Litcius/Paper detail

Modeling tumors as complex ecosystems

Guim Aguadé‐Gorgorió, Alexander R.A. Anderson, Ricard V. Solé

2024iScience31 citationsDOIOpen Access PDF

Abstract

Many cancers resist therapeutic intervention. This is fundamentally related to intratumor heterogeneity: multiple cell populations, each with different phenotypic signatures, coexist within a tumor and its metastases. Like species in an ecosystem, cancer populations are intertwined in a complex network of ecological interactions. Most mathematical models of tumor ecology, however, cannot account for such phenotypic diversity or predict its consequences. Here, we propose that the generalized Lotka-Volterra model (GLV), a standard tool to describe species-rich ecological communities, provides a suitable framework to model the ecology of heterogeneous tumors. We develop a GLV model of tumor growth and discuss how its emerging properties provide a new understanding of the disease. We discuss potential extensions of the model and their application to phenotypic plasticity, cancer-immune interactions, and metastatic growth. Our work outlines a set of questions and a road map for further research in cancer ecology.

Topics & Concepts

EcologyBiologyPhenotypic plasticityCancerEcosystemEcological networkPhenotypeEvolutionary biologyComputational biologyComputer scienceGeneGeneticsMathematical Biology Tumor GrowthEvolution and Genetic DynamicsGene Regulatory Network Analysis