Spatial niche formation but not malignant progression is a driving force for intratumoural heterogeneity

Rouven Hoefflin; Bernd Lahrmann; Gregor Warsow; Daniel Hübschmann; Cathleen Spath; Britta Walter; Xin Chen; Luisa Hofer; Stephan Macher‐Goeppinger; Yanis Tolstov; Nina Korzeniewski; Anette Duensing; Carsten Grüllich; Dirk Jäger; Sven Perner; Gita Schönberg; Joanne Nyarangi‐Dix; Sanjay Isaac; Gencay Hatiboglu; Doğu Teber; Boris Hadaschik; Sascha Pahernik; Wilfried Roth; Roland Eils; Matthias Schlesner; Holger Sültmann; Markus Hohenfellner; Niels Grabe; Stefan Duensing

doi:10.1038/ncomms11845

Spatial niche formation but not malignant progression is a driving force for intratumoural heterogeneity

Rouven Hoefflin(Heidelberg University), Bernd Lahrmann(Heidelberg University), Gregor Warsow(German Cancer Research Center), Daniel Hübschmann(German Cancer Research Center), Cathleen Spath(National Center for Tumor Diseases), Britta Walter(Heidelberg University), Xin Chen(Heidelberg University), Luisa Hofer(Heidelberg University), Stephan Macher‐Goeppinger(Heidelberg University), Yanis Tolstov(Heidelberg University), Nina Korzeniewski(Heidelberg University), Anette Duensing(UPMC Hillman Cancer Center), Carsten Grüllich(Heidelberg University), Dirk Jäger(Heidelberg University), Sven Perner(University of Lübeck), Gita Schönberg(Heidelberg University), Joanne Nyarangi‐Dix(Heidelberg University), Sanjay Isaac(Heidelberg University), Gencay Hatiboglu(Heidelberg University), Doğu Teber(Heidelberg University), Boris Hadaschik(Heidelberg University), Sascha Pahernik(Heidelberg University), Wilfried Roth(Heidelberg University), Roland Eils(German Cancer Research Center), Matthias Schlesner(German Cancer Research Center), Holger Sültmann(German Cancer Research Center), Markus Hohenfellner(Heidelberg University), Niels Grabe(Heidelberg University), Stefan Duensing(Heidelberg University)

Nature Communications

June 13, 2016

10.1038/ncomms11845

Cited by 79Open Access

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Abstract

Intratumoural heterogeneity (ITH) is a major cause of cancer-associated lethality. Extensive genomic ITH has previously been reported in clear cell renal cell carcinoma (ccRCC). Here we address the question whether ITH increases with malignant progression and can hence be exploited as a prognostic marker. Unexpectedly, precision quantitative image analysis reveals that the degree of functional ITH is virtually identical between primary ccRCCs of the lowest stage and advanced, metastatic tumours. Functional ITH was found to show a stage-independent topological pattern with peak proliferative and signalling activities almost exclusively in the tumour periphery. Exome sequencing of matching peripheral and central primary tumour specimens reveals various region-specific mutations. However, these mutations cannot directly explain the zonal pattern suggesting a role of microenvironmental factors in shaping functional ITH. In conclusion, our results indicate that ITH is an early and general characteristic of malignant growth rather than a consequence of malignant progression.

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