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Selection of metastasis competent subclones in the tumour interior: TRACERx renal

Authors :
Marcellus Augustine
David Nicol
Antonia Toncheva
Scott Shephard
Timothy O'Brien
Sarah Rudman
Stuart Horswell
Lisa Pickering
Fiona Byrne
Steve Hazell
Andrew D. Rowan
Samra Turajlic
Annika Fendler
José I. López
Paul A. Bates
Xiao Fu
Hang Xu
Yue Zhao
Ashish Chandra
Lewis Au
Gordon Stamp
Kevin Litchfield
James E. Larkin
Erik Sahai
Lavinia Spain
Charles Swanton
Publication Year :
2020
Publisher :
Research Square Platform LLC, 2020.

Abstract

While the genetic evolutionary features of solid tumour growth are becoming increasingly described, the spatial and physical nature of subclonal growth remains unclear. Here we utilise 102 macroscopic whole tumour images from clear cell renal cell carcinoma (ccRCC) patients, with matched genetic and phenotypic data from 756 biopsies. Utilising a digital image processing pipeline the boundaries between tumour and normal tissue were marked by a renal pathologist, and positions of boundary line and biopsy regions were extracted to X- and Y-coordinates. The coordinates were then integrated with genomic data to map exact spatial subclone locations, revealing how genetically distinct subclones grow and evolve spatially. A phenotype of advanced and more aggressive subclonal growth was present in the tumour centre, characterised by an elevated burden of somatic copy number alterations, higher necrosis, proliferation rate and Fuhrman grade. Moreover, metastasising subclones were found to preferentially originate from the tumour centre. Collectively these observations suggest a model of accelerated evolution in the tumour interior, with harsh hypoxic environmental conditions leading to heightened cellular turnover and greater opportunity for driver SCNAs to arise and expand due to selective advantage. Tumour subclone growth was found to be predominantly spatially contiguous in nature, with subclone dispersal a rare event found in two cases, which notably was associated with metastasis. In terms of genetic events, the largest subclones spatially were dominated by driver somatic copy number alterations, suggesting a large selective advantage can be conferred to subclones upon acquisition of these alterations. In conclusion, spatial dynamics is strongly associated with genomic alterations and plays an important role in tumour evolution.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........f19ff74907422f751d7b3326c314f0d7
Full Text :
https://doi.org/10.21203/rs.3.rs-61979/v1