s41559-021-01586-x (1).pdf (20.44 MB)
Download fileSpatial patterns of tumour growth impact clonal diversification in a computational model and the TRACERx Renal study.
journal contribution
posted on 2022-01-13, 09:22 authored by Xiao Fu, Yue Zhao, Jose I Lopez, Andrew Rowan, Lewis Au, Annika Fendler, Steve Hazell, Hang Xu, Stuart Horswell, Scott TC Shepherd, Charlotte E Spencer, Lavinia Spain, Fiona Byrne, Gordon Stamp, Tim O'Brien, David Nicol, Marcellus Augustine, Ashish Chandra, Sarah Rudman, Antonia Toncheva, Andrew JS Furness, Lisa Pickering, Santosh Kumar, Dow-Mu Koh, Christina Messiou, Derfel ap Dafydd, Matthew R Orton, Simon J Doran, James Larkin, Charles Swanton, Erik Sahai, Kevin Litchfield, Samra Turajlic, TRACERx Renal Consortium, Paul A BatesGenetic intra-tumour heterogeneity fuels clonal evolution, but our understanding of clinically relevant clonal dynamics remain limited. We investigated spatial and temporal features of clonal diversification in clear cell renal cell carcinoma through a combination of modelling and real tumour analysis. We observe that the mode of tumour growth, surface or volume, impacts the extent of subclonal diversification, enabling interpretation of clonal diversity in patient tumours. Specific patterns of proliferation and necrosis explain clonal expansion and emergence of parallel evolution and microdiversity in tumours. In silico time-course studies reveal the appearance of budding structures before detectable subclonal diversification. Intriguingly, we observe radiological evidence of budding structures in early-stage clear cell renal cell carcinoma, indicating that future clonal evolution may be predictable from imaging. Our findings offer a window into the temporal and spatial features of clinically relevant clonal evolution.