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Literature DB >> 31171526

The Tumor Metabolic Microenvironment: Lessons from Lactate.

Juan C García-Cañaveras¹, Li Chen¹, Joshua D Rabinowitz².

Abstract

The extracellular milieu of tumors is generally assumed to be immunosuppressive due in part to metabolic factors. Here, we review methods for probing the tumor metabolic microenvironment. In parallel, we consider the resulting available evidence, with a focus on lactate, which is the most strongly increased metabolite in bulk tumors. Limited microenvironment concentration measurements suggest depletion of glucose and modest accumulation of lactate (less than 2-fold). Isotope tracer measurements show rapid lactate exchange between the tumor and circulation. Such exchange is catalyzed by MCT transporters, which cotransport lactate and protons (H+). Rapid lactate exchange seems at odds with tumor lactate accumulation. We propose a potential resolution to this paradox. Because of the high pH of tumor cells relative to the microenvironment, H+-coupled transport by MCTs tends to drive lactate from the interstitium into tumor cells. Accordingly, lactate may accumulate preferentially in tumor cells, not the microenvironment. Thus, although they are likely subject to other immunosuppressive metabolic factors, tumor immune cells may not experience a high lactate environment. The lack of clarity regarding microenvironmental lactate highlights the general need for careful metabolite measurements in the tumor extracellular milieu. ©2019 American Association for Cancer Research.

Entities: Chemical Disease Gene Species

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Year: 2019 PMID： 31171526 PMCID： PMC6606343 DOI： 10.1158/0008-5472.CAN-18-3726

Source DB: PubMed Journal: Cancer Res ISSN： 0008-5472 Impact factor: 12.701

86 in total

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The Tumor Metabolic Microenvironment: Lessons from Lactate.

Review 1. Utilization of in vivo ultrafiltration in biomedical research and clinical applications.

Review 2. Molecular imaging of cancer with positron emission tomography.

3. Inhibitory effect of tumor cell-derived lactic acid on human T cells.

4. A2A adenosine receptor protects tumors from antitumor T cells.

5. Baseline levels of glucose metabolites, glutamate and glycerol in malignant glioma assessed by stereotactic microdialysis.

Review 6. Tumour vascular targeting.

7. Isolation of interstitial fluid from rat mammary tumors by a centrifugation method.

Review 8. pH imaging. A review of pH measurement methods and applications in cancers.

Review 9. Imaging of angiogenesis: from microscope to clinic.

10. Proteomic characterization of the interstitial fluid perfusing the breast tumor microenvironment: a novel resource for biomarker and therapeutic target discovery.

1. Ketogenic diet and chemotherapy combine to disrupt pancreatic cancer metabolism and growth.

2. The transcription factor RFX5 coordinates antigen-presenting function and resistance to nutrient stress in synovial macrophages.

Review 3. Proton-sensing G protein-coupled receptors: detectors of tumor acidosis and candidate drug targets.

Review 4. CD8⁺ T cell metabolism in infection and cancer.

Review 5. Metabolites and the tumour microenvironment: from cellular mechanisms to systemic metabolism.

Review 6. Breast tumor-on-chip models: From disease modeling to personalized drug screening.

Review 7. Ion Channels, Transporters, and Sensors Interact with the Acidic Tumor Microenvironment to Modify Cancer Progression.

Review 8. Engineering strategies to capture the biological and biophysical tumor microenvironment in vitro.

9. Structural Evidence for Isoform-Selective Allosteric Inhibition of Lactate Dehydrogenase A.

Review 10. Targeting L-Lactate Metabolism to Overcome Resistance to Immune Therapy of Melanoma and Other Tumor Entities.

Review 1. Utilization of in vivo ultrafiltration in biomedical research and clinical applications.

Review 2. Molecular imaging of cancer with positron emission tomography.

Review 6. Tumour vascular targeting.

Review 8. pH imaging. A review of pH measurement methods and applications in cancers.

Review 9. Imaging of angiogenesis: from microscope to clinic.

Review 3. Proton-sensing G protein-coupled receptors: detectors of tumor acidosis and candidate drug targets.

Review 4. CD8+ T cell metabolism in infection and cancer.

Review 5. Metabolites and the tumour microenvironment: from cellular mechanisms to systemic metabolism.

Review 6. Breast tumor-on-chip models: From disease modeling to personalized drug screening.

Review 7. Ion Channels, Transporters, and Sensors Interact with the Acidic Tumor Microenvironment to Modify Cancer Progression.

Review 8. Engineering strategies to capture the biological and biophysical tumor microenvironment in vitro.

Review 10. Targeting L-Lactate Metabolism to Overcome Resistance to Immune Therapy of Melanoma and Other Tumor Entities.

Review 4. CD8⁺ T cell metabolism in infection and cancer.