A Mechanistic Modeling Framework Reveals the Key Principles Underlying Tumor Metabolism

Abstract: While aerobic glycolysis, or the Warburg effect, has for a long time been considered a hallmark of tumor metabolism, recent studies have revealed a far more complex picture. Tumor cells exhibit widespread metabolic heterogeneity, utilizing glycolysis, oxidative phosphorylation, or both, and can switch between different metabolic phenotypes. A framework to analyze the observed metabolic heterogeneity and plasticity is, however, lacking. Using a mechanistic model that includes the key metabolic pathways active i… Show more

“…Recently, researchers have developed several biochemical network models to analyse the Warburg effect and other aspects of metabolic reprogramming [92] , [93] , [94] , [95] , [96] , [97] . Nonetheless, only a few models have explicitly taken into account the effect of glucose availability and its metabolism at a larger scale [98] , [99] , [33] , [100] , [36] , [101] , [14] .…”

Hybrid computational models of multicellular tumour growth considering glucose metabolism

“…Recently, researchers have developed several biochemical network models to analyse the Warburg effect and other aspects of metabolic reprogramming [92] , [93] , [94] , [95] , [96] , [97] . Nonetheless, only a few models have explicitly taken into account the effect of glucose availability and its metabolism at a larger scale [98] , [99] , [33] , [100] , [36] , [101] , [14] .…”

Hybrid computational models of multicellular tumour growth considering glucose metabolism