2021
DOI: 10.3390/metabo11110777
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BRAF-Inhibitor-Induced Metabolic Alterations in A375 Melanoma Cells

Abstract: Acquired drug tolerance has been a major challenge in cancer therapy. Recent evidence has revealed the existence of slow-cycling persister cells that survive drug treatments and give rise to multi-drug-tolerant mutants in cancer. Cells in this dynamic persister state can escape drug treatment by undergoing various epigenetic changes, which may result in a transient metabolic rewiring. In this study, with the use of untargeted metabolomics and phenotype microarrays, we characterize the metabolic profiles of mel… Show more

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Cited by 7 publications
(7 citation statements)
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“…Accordingly, persister cells (i.e. non-genetically modified cells that survive anti-MAPK therapy) (i) have a lower intracellular concentration of Glu and Asp as compared to the initial cell population (Figure 5B ), in agreement with the OXPHOS pathway re-activation reported in these cells and (ii) express a low level of gene products involved in DNA metabolism (Figure 5D – F ), in agreement with their reported slow growing rate ( 46–48 , 81–86 ).…”
Section: Discussionsupporting
confidence: 84%
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“…Accordingly, persister cells (i.e. non-genetically modified cells that survive anti-MAPK therapy) (i) have a lower intracellular concentration of Glu and Asp as compared to the initial cell population (Figure 5B ), in agreement with the OXPHOS pathway re-activation reported in these cells and (ii) express a low level of gene products involved in DNA metabolism (Figure 5D – F ), in agreement with their reported slow growing rate ( 46–48 , 81–86 ).…”
Section: Discussionsupporting
confidence: 84%
“…Accordingly, growth medium depletion of Gln induced Glu- and Asp-intracellular concentration decrease, while Glu- and/or Asp-depletion did not result in their intracellular concentration decrease (Figure 4C and Supplementary Figure S4b ), probably because Glu and Asp can be generated from Gln from the growth medium ( 45 , 76 ). Importantly, the use of Gln, Glu and Asp in the oxidative phosphorylation (OXPHOS) pathway, which produces energy from the complete degradation of their carbon skeleton, is reactivated by MAPKi ( 46–51 , 73 ). This may explain the observed Glu- and Asp-intracellular concentration decrease in MAPKi-exposed cells (Figures 4A and 5B ).…”
Section: Discussionmentioning
confidence: 99%
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“…We sought to determine whether activation of the MRTF pathway contributes to Vem–resistance. Using CCG-257081, an MRTF-pathway inhibitor (MRTFi) acting downstream of ROCK [ 24 , 25 ] we tested effects of the compound on measures of Rho/MRTF signaling and cell sensitivity to Vem. Treating YUMM1.7_R and YUMMER_R with 10 µM of CCG-257081 for 24 h significantly reduced actin-stress fibers ( Figure 4 a–d).…”
Section: Resultsmentioning
confidence: 99%
“…Accordingly, cancers cells are often addicted to certain amino acids, such as Gln in melanoma cells 37,41,44,45 . The link between cell metabolism and gene expression-dependent cell phenotypes could have consequences in cancer cells exposed to anti-cancer agents, such as MAPKinhibitors (MAPKi) used to treat melanoma, since these molecules modify the cancer cell metabolism [46][47][48][49][50][51] . In other words, anticancer therapies may impact cellular phenotypes because of metabolicdependent effects on gene product expression levels.…”
Section: Introductionmentioning
confidence: 99%