Litcius/Paper detail

Uncovering the Underlying Mechanisms of Cancer Metabolism through the Landscapes and Probability Flux Quantifications

Wenbo Li, Jin Wang

2020iScience29 citationsDOIOpen Access PDF

Abstract

Cancer metabolism is critical for understanding the mechanism of tumorigenesis, yet the understanding is still challenging. We studied gene-metabolism regulatory interactions and quantified the global driving forces for cancer-metabolism dynamics as the underlying landscape and probability flux. We uncovered four steady-state attractors: a normal state attractor, a cancer OXPHOS state attractor, a cancer glycolysis state attractor, and an intermediate cancer state attractor. We identified the key regulatory interactions through global sensitivity analysis based on the landscape topography. Different landscape topographies of glycolysis switch between normal cells and cancer cells were identified. We uncovered that the normal state to cancer state transformation is associated with the peaks of the probability flux and the thermodynamic dissipation, giving dynamical and thermodynamic origin of cancer formation. We found that cancer metabolism oscillations consume more energy to support cancer malignancy. This study provides a quantitative understanding of cancer metabolism and suggests a metabolic therapeutic strategy.

Topics & Concepts

AttractorCancerFlux (metallurgy)CarcinogenesisCancer cellMechanism (biology)BiologyStatistical physicsPhysicsChemistryMathematicsGeneticsQuantum mechanicsMathematical analysisOrganic chemistryGene Regulatory Network AnalysisBioinformatics and Genomic NetworksMicrobial Metabolic Engineering and Bioproduction
Uncovering the Underlying Mechanisms of Cancer Metabolism through the Landscapes and Probability Flux Quantifications | Litcius