Metabolomics reveals intratumor heterogeneity – Implications for precision medicine
2017; Elsevier BV; Volume: 19; Linguagem: Inglês
10.1016/j.ebiom.2017.04.030
ISSN2352-3964
AutoresXiaojing Liu, Jason W. Locasale,
Tópico(s)Pancreatic and Hepatic Oncology Research
ResumoCancer cells have altered metabolism and ongoing efforts in developing therapies that target cancer metabolism are showing promise (DeBerardinis and Chandel, 2016DeBerardinis R.J. Chandel N.S. Fundamentals of cancer metabolism.Sci. Adv. 2016; 2e1600200Crossref PubMed Scopus (1499) Google Scholar). However, these therapies show variable efficacy and whether the source of this variation is linked to the metabolic differences across or possibly within individual tumors is unknown. In this issue of EBioMedicine, Okegawa et al. use metabolomics to not only demonstrate differences across human kidney tumors, but they also identify metabolic differences within regions of the same tumor (Okegawa et al., 2017Okegawa T. Morimoto M. Nishizawa S. Kitazawa S. Honda K. Araki H. Tamura T. Ando A. Satomi Y. Nutahara K. et al.Intratumor Heterogeneity in Primary Kidney Cancer Revealed by Metabolic Profiling of Multiple Spatially Separated Samples within Tumors.2017: 31-38Google Scholar). The incorporation of these results into the strategy of investigational therapies may lead to more precise patient stratifications according to their metabolism. The intertumor heterogeneity of gene expression has been widely appreciated (Hu et al., 2013Hu J. Locasale J.W. Bielas J.H. O'Sullivan J. Sheahan K. Cantley L.C. Vander Heiden M.G. Vitkup D. Heterogeneity of tumor-induced gene expression changes in the human metabolic network.Nat. Biotechnol. 2013; 31: 522-529Crossref PubMed Scopus (287) Google Scholar). For example, gene expression signatures are now routinely used clinically to guide treatment decisions as is the case of whether to use chemotherapy after surgical resection in early stage breast cancer (Cardoso et al., 2016Cardoso F. van't Veer L.J. Bogaerts J. Slaets L. Viale G. Delaloge S. Pierga J.Y. Brain E. Causeret S. DeLorenzi M. et al.70-Gene signature as an aid to treatment decisions in early-stage breast cancer.N. Engl. J. Med. 2016; 375: 717-729Crossref PubMed Google Scholar). In contrast to what has been achieved with gene expression, predictive models based on metabolism have not been widely used. This is because many challenges remain for using metabolomics approaches clinically in cancer. In addition to the genetic makeup of the tumor cells, tumor metabolism can be largely affected by environmental factors (Vander Heiden and DeBerardinis, 2017Vander Heiden M.G. DeBerardinis R.J. Understanding the intersections between metabolism and cancer biology.Cell. 2017; 168: 657-669Summary Full Text Full Text PDF PubMed Scopus (1142) Google Scholar), such as the location of the tumor origin, positioning of the vasculature, nutrient availability in the plasma that can be affected by diet, liver function and gut microbial composition, and interactions with stromal cells such as the immune compartment and endothelial cells. Thus, the complexity of the sources of variation within and across tumor tissues has limited translational applicability. With current technology, metabolomics data can be acquired from human samples. For instance, from performing metabolite profiling on 138 matched human kidney tumors and normal tissue pairs, a recent study was able to group kidney cancers according to their metabolic profiles and associate particular sub-groups with poor-survival (Hakimi et al., 2016Hakimi A.A. Reznik E. Lee C.H. Creighton C.J. Brannon A.R. Luna A. Aksoy B.A. Liu E.M. Shen R. Lee W. et al.An integrated metabolic atlas of clear cell renal cell carcinoma.Cancer Cell. 2016; 29: 104-116Summary Full Text Full Text PDF PubMed Scopus (391) Google Scholar). Furthermore, noninvasive approaches using isotope tracing have been employed to measure the flow of nutrients through metabolic pathways in patients. For example, Fan et al. performed a 13C glucose infusion in human lung cancer patients prior to surgery (Fan et al., 2009Fan T.W. Lane A.N. Higashi R.M. Farag M.A. Gao H. Bousamra M. Miller D.M. Altered regulation of metabolic pathways in human lung cancer discerned by (13)C stable isotope-resolved metabolomics (SIRM).Mol. Cancer. 2009; 8: 41Crossref PubMed Scopus (328) Google Scholar). They identified increased pyruvate carboxylase (PC) activity in human lung tumors as compared to the surrounding normal lung. Hensley et al. further demonstrated that human tumors exhibit not only altered tumor metabolism compared to what is observed in adjacent benign lung, but also significant intertumor and intratumor heterogeneity in tumor metabolism by employing clinical imaging and intraoperative 13C–glucose infusions in human lung tumors (Hensley et al., 2016Hensley C.T. Faubert B. Yuan Q. Lev-Cohain N. Jin E. Kim J. Jiang L. Ko B. Skelton R. Loudat L. et al.Metabolic heterogeneity in human lung tumors.Cell. 2016; 164: 681-694Summary Full Text Full Text PDF PubMed Scopus (633) Google Scholar). Other metabolomics studies in ovarian cancer have demonstrated that signatures of drug response may be contained in the metabolite profiles of human tumors obtained from surgical resection (Liu et al., 2016Liu X. Romero I.L. Litchfield L.M. Lengyel E. Locasale J.W. Metformin Targets Central Carbon Metabolism and Reveals Mitochondrial Requirements in Human Cancers.2016Summary Full Text Full Text PDF Scopus (146) Google Scholar). Now Okegawa et al. not only characterized distinct metabolic profiles across human kidney tumors but also in different regions of the same tumor. By measuring metabolites in spatially-separated sites within human kidney tumors and performing unsupervised clustering, they first identified two clusters (MC1 and MC2) with MC2 exhibiting features associated with increased pyruvate metabolism. They further confirmed their results via stable isotope tracing in tumor slices. Interestingly, these differences were not associated with genetic variation, which further indicates that multiple factors contribute to the heterogeneity of cancer metabolism. While metabolomics can show that there are changes in pathway activity, the data don't directly imply that the pathways identified are required. Therefore, Okegawa et al. treated patient kidney tumor derived cell lines and xenografts with the mitochondrial pyruvate carrier inhibitor, UK5099, to demonstrate that targeting pyruvate metabolism could be therapeutic in some kidney cancers. Beyond identifying this therapeutic target, Okegawa et al. further showed that distinct metabolic patterns could be linked to the efficacy of the clinically used kidney cancer drug, temsirolimus. Characterizing cancer metabolism and evaluating its predictive capability in patients faces many challenges. Both patient genetic lesions and environmental factors contribute to reprogramed cancer metabolism and it is hard to identify exhaustively each of these factors in a patient cohort which limits any population analysis. Also, conclusions can grossly vary depending on the experimental model used to collect the metabolic signature and validate its function, which makes it difficult to extrapolate findings from experimental models to human situations. Nevertheless, future work will evaluate pyruvate transport into the mitochondria as a therapeutic target and predictor of temsirolimus sensitivity in broader contexts. The work from Okegawa et al. however makes a major step forward in revealing the heterogeneity of metabolism in human kidney cancer and demonstrates that metabolic phenotypes are complex yet tractable with the appropriate technology, and once identified, could potentially have substantial clinical value for precision medicine. The authors declare no conflicts of interest at this time. Intratumor Heterogeneity in Primary Kidney Cancer Revealed by Metabolic Profiling of Multiple Spatially Separated Samples within TumorsMetabolic alteration constitutes a hallmark of cancer. Glycolysis and antioxidant pathways in kidney cancer are elevated, with frequent mutation of the VHL gene. Intratumor genetic heterogeneity has been recently demonstrated in kidney cancer. However, intratumor metabolic heterogeneity has not been investigated. Here, we used global metabolomics analysis and tissue slice tracer studies to demonstrate that different portions of a human primary kidney tumor possess different metabolic characteristics and drug sensitivity. Full-Text PDF Open Access
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