糖酵解性胰腺导管腺癌的功能无创检测。

IF 6 3区 医学 Q1 CELL BIOLOGY
Irina Heid, Corinna Münch, Sinan Karakaya, Smiths S Lueong, Alina M Winkelkotte, Sven T Liffers, Laura Godfrey, Phyllis F Y Cheung, Konstantinos Savvatakis, Geoffrey J Topping, Florian Englert, Lukas Kritzner, Martin Grashei, Andrea Tannapfel, Richard Viebahn, Heiner Wolters, Waldemar Uhl, Deepak Vangala, Esther M M Smeets, Erik H J G Aarntzen, Daniel Rauh, Wilko Weichert, Jörg D Hoheisel, Stephan A Hahn, Franz Schilling, Rickmer Braren, Marija Trajkovic-Arsic, Jens T Siveke
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引用次数: 0

摘要

背景:胰腺导管腺癌(PDAC)缺乏化疗以外的有效治疗选择。虽然分子亚型如经典和QM(准间充质)/基底样与转录组为基础的不同特征已经确定,推断的治疗策略和靶点仍然难以捉摸。基因表达数据显示,在更具侵袭性和治疗抗性的QM亚型中,糖酵解基因丰富。然而,糖酵解转录本是否被翻译成功能性糖酵解,从而进一步探索QM亚型的代谢靶向性,目前尚不清楚。方法:我们使用不同的患者来源的PDAC模型系统(常规和原代患者来源的细胞,患者来源的异种移植物(PDX)和患者样本)并进行转录和功能代谢分析。其中包括RNAseq和Illumina HT12头阵列,体外海马代谢通量测定和代谢药物靶向,以及PDAC异种移植物体内超极化[1-13C]丙酮酸和[1-13C]乳酸磁共振波谱(HP-MRS)。结果:我们发现糖酵解代谢依赖性在所有QM pdac中并不是明确的功能暴露。代谢分析表明,患者来源的原代细胞的功能代谢异质性,而在独立于分子亚型的传统细胞系中则较少。重要的是,我们观察到糖酵解产物乳酸被积极地输入到PDAC细胞中,并在经典和QM PDAC细胞中用于线粒体氧化,尽管在QM细胞系中更为活跃。通过使用HP-MRS,我们能够通过检测最后一个糖酵解酶步骤和体内肿瘤内显著的[1-13C]丙酮酸和[1-13C]乳酸相互转化,无创地鉴定高度糖酵解的PDAC异种移植物。结论:我们的研究将功能代谢表型分析添加到基于转录组的分析中,并提出了一种功能方法来识别高度糖酵解的pdac作为抗代谢治疗途径的候选者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Functional noninvasive detection of glycolytic pancreatic ductal adenocarcinoma.

Functional noninvasive detection of glycolytic pancreatic ductal adenocarcinoma.

Functional noninvasive detection of glycolytic pancreatic ductal adenocarcinoma.

Functional noninvasive detection of glycolytic pancreatic ductal adenocarcinoma.

Background: Pancreatic ductal adenocarcinoma (PDAC) lacks effective treatment options beyond chemotherapy. Although molecular subtypes such as classical and QM (quasi-mesenchymal)/basal-like with transcriptome-based distinct signatures have been identified, deduced therapeutic strategies and targets remain elusive. Gene expression data show enrichment of glycolytic genes in the more aggressive and therapy-resistant QM subtype. However, whether the glycolytic transcripts are translated into functional glycolysis that could further be explored for metabolic targeting in QM subtype is still not known.

Methods: We used different patient-derived PDAC model systems (conventional and primary patient-derived cells, patient-derived xenografts (PDX), and patient samples) and performed transcriptional and functional metabolic analysis. These included RNAseq and Illumina HT12 bead array, in vitro Seahorse metabolic flux assays and metabolic drug targeting, and in vivo hyperpolarized [1-13C]pyruvate and [1-13C]lactate magnetic resonance spectroscopy (HP-MRS) in PDAC xenografts.

Results: We found that glycolytic metabolic dependencies are not unambiguously functionally exposed in all QM PDACs. Metabolic analysis demonstrated functional metabolic heterogeneity in patient-derived primary cells and less so in conventional cell lines independent of molecular subtype. Importantly, we observed that the glycolytic product lactate is actively imported into the PDAC cells and used in mitochondrial oxidation in both classical and QM PDAC cells, although more actively in the QM cell lines. By using HP-MRS, we were able to noninvasively identify highly glycolytic PDAC xenografts by detecting the last glycolytic enzymatic step and prominent intra-tumoral [1-13C]pyruvate and [1-13C]lactate interconversion in vivo.

Conclusion: Our study adds functional metabolic phenotyping to transcriptome-based analysis and proposes a functional approach to identify highly glycolytic PDACs as candidates for antimetabolic therapeutic avenues.

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来源期刊
自引率
1.70%
发文量
17
审稿时长
14 weeks
期刊介绍: Cancer & Metabolism welcomes studies on all aspects of the relationship between cancer and metabolism, including: -Molecular biology and genetics of cancer metabolism -Whole-body metabolism, including diabetes and obesity, in relation to cancer -Metabolomics in relation to cancer; -Metabolism-based imaging -Preclinical and clinical studies of metabolism-related cancer therapies.
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