Metabolic heterogeneity confers differences in melanoma metastatic potential

Alpaslan Tasdogan, Brandon Faubert, Vijayashree Ramesh, Jessalyn M. Ubellacker, Bo Shen, Ashley Solmonson, Malea M. Murphy, Zhimin Gu, Wen Gu, Misty Martin, Stacy Y. Kasitinon, Travis Vandergriff, Thomas P. Mathews, Zhiyu Zhao, Dirk Schadendorf, Ralph J. DeBerardinis, Sean J. Morrison

Research output: Contribution to journalArticlepeer-review

254 Scopus citations


Metastasis requires cancer cells to undergo metabolic changes that are poorly understood1–3. Here we show that metabolic differences among melanoma cells confer differences in metastatic potential as a result of differences in the function of the MCT1 transporter. In vivo isotope tracing analysis in patient-derived xenografts revealed differences in nutrient handling between efficiently and inefficiently metastasizing melanomas, with circulating lactate being a more prominent source of tumour lactate in efficient metastasizers. Efficient metastasizers had higher levels of MCT1, and inhibition of MCT1 reduced lactate uptake. MCT1 inhibition had little effect on the growth of primary subcutaneous tumours, but resulted in depletion of circulating melanoma cells and reduced the metastatic disease burden in patient-derived xenografts and in mouse melanomas. In addition, inhibition of MCT1 suppressed the oxidative pentose phosphate pathway and increased levels of reactive oxygen species. Antioxidants blocked the effects of MCT1 inhibition on metastasis. MCT1high and MCT1−/low cells from the same melanomas had similar capacities to form subcutaneous tumours, but MCT1high cells formed more metastases after intravenous injection. Metabolic differences among cancer cells thus confer differences in metastatic potential as metastasizing cells depend on MCT1 to manage oxidative stress.

Original languageEnglish (US)
Pages (from-to)115-120
Number of pages6
Issue number7788
StatePublished - Jan 2 2020

ASJC Scopus subject areas

  • General


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