Xiphias Ge Zhu scite author profile

As oxygen is essential for many metabolic pathways, tumour hypoxia may impair cancer cell proliferation. However, the limiting metabolites for proliferation under hypoxia and in tumours are unknown. Here, we assessed proliferation of a collection of cancer cells following inhibition of the mitochondrial electron transport chain (ETC), a major metabolic pathway requiring molecular oxygen. Sensitivity to ETC inhibition varied across cell lines, and subsequent metabolomic analysis uncovered aspartate availability as a major determinant of sensitivity. Cell lines least sensitive to ETC inhibition maintain aspartate levels by importing it through an aspartate/glutamate transporter, SLC1A3. Genetic or pharmacologic modulation of SLC1A3 activity markedly altered cancer cell sensitivity to ETC inhibitors. Interestingly, aspartate levels also decrease under low oxygen, and increasing aspartate import by SLC1A3 provides a competitive advantage to cancer cells at low oxygen levels and in tumour xenografts. Finally, aspartate levels in primary human tumours negatively correlate with the expression of hypoxia markers, suggesting that tumour hypoxia is sufficient to inhibit ETC and, consequently, aspartate synthesis in vivo. Therefore, aspartate may be a limiting metabolite for tumour growth, and aspartate availability could be targeted for cancer therapy.

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Adipocyte-Derived Lipids Mediate Melanoma Progression via FATP Proteins

Zhang

Martino²,

Bowman

et al. 2018

276

265

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Advanced, metastatic melanomas frequently grow in subcutaneous tissues and portend a poor prognosis. Though subcutaneous tissues are largely composed of adipocytes, the mechanisms by which adipocytes influence melanoma are poorly understood. Using and models, we find that adipocytes increase proliferation and invasion of adjacent melanoma cells. Additionally, adipocytes directly transfer lipids to melanoma cells, which alters tumor cell metabolism. Adipocyte-derived lipids are transferred to melanoma cells through the FATP/SLC27A family of lipid transporters expressed on the tumor cell surface. Among the six FATP/SLC27A family members, melanomas significantly overexpress FATP1/SLC27A1. Melanocyte-specific FATP1 expression cooperates with BRAF in transgenic zebrafish to accelerate melanoma development, an effect that is similarly seen in mouse xenograft studies. Pharmacologic blockade of FATPs with the small-molecule inhibitor Lipofermata abrogates lipid transport into melanoma cells and reduces melanoma growth and invasion. These data demonstrate that stromal adipocytes can drive melanoma progression through FATP lipid transporters and represent a new target aimed at interrupting adipocyte-melanoma cross-talk. We demonstrate that stromal adipocytes are donors of lipids that mediate melanoma progression. Adipocyte-derived lipids are taken up by FATP proteins that are aberrantly expressed in melanoma. Inhibition of FATPs decreases melanoma lipid uptake, invasion, and growth. We provide a mechanism for how stromal adipocytes drive tumor progression and demonstrate a novel microenvironmental therapeutic target. .

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CHP1 Regulates Compartmentalized Glycerolipid Synthesis by Activating GPAT4

et al. 2019

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SLC25A39 is necessary for mitochondrial glutathione import in mammalian cells

Wang

Yen

Zhu

et al. 2021

Nature

121

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Functional Genomics In Vivo Reveal Metabolic Dependencies of Pancreatic Cancer Cells

et al. 2021

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Xiphias Ge Zhu

Aspartate is a limiting metabolite for cancer cell proliferation under hypoxia and in tumours

Adipocyte-Derived Lipids Mediate Melanoma Progression via FATP Proteins

CHP1 Regulates Compartmentalized Glycerolipid Synthesis by Activating GPAT4

SLC25A39 is necessary for mitochondrial glutathione import in mammalian cells

Functional Genomics In Vivo Reveal Metabolic Dependencies of Pancreatic Cancer Cells

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