Disentangling oncogenic amplicons in esophageal adenocarcinoma

Alvin Wei Tian, N.; Mcclurg, D.P.; Wesley, B.; Zamani, S.A.; Black, E.; Miremadi, A.; Giger, O.; Hoopen, R.T.; Devonshire, G.; Redmond, A.M.; Grehan, N.; Jammula, S.; Blasko, A.; Xiaodun, L.; Aparicio, S.; Tavaré, S.; Null, N.; Edwards, P.A.W.; Grehan, N.; Nutzinger, B.; Loreno, C.; Abbas, S.; Freeman, A.; Smyth, E.C.; O'Donovan, M.; Miremadi, A.; Malhotra, S.; Tripathi, M.; Cheah, C.; Coles, H.; Millington, C.; Eldridge, M.; Secrier, M.; Jammula, S.; Davies, J.; Crichton, C.; Carroll, N.; Hardwick, R.H.; Safranek, P.; Hindmarsh, A.; Sujendran, V.; Hayes, S.J.; Ang, Y.; Sharrocks, A.; Preston, S.R.; Bagwan, I.; Save, V.; Skipworth, R.J.E.; Hupp, T.R.; O'Neill, J.R.; Tucker, O.; Beggs, A.; Taniere, P.; Puig, S.; Contino, G.; Underwood, T.J.; Walker, R.C.; Grace, B.L.; Lagergren, J.; Gossage, J.; Davies, A.; Chang, F.; Mahadeva, U.; Goh, V.; Ciccarelli, F.D.; Sanders, G.; Berrisford, R.; Chan, D.; Cheong, E.; Kumar, B.; Sreedharan, L.; Parsons, S.L.; Soomro, I.; Kaye, P.; Saunders, J.; Lovat, L.; Haidry, R.; Scott, M.; Sothi, S.; Lishman, S.; Hanna, G.B.; Peters, C.J.; Moorthy, K.; Grabowska, A.; Turkington, R.; Mcmanus, D.; Coleman, H.; Petty, R.D.; Bartlet, F.; Nowicki-Osuch, K.; Fitzgerald, R.C.

doi:10.1038/s41467-024-47619-4

Esophageal adenocarcinoma is a prominent example of cancer characterized by frequent amplifications in oncogenes. However, the mechanisms leading to amplicons that involve breakage-fusion-bridge cycles and extrachromosomal DNA are poorly understood. Here, we use 710 esophageal adenocarcinoma cases with matched samples and patient-derived organoids to disentangle complex amplicons and their associated mechanisms. Short-read sequencing identifies ERBB2, MYC, MDM2, and HMGA2 as the most frequent oncogenes amplified in extrachromosomal DNAs. We resolve complex extrachromosomal DNA and breakage-fusion-bridge cycles amplicons by integrating of de-novo assemblies and DNA methylation in nine long-read sequenced cases. Complex amplicons shared between precancerous biopsy and late-stage tumor, an enrichment of putative enhancer elements and mobile element insertions are potential drivers of complex amplicons’ origin. We find that patient-derived organoids recapitulate extrachromosomal DNA observed in the primary tumors and single-cell DNA sequencing capture extrachromosomal DNA-driven clonal dynamics across passages. Prospectively, long-read and single-cell DNA sequencing technologies can lead to better prediction of clonal evolution in esophageal adenocarcinoma.

Disentangling oncogenic amplicons in esophageal adenocarcinoma / A.W.T. Ng, D.P. Mcclurg, B. Wesley, S.A. Zamani, E. Black, A. Miremadi, O. Giger, R.T. Hoopen, G. Devonshire, A.M. Redmond, N. Grehan, S. Jammula, A. Blasko, X. Li, S. Aparicio, S. Tavaré, N. Null, P.A.W. Edwards, N. Grehan, B. Nutzinger, C. Loreno, S. Abbas, A. Freeman, E.C. Smyth, M. O'Donovan, A. Miremadi, S. Malhotra, M. Tripathi, C. Cheah, H. Coles, C. Millington, M. Eldridge, M. Secrier, S. Jammula, J. Davies, C. Crichton, N. Carroll, R.H. Hardwick, P. Safranek, A. Hindmarsh, V. Sujendran, S.J. Hayes, Y. Ang, A. Sharrocks, S.R. Preston, I. Bagwan, V. Save, R.J.E. Skipworth, T.R. Hupp, J.R. O'Neill, O. Tucker, A. Beggs, P. Taniere, S. Puig, G. Contino, T.J. Underwood, R.C. Walker, B.L. Grace, J. Lagergren, J. Gossage, A. Davies, F. Chang, U. Mahadeva, V. Goh, F.D. Ciccarelli, G. Sanders, R. Berrisford, D. Chan, E. Cheong, B. Kumar, L. Sreedharan, S.L. Parsons, I. Soomro, P. Kaye, J. Saunders, L. Lovat, R. Haidry, M. Scott, S. Sothi, S. Lishman, G.B. Hanna, C.J. Peters, K. Moorthy, A. Grabowska, R. Turkington, D. Mcmanus, H. Coleman, R.D. Petty, F. Bartlet, K. Nowicki-Osuch, R.C. Fitzgerald. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 15:1(2024 May 14), pp. 4074.1-4074.13. [10.1038/s41467-024-47619-4]

Disentangling oncogenic amplicons in esophageal adenocarcinoma

Ng, Alvin Wei Tian^Primo;McClurg, Dylan Peter^Secondo;Wesley, Ben;Zamani, Shahriar A.;Black, Emily;Miremadi, Ahmad;Giger, Olivier;Hoopen, Rogier ten;Devonshire, Ginny;Redmond, Aisling M.;Grehan, Nicola;Jammula, Sriganesh;Blasko, Adrienn;Li, Xiaodun;Aparicio, Samuel;Tavaré, Simon;null, null;Edwards, Paul A. W.;Grehan, Nicola;Nutzinger, Barbara;Loreno, Christine;Abbas, Sujath;Freeman, Adam;Smyth, Elizabeth C.;O'Donovan, Maria;Miremadi, Ahmad;Malhotra, Shalini;Tripathi, Monika;Cheah, Calvin;Coles, Hannah;Millington, Curtis;Eldridge, Matthew;Secrier, Maria;Jammula, Sriganesh;Davies, Jim;Crichton, Charles;Carroll, Nick;Hardwick, Richard H.;Safranek, Peter;Hindmarsh, Andrew;Sujendran, Vijayendran;Hayes, Stephen J.;Ang, Yeng;Sharrocks, Andrew;Preston, Shaun R.;Bagwan, Izhar;Save, Vicki;Skipworth, Richard J. E.;Hupp, Ted R.;O'Neill, J. Robert;Tucker, Olga;Beggs, Andrew;Taniere, Philippe;Puig, Sonia;G. Contino;Underwood, Timothy J.;Walker, Robert C.;Grace, Ben L.;Lagergren, Jesper;Gossage, James;Davies, Andrew;Chang, Fuju;Mahadeva, Ula;Goh, Vicky;F.D. Ciccarelli;Sanders, Grant;Berrisford, Richard;Chan, David;Cheong, Ed;Kumar, Bhaskar;Sreedharan, L.;Parsons, Simon L.;Soomro, Irshad;Kaye, Philip;Saunders, John;Lovat, Laurence;Haidry, Rehan;Scott, Michael;Sothi, Sharmila;Lishman, Suzy;Hanna, George B.;Peters, Christopher J.;Moorthy, Krishna;Grabowska, Anna;Turkington, Richard;McManus, Damian;Coleman, Helen;Petty, Russell D.;Bartlet, Freddie;Nowicki-Osuch, Karol^Penultimo;Fitzgerald, Rebecca C.^Ultimo

2024

Abstract

Esophageal adenocarcinoma is a prominent example of cancer characterized by frequent amplifications in oncogenes. However, the mechanisms leading to amplicons that involve breakage-fusion-bridge cycles and extrachromosomal DNA are poorly understood. Here, we use 710 esophageal adenocarcinoma cases with matched samples and patient-derived organoids to disentangle complex amplicons and their associated mechanisms. Short-read sequencing identifies ERBB2, MYC, MDM2, and HMGA2 as the most frequent oncogenes amplified in extrachromosomal DNAs. We resolve complex extrachromosomal DNA and breakage-fusion-bridge cycles amplicons by integrating of de-novo assemblies and DNA methylation in nine long-read sequenced cases. Complex amplicons shared between precancerous biopsy and late-stage tumor, an enrichment of putative enhancer elements and mobile element insertions are potential drivers of complex amplicons’ origin. We find that patient-derived organoids recapitulate extrachromosomal DNA observed in the primary tumors and single-cell DNA sequencing capture extrachromosomal DNA-driven clonal dynamics across passages. Prospectively, long-read and single-cell DNA sequencing technologies can lead to better prediction of clonal evolution in esophageal adenocarcinoma.

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	Settori scientifico-disciplinari dell'articolo (validi dal 09/05/2024)
	
				Settore BIOS-08/A - Biologia molecolare
			
	Data di pubblicazione
	
				14-mag-2024
			
	Rivista in ANCE
	
				NATURE COMMUNICATIONS
			
	DOI
	
				https://dx.doi.org/10.1038/s41467-024-47619-4
			
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