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Origins and impact of extrachromosomal DNA.

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posted on 2024-11-08, 10:38 authored by Chris Bailey, Oriol Pich, Kerstin Thol, Thomas BK Watkins, Jens Luebeck, Andrew Rowan, Georgia Stavrou, Natasha E Weiser, Bhargavi Dameracharla, Robert Bentham, Wei-Ting Lu, Jeanette Kittel, SY Cindy Yang, Brooke E Howitt, Natasha Sharma, Maria Litovchenko, Roberto Salgado, King L Hung, Alex J Cornish, David A Moore, Richard S Houlston, Vineet Bafna, Howard Y Chang, Serena Nik-Zainal, Nnennaya Kanu, Nicholas McGranahan, Genomics England Consortium, Adrienne M Flanagan, Paul S Mischel, Mariam Jamal-Hanjani, Charles Swanton
Extrachromosomal DNA (ecDNA) is a major contributor to treatment resistance and poor outcome for patients with cancer1,2. Here we examine the diversity of ecDNA elements across cancer, revealing the associated tissue, genetic and mutational contexts. By analysing data from 14,778 patients with 39 tumour types from the 100,000 Genomes Project, we demonstrate that 17.1% of tumour samples contain ecDNA. We reveal a pattern highly indicative of tissue-context-based selection for ecDNAs, linking their genomic content to their tissue of origin. We show that not only is ecDNA a mechanism for amplification of driver oncogenes, but it also a mechanism that frequently amplifies immunomodulatory and inflammatory genes, such as those that modulate lymphocyte-mediated immunity and immune effector processes. Moreover, ecDNAs carrying immunomodulatory genes are associated with reduced tumour T cell infiltration. We identify ecDNAs bearing only enhancers, promoters and lncRNA elements, suggesting the combinatorial power of interactions between ecDNAs in trans. We also identify intrinsic and environmental mutational processes linked to ecDNA, including those linked to its formation, such as tobacco exposure, and progression, such as homologous recombination repair deficiency. Clinically, ecDNA detection was associated with tumour stage, more prevalent after targeted therapy and cytotoxic treatments, and associated with metastases and shorter overall survival. These results shed light on why ecDNA is a substantial clinical problem that can cooperatively drive tumour growth signals, alter transcriptional landscapes and suppress the immune system.

Funding

Crick (Grant ID: CC2041, Grant title: Swanton CC2041) European Research Council (Grant ID: 835297 - PROTEUS, Grant title: ERC 835297 - PROTEUS)

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