Frequency-dependent interactions determine outcome of competition between two breast cancer cell lines

Author:

Freischel Audrey R.ORCID,Damaghi MehdiORCID,Cunningham Jessica J.ORCID,Ibrahim-Hashim ArigORCID,Gillies Robert J.ORCID,Gatenby Robert A.,Brown Joel S.

Abstract

ABSTRACTTumors are highly dynamic ecosystems in which diverse cancer cell subpopulations compete for space and resources. These complex, often non-linear interactions govern continuous spatial and temporal changes in the size and phenotypic properties of these subpopulations. Because intra-tumoral blood flow is often chaotic, competition for resources may be a critical selection factor in progression and prognosis. Here, we quantify resource competition using 3D spheroid cultures with MDA-MB-231 and MCF-7 breast cancer cells. We hypothesized that MCF-7 cells, which primarily rely on efficient aerobic glucose metabolism, would dominate the population under normal pH and low glucose conditions; and MDA-MB-231 cells, which exhibit high levels of glycolytic metabolism, would dominate under low pH and high glucose conditions. In spheroids with single populations, MCF-7 cells exhibited equal or superior intrinsic growth rates (density-independent measure of success) and carrying capacities (density-dependent measure of success) when compared to MDA-MB-231 cells under all pH and nutrient conditions. Despite these advantages, when grown together, MCF-7 cells do not always outcompete MDA-MB-231 cells. MDA-MB-231 cells outcompete MCF-7 cells in low glucose conditions and coexistence is achieved in low pH conditions. Under all conditions, MDA-MB-231 has a stronger competitive effect (frequency-dependent interaction) on MCF-7 cells than vice-versa. This, and the inability of growth rate or carrying capacity when grown individually to predict the outcome of competition, suggests a reliance on frequency-dependent interactions and the need for competition assays. We frame these results in a game-theoretic (frequency-dependent) model of cancer cell interactions and conclude that competition assays can demonstrate critical density-independent, density-dependent and frequency-dependent interactions that likely contribute to in vivo outcomes.HighlightsDemonstrate how mixed-culture spheroids must be used to characterize competition between two cancer cell lines.Competition alters growth dynamics of cancer cells.Competition growth models can be used to quantify density-independent, density-dependent and frequency-dependent effects on competition.Competition affects tumor progression and structure, making it key to understanding tumor development and evolution.

Publisher

Cold Spring Harbor Laboratory

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