Spatially resolved clonal copy number alterations in benign and malignant tissue

Andrew Erickson; Mengxiao He; Emelie Berglund; Maja Marklund; Reza Mirzazadeh; Niklas Schultz; Linda Kvastad; Alma Andersson; Ludvig Bergenstråhle; Joseph Bergenstråhle; Ludvig Larsson; Leire Alonso Galicia; Alia Shamikh; Elisa Basmaci; Teresita Díaz de Ståhl; Timothy Rajakumar; Dimitrios Doultsinos; Kim Thrane; Andrew L. Ji; Paul A. Khavari; Firaz Tarish; Anna Tanoglidi; Jonas Maaskola; Richard Colling; Tuomas Mirtti; Freddie C. Hamdy; Dan J. Woodcock; Thomas Helleday; Ian G. Mills; Alastair Lamb; Joakim Lundeberg

doi:10.1038/s41586-022-05023-2

Spatially resolved clonal copy number alterations in benign and malignant tissue

Andrew Erickson(University of Oxford), Mengxiao He(Science for Life Laboratory), Emelie Berglund(Science for Life Laboratory), Maja Marklund(Science for Life Laboratory), Reza Mirzazadeh(Science for Life Laboratory), Niklas Schultz(Science for Life Laboratory), Linda Kvastad(Science for Life Laboratory), Alma Andersson(Science for Life Laboratory), Ludvig Bergenstråhle(Science for Life Laboratory), Joseph Bergenstråhle(Science for Life Laboratory), Ludvig Larsson(Science for Life Laboratory), Leire Alonso Galicia(Science for Life Laboratory), Alia Shamikh(Karolinska University Hospital), Elisa Basmaci(Karolinska University Hospital), Teresita Díaz de Ståhl(Karolinska University Hospital), Timothy Rajakumar(University of Oxford), Dimitrios Doultsinos(University of Oxford), Kim Thrane(Science for Life Laboratory), Andrew L. Ji(Stanford University), Paul A. Khavari(Stanford University), Firaz Tarish(Science for Life Laboratory), Anna Tanoglidi(Uppsala University Hospital), Jonas Maaskola(Science for Life Laboratory), Richard Colling(University of Oxford), Tuomas Mirtti(University of Helsinki), Freddie C. Hamdy(University of Oxford), Dan J. Woodcock(Open Data Institute), Thomas Helleday(Science for Life Laboratory), Ian G. Mills(University of Oxford), Alastair Lamb(University of Oxford), Joakim Lundeberg(Science for Life Laboratory)

Nature

August 10, 2022

10.1038/s41586-022-05023-2

Cited by 314Open Access

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Abstract

Abstract Defining the transition from benign to malignant tissue is fundamental to improving early diagnosis of cancer 1 . Here we use a systematic approach to study spatial genome integrity in situ and describe previously unidentified clonal relationships. We used spatially resolved transcriptomics 2 to infer spatial copy number variations in >120,000 regions across multiple organs, in benign and malignant tissues. We demonstrate that genome-wide copy number variation reveals distinct clonal patterns within tumours and in nearby benign tissue using an organ-wide approach focused on the prostate. Our results suggest a model for how genomic instability arises in histologically benign tissue that may represent early events in cancer evolution. We highlight the power of capturing the molecular and spatial continuums in a tissue context and challenge the rationale for treatment paradigms, including focal therapy.

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