cancer Genome Atlas)的探索,我们发现 PYCR3 同工酶在三分之一的 HGSOC 患者中高表达,这与更具侵袭性的疾病和更年轻的诊断年龄相关。综上所述,我们的研究强调了靶向脯氨酸代谢是治疗 HGSOC 的一种潜在治疗途径。
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