Metabolic rearrangements are essential to satisfy the different requirements of cancer cells during tumorigenesis and recent studies have highlighted a role for such metabolic reprogramming in response and adaptation to therapies. However, therapy-resistant experimental models have been described to be either glycolysis-dependent or OXPHOS-addicted. Here we discuss the recent literature on metabolic reprogramming of cancer in therapy resistance with a plausible explanation of the observed differences which collectively indicate that dis-regulated metabolic pathways could be considered potential therapeutic targets in tumors resistant to conventional therapy.
Linking metabolic reprogramming to therapy resistance in cancer / Morandi, Andrea; Indraccolo, Stefano*. - In: BIOCHIMICA ET BIOPHYSICA ACTA-REVIEWS ON CANCER. - ISSN 0304-419X. - STAMPA. - 1868:(2017), pp. 1-6. [10.1016/j.bbcan.2016.12.004]
Linking metabolic reprogramming to therapy resistance in cancer
Morandi, Andrea;
2017
Abstract
Metabolic rearrangements are essential to satisfy the different requirements of cancer cells during tumorigenesis and recent studies have highlighted a role for such metabolic reprogramming in response and adaptation to therapies. However, therapy-resistant experimental models have been described to be either glycolysis-dependent or OXPHOS-addicted. Here we discuss the recent literature on metabolic reprogramming of cancer in therapy resistance with a plausible explanation of the observed differences which collectively indicate that dis-regulated metabolic pathways could be considered potential therapeutic targets in tumors resistant to conventional therapy.
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