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Synergistic epistasis among cancer drivers can rescue early tumors from the accumulation of deleterious passengers.

Carla AlejandreJorge Calle-EspinosaJaime Iranzo
Published in: PLoS computational biology (2024)
Epistasis among driver mutations is pervasive and explains relevant features of cancer, such as differential therapy response and convergence towards well-characterized molecular subtypes. Furthermore, a growing body of evidence suggests that tumor development could be hampered by the accumulation of slightly deleterious passenger mutations. In this work, we combined empirical epistasis networks, computer simulations, and mathematical models to explore how synergistic interactions among driver mutations affect cancer progression under the burden of slightly deleterious passengers. We found that epistasis plays a crucial role in tumor development by promoting the transformation of precancerous clones into rapidly growing tumors through a process that is analogous to evolutionary rescue. The triggering of epistasis-driven rescue is strongly dependent on the intensity of epistasis and could be a key rate-limiting step in many tumors, contributing to their unpredictability. As a result, central genes in cancer epistasis networks appear as key intervention targets for cancer therapy.
Keyphrases
  • papillary thyroid
  • cancer therapy
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  • randomized controlled trial
  • stem cells
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  • machine learning
  • risk factors
  • gene expression
  • dna methylation
  • high intensity
  • bone marrow