Mixed responses to targeted therapy driven by chromosomal instability through p53 dysfunction and genome doubling

Hobor, S; Al Bakir, M; Hiley, C; Skrzypski, M; Frankell, A; Bakker, B; Watkins, T; Markovets, A; Dry, J; Brown, A; van der Aart, J; van den Bos, H; Spierings, D; Oukrif, D; Novelli, M; Chakrabarti, T; Rabinowitz, A; Ait Hassou, L; Litiere, S; Kerr, D; Tan, L; Kelly, G; Moore, D; Renshaw, M; Venkatesan, S; Hill, W; Huebner, A; Martinez-Ruiz, C; Black, J; Wu, W; Angelova, M; Mcgranahan, N; Downward, J; Chmielecki, J; Barrett, C; Litchfield, K; Chew, S; Blakely, C; de Bruin, E; Foijer, F; Vousden, K; Bivona, T; Lester, J; Bajaj, A; Nakas, A; Sodha-Ramdeen, A; Tufail, M; Scotland, M; Boyles, R; Rathinam, S; Wilson, C; Marrone, D; Dulloo, S; Fennell, D; Matharu, G; Shaw, J; Boleti, E; Cheyne, H; Khalil, M; Richardson, S; Cruickshank, T; Price, G; Kerr, K; Benafif, S; French, J; Gilbert, K; Naidu, B; Patel, A; Osman, A; Enstone, C; Langman, G; Shackleford, H; Djearaman, M; Kadiri, S; Middleton, G; Leek, A; Hodgkinson, J; Totton, N; Montero, A; Smith, E; Fontaine, E; Granato, F; Paiva-Correia, A; Novasio, J; Rammohan, K; Joseph, L; Bishop, P; Shah, R; Moss, S; Joshi, V; Crosbie, P; Brown, K; Carter, M; Chaturvedi, A; Oliveira, P; Lindsay, C; Blackhall, F; Krebs, M; Summers, Y; Clipson, A; Tugwood, J; Kerr, A; Rothwell, D; Dive, C; Aerts, H; Schwarz, R; Kaufmann, T; Wilson, G; Rosenthal, R; Van Loo, P; Birkbak, N; Szallasi, Z; Kisistok, J; Sokac, M; Salgado, R; Diossy, M; Demeulemeester, J; Bunkum, A; Dwornik, A; Magness, A; Rowan, A; Karamani, A; Toncheva, A; Chain, B; Castignani, C; Bailey, C; Abbosh, C; Puttick, C; Weeden, C; Lee, C; Richard, C; Naceur-Lombardelli, C; Pearce, D; Karagianni, D; Biswas, D; Levi, D; Larose Cadieux, E; Lim, E; Colliver, E; Nye, E; Galvez-Cancino, F; Gimeno-Valiente, F; Kassiotis, G; Stavrou, G; Mastrokalos, G; Lowe, H; Matos, I; Noorani, I; Goldman, J; Reading, J; Rane, J; Nicod, J; Hartley, J; Peggs, K; Enfield, K; Selvaraju, K; Thol, K; K. W., N; Chen, K; Dijkstra, K; Grigoriadis, K; Thakkar, K; Ensell, L; Shah, M; Litovchenko, M; Jamal-Hanjani, M; Werner Sunderland, M; Huska, M; Hill, M; Dietzen, M; Leung, M; Escudero, M; Tanic, M; Sivakumar, M; Chervova, O; Lucas, O; Pich, O; Al-Sawaf, O; Prymas, P; Hobson, P; Pawlik, P; Stone, R; Bentham, R; Vendramin, R; Saghafinia, S; Gamble, S; Veeriah, S; Ung, S; Quezada, S; Vanloo, S; Hessey, S; Ward, S; Harries, S; Boeing, S; Beck, S; Bola, S; Karasaki, T; Denner, T; Marafioti, T; Jones, T; Spanswick, V; Barbe, V; W. -T., L; Liu, W; Wu, Y; Naito, Y; Ramsden, Z; Veiga, C; Royle, G; Collins-Fekete, C; Fraioli, F; Ashford, P; Forster, M; Lee, S; Borg, E; Falzon, M; Papadatos-Pastos, D; Wilson, J; Ahmad, T; Procter, A; Ahmed, A; Taylor, M; Nair, A; Lawrence, D; Patrini, D; Navani, N; Thakrar, R; Janes, S; Martinoni Hoogenboom, E; Monk, F; Holding, J; Choudhary, J; Bhakhri, K; Scarci, M; Gorman, P; Khiroya, R; Stephens, R; Wong, Y; Kaplar, Z; Bandula, S; Hackshaw, A; Hacker, A; Sharp, A; Smith, S; Kaur Dhanda, H; Pilotti, C; Leslie, R; Grapa, A; Zhang, H; Abduljabbar, K; Pan, X; Yuan, Y; Chuter, D; Mackenzie, M; Chee, S; Alzetani, A; Cave, J; Richards, J; Lim, E; De Sousa, P; Jordan, S; Rice, A; Raubenheimer, H; Bhayani, H; Ambrose, L; Devaraj, A; Chavan, H; Begum, S; Buderi, S; Kaniu, D; Malima, M; Booth, S; Nicholson, A; Fernandes, N; Shah, P; Proli, C; Hewish, M; Danson, S; Shackcloth, M; Robinson, L; Russell, P; Blyth, K; Kidd, A; Dick, C; Le Quesne, J; Kirk, A; Asif, M; Bilancia, R; Kostoulas, N; Thomas, M; Hynds, R; Kanu, N; Zaccaria, S; Gronroos, E; Swanton, C

doi:10.1038/s41467-024-47606-9

The phenomenon of mixed/heterogenous treatment responses to cancer therapies within an individual patient presents a challenging clinical scenario. Furthermore, the molecular basis of mixed intra-patient tumor responses remains unclear. Here, we show that patients with metastatic lung adenocarcinoma harbouring co-mutations of EGFR and TP53, are more likely to have mixed intra-patient tumor responses to EGFR tyrosine kinase inhibition (TKI), compared to those with an EGFR mutation alone. The combined presence of whole genome doubling (WGD) and TP53 co-mutations leads to increased genome instability and genomic copy number aberrations in genes implicated in EGFR TKI resistance. Using mouse models and an in vitro isogenic p53-mutant model system, we provide evidence that WGD provides diverse routes to drug resistance by increasing the probability of acquiring copy-number gains or losses relative to non-WGD cells. These data provide a molecular basis for mixed tumor responses to targeted therapy, within an individual patient, with implications for therapeutic strategies.

Hobor, S., Al Bakir, M., Hiley, C., Skrzypski, M., Frankell, A., Bakker, B., et al. (2024). Mixed responses to targeted therapy driven by chromosomal instability through p53 dysfunction and genome doubling. NATURE COMMUNICATIONS, 15(1) [10.1038/s41467-024-47606-9].

Mixed responses to targeted therapy driven by chromosomal instability through p53 dysfunction and genome doubling

Hobor S.;Al Bakir M.;Hiley C. T.;Skrzypski M.;Frankell A. M.;Bakker B.;Watkins T. B. K.;Markovets A.;Dry J. R.;Brown A. P.;van der Aart J.;van den Bos H.;Spierings D.;Oukrif D.;Novelli M.;Chakrabarti T.;Rabinowitz A. H.;Ait Hassou L.;Litiere S.;Kerr D. L.;Tan L.;Kelly G.;Moore D. A.;Renshaw M. J.;Venkatesan S.;Hill W.;Huebner A.;Martinez-Ruiz C.;Black J. R. M.;Wu W.;Angelova M.;McGranahan N.;Downward J.;Chmielecki J.;Barrett C.;Litchfield K.;Chew S. K.;Blakely C. M.;de Bruin E. C.;Foijer F.;Vousden K. H.;Bivona T. G.;Lester J. F.;Bajaj A.;Nakas A.;Sodha-Ramdeen A.;Tufail M.;Scotland M.;Boyles R.;Rathinam S.;Wilson C.;Marrone D.;Dulloo S.;Fennell D. A.;Matharu G.;Shaw J. A.;Boleti E.;Cheyne H.;Khalil M.;Richardson S.;Cruickshank T.;Price G.;Kerr K. M.;Benafif S.;French J.;Gilbert K.;Naidu B.;Patel A. J.;Osman A.;Enstone C.;Langman G.;Shackleford H.;Djearaman M.;Kadiri S.;Middleton G.;Leek A.;Hodgkinson J. D.;Totton N.;Montero A.;Smith E.;Fontaine E.;Granato F.;Paiva-Correia A.;Novasio J.;Rammohan K.;Joseph L.;Bishop P.;Shah R.;Moss S.;Joshi V.;Crosbie P. A. J.;Brown K. D.;Carter M.;Chaturvedi A.;Oliveira P.;Lindsay C. R.;Blackhall F. H.;Krebs M. G.;Summers Y.;Clipson A.;Tugwood J.;Kerr A.;Rothwell D. G.;Dive C.;Aerts H. J. W. L.;Schwarz R. F.;Kaufmann T. L.;Wilson G. A.;Rosenthal R.;Van Loo P.;Birkbak N. J.;Szallasi Z.;Kisistok J.;Sokac M.;Salgado R.;Diossy M.;Demeulemeester J.;Bunkum A.;Dwornik A.;Magness A.;Rowan A. J.;Karamani A.;Toncheva A.;Chain B.;Castignani C.;Bailey C.;Abbosh C.;Puttick C.;Weeden C. E.;Lee C.;Richard C.;Naceur-Lombardelli C.;Pearce D. R.;Karagianni D.;Biswas D.;Levi D.;Larose Cadieux E.;Lim E. L.;Colliver E.;Nye E.;Galvez-Cancino F.;Gimeno-Valiente F.;Kassiotis G.;Stavrou G.;Mastrokalos G. -T.;Lowe H. L.;Matos I. G.;Noorani I.;Goldman J.;Reading J. L.;Rane J. K.;Nicod J.;Hartley J. A.;Peggs K. S.;Enfield K. S. S.;Selvaraju K.;Thol K.;Ng K. W.;Chen K.;Dijkstra K.;Grigoriadis K.;Thakkar K.;Ensell L.;Shah M.;Litovchenko M.;Jamal-Hanjani M.;Werner Sunderland M.;Huska M. R.;Hill M. S.;Dietzen M.;Leung M. M.;Escudero M.;Tanic M.;Sivakumar M.;Chervova O.;Lucas O.;Pich O.;Al-Sawaf O.;Prymas P.;Hobson P.;Pawlik P.;Stone R. K.;Bentham R.;Vendramin R.;Saghafinia S.;Gamble S.;Veeriah S.;Ung S. K. A.;Quezada S. A.;Vanloo S.;Hessey S.;Ward S.;Harries S.;Boeing S.;Beck S.;Bola S. K.;Karasaki T.;Denner T.;Marafioti T.;Jones T. P.;Spanswick V.;Barbe V.;Lu W. -T.;Liu W. K.;Wu Y.;Naito Y.;Ramsden Z.;Veiga C.;Royle G.;Collins-Fekete C. -A.;Fraioli F.;Ashford P.;Forster M. D.;Lee S. M.;Borg E.;Falzon M.;Papadatos-Pastos D.;Wilson J.;Ahmad T.;Procter A. J.;Ahmed A.;Taylor M. N.;Nair A.;Lawrence D.;Patrini D.;Navani N.;Thakrar R. M.;Janes S. M.;Martinoni Hoogenboom E.;Monk F.;Holding J. W.;Choudhary J.;Bhakhri K.;Scarci M.;Gorman P.;Khiroya R.;Stephens R. C. M.;Wong Y. N. S.;Kaplar Z.;Bandula S.;Hackshaw A.;Hacker A. -M.;Sharp A.;Smith S.;Kaur Dhanda H.;Pilotti C.;Leslie R.;Grapa A.;Zhang H.;AbdulJabbar K.;Pan X.;Yuan Y.;Chuter D.;MacKenzie M.;Chee S.;Alzetani A.;Cave J.;Richards J.;Lim E.;De Sousa P.;Jordan S.;Rice A.;Raubenheimer H.;Bhayani H.;Ambrose L.;Devaraj A.;Chavan H.;Begum S.;Buderi S. I.;Kaniu D.;Malima M.;Booth S.;Nicholson A. G.;Fernandes N.;Shah P.;Proli C.;Hewish M.;Danson S.;Shackcloth M. J.;Robinson L.;Russell P.;Blyth K. G.;Kidd A.;Dick C.;Le Quesne J.;Kirk A.;Asif M.;Bilancia R.;Kostoulas N.;Thomas M.;Hynds R. E.;Kanu N.;Zaccaria S.;Gronroos E.;Swanton C.

2024

Abstract

The phenomenon of mixed/heterogenous treatment responses to cancer therapies within an individual patient presents a challenging clinical scenario. Furthermore, the molecular basis of mixed intra-patient tumor responses remains unclear. Here, we show that patients with metastatic lung adenocarcinoma harbouring co-mutations of EGFR and TP53, are more likely to have mixed intra-patient tumor responses to EGFR tyrosine kinase inhibition (TKI), compared to those with an EGFR mutation alone. The combined presence of whole genome doubling (WGD) and TP53 co-mutations leads to increased genome instability and genomic copy number aberrations in genes implicated in EGFR TKI resistance. Using mouse models and an in vitro isogenic p53-mutant model system, we provide evidence that WGD provides diverse routes to drug resistance by increasing the probability of acquiring copy-number gains or losses relative to non-WGD cells. These data provide a molecular basis for mixed tumor responses to targeted therapy, within an individual patient, with implications for therapeutic strategies.

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	Sottotipologia
	
				Articolo in rivista - Articolo scientifico
			
	Parole chiave
	
				Adenocarcinoma of Lung; Animals; Cell Line, Tumor; Chromosomal Instability; DNA Copy Number Variations; Drug Resistance, Neoplasm; ErbB Receptors; Female; Humans; Lung Neoplasms; Male; Mice; Molecular Targeted Therapy; Mutation; Protein Kinase Inhibitors; Tumor Suppressor Protein p53
			
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				English
			
	Data ahead of print o Data prima pubblicazione Online
	
				13-giu-2024
			
	Data di pubblicazione
	
				2024
			
	Rivista
	
				NATURE COMMUNICATIONS
			
	Numero del volume
	
				15
			
	Fascicolo
	
				1
			
	Article number
	
				4871
			
	DOI dell'articolo
	
				https://dx.doi.org/10.1038/s41467-024-47606-9
			
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				Hobor, S., Al Bakir, M., Hiley, C., Skrzypski, M., Frankell, A., Bakker, B., et al. (2024). Mixed responses to targeted therapy driven by chromosomal instability through p53 dysfunction and genome doubling. NATURE COMMUNICATIONS, 15(1) [10.1038/s41467-024-47606-9].
			
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Mixed responses to targeted therapy driven by chromosomal instability through p53 dysfunction and genome doubling

2024

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