Affiliation:
1. Institute for Biological Physics, University of Cologne
2. Centre for Genomic Regulation, C/ del Dr. Aiguader
3. Universitat Pompeu Fabra (UPF)
Abstract
In growing cell populations such as cancer, mutations can serve as markers that allow tracking the past evolution from current samples. The genomic analysis of bulk samples and samples from multiple regions have shed light on the evolutionary forces acting on tumours. However, little is known empirically on the spatio-temporal dynamics of tumour evolution. Here, we leverage published data from resected hepatocellular carcinomas, each with several hundred samples taken in two and three dimensions. Using spatial metrics of evolution, we find that tumour cells grow predominantly uniformly within the tumour volume instead of at the surface. We determine how mutations and cells are dispersed throughout the tumour and how cell death contributes to the overall tumour growth. Our methods shed light on the early evolution of tumours in vivo and can be applied to high-resolution data in the emerging field of spatial biology.
Publisher
eLife Sciences Publications, Ltd