Epithelial-mesenchymal plasticity (EMP) reflects the capacity of cells to interconvert between epithelial and mesenchymal phenotypes. In cancer, these dynamics ultimately contribute to disease progression. Despite decades of study, a consistent molecular definition of this plasticity remains elusive because of its inherent variability. The advent of quantitative single-cell biology is unveiling unexpected complexity, and new conceptual frameworks are required to understand the emergence and relevance of EMP in cancer. Here, we use principles from multitask optimization to propose that EMP reflects an adaptive response of epithelial cells in response to homeostatic disruption, giving rise to generalist phenotypes. We use this theory to predict properties of these cells and their contribution to tumor progression.
Keywords: EMT; Pareto optimality; adaptation; epithelial-mesenchymal plasticity; evolution; plasticity.
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