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When, why and how tumour clonal diversity predicts survival

Robert Noble, John Burley, Cécile Le Sueur, Michael Hochberg

2020Evolutionary Applications19 citationsDOIOpen Access PDF

Abstract

The utility of intratumour heterogeneity as a prognostic biomarker is the subject of ongoing clinical investigation. However, the relationship between this marker and its clinical impact is mediated by an evolutionary process that is not well understood. Here, we employ a spatial computational model of tumour evolution to assess when, why and how intratumour heterogeneity can be used to forecast tumour growth rate and progression-free survival. We identify three conditions that can lead to a positive correlation between clonal diversity and subsequent growth rate: diversity is measured early in tumour development; selective sweeps are rare; and/or tumours vary in the rate at which they acquire driver mutations. Opposite conditions typically lead to negative correlation. In cohorts of tumours with diverse evolutionary parameters, we find that clonal diversity is a reliable predictor of both growth rate and progression-free survival. We thus offer explanations-grounded in evolutionary theory-for empirical findings in various cancers, including survival analyses reported in the recent TRACERx Renal study of clear-cell renal cell carcinoma. Our work informs the search for new prognostic biomarkers and contributes to the development of predictive oncology.

Topics & Concepts

BiologySomatic evolution in cancerBiomarkerDiversity (politics)Renal cell carcinomaCorrelationClear cell renal cell carcinomaEvolutionary biologyOncologyInternal medicineComputational biologyBioinformaticsCancerGeneticsMedicineAnthropologySociologyGeometryMathematicsCancer Genomics and DiagnosticsEvolution and Genetic DynamicsMathematical Biology Tumor Growth
When, why and how tumour clonal diversity predicts survival | Litcius