A renewed model of pancreatic cancer evolution based on genomic rearrangement patterns

Faiyaz Notta; Michelle Chan-Seng-Yue; Mathieu Lemire; Yilong Li; Gavin W. Wilson; Ashton A. Connor; Robert E. Denroche; Sheng Ben Liang; Andrew M.K. Brown; Jaeseung C. Kim; Tao Wang; Jared T. Simpson; Timothy Beck; Ayelet Borgida; Nicholas Buchner; Dianne Chadwick; Sara Hafezi-Bakhtiari; John E. Dick; Lawrence Heisler; Michael A. Hollingsworth; Emin Ibrahimov; Gun Ho Jang; Jeremy Johns; Lars G.T. Jorgensen; Calvin Law; Olga Ludkovski; Ilinca Lungu; Karen Ng; Danielle Pasternack; Gloria M. Petersen; Liran I. Shlush; Lee Timms; Ming Sound Tsao; Julie M. Wilson; Christina K. Yung; George Zogopoulos; John M.S. Bartlett; Ludmil B. Alexandrov; Francisco X. Real; Sean P. Cleary; Michael H. Roehrl; John D. McPherson; Lincoln D. Stein; Thomas J. Hudson; Peter J. Campbell; Steven Gallinger

doi:10.1038/nature19823

A renewed model of pancreatic cancer evolution based on genomic rearrangement patterns

Faiyaz Notta, Michelle Chan-Seng-Yue, Mathieu Lemire, Yilong Li, Gavin W. Wilson, Ashton A. Connor, Robert E. Denroche, Sheng Ben Liang, Andrew M.K. Brown, Jaeseung C. Kim, Tao Wang, Jared T. Simpson, Timothy Beck, Ayelet Borgida, Nicholas Buchner, Dianne Chadwick, Sara Hafezi-Bakhtiari, John E. Dick, Lawrence Heisler, Michael A. HollingsworthEmin Ibrahimov, Gun Ho Jang, Jeremy Johns, Lars G.T. Jorgensen, Calvin Law, Olga Ludkovski, Ilinca Lungu, Karen Ng, Danielle Pasternack, Gloria M. Petersen, Liran I. Shlush, Lee Timms, Ming Sound Tsao, Julie M. Wilson, Christina K. Yung, George Zogopoulos, John M.S. Bartlett, Ludmil B. Alexandrov, Francisco X. Real, Sean P. Cleary, Michael H. Roehrl, John D. McPherson, Lincoln D. Stein, Thomas J. Hudson, Peter J. Campbell, Steven Gallinger

Quantitative Health Sciences

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Abstract

Pancreatic cancer, a highly aggressive tumour type with uniformly poor prognosis, exemplifies the classically held view of stepwise cancer development. The current model of tumorigenesis, based on analyses of precursor lesions, termed pancreatic intraepithelial neoplasm (PanINs) lesions, makes two predictions: first, that pancreatic cancer develops through a particular sequence of genetic alterations (KRAS, followed by CDKN2A, then TP53 and SMAD4); and second, that the evolutionary trajectory of pancreatic cancer progression is gradual because each alteration is acquired independently. A shortcoming of this model is that clonally expanded precursor lesions do not always belong to the tumour lineage, indicating that the evolutionary trajectory of the tumour lineage and precursor lesions can be divergent. This prevailing model of tumorigenesis has contributed to the clinical notion that pancreatic cancer evolves slowly and presents at a late stage. However, the propensity for this disease to rapidly metastasize and the inability to improve patient outcomes, despite efforts aimed at early detection, suggest that pancreatic cancer progression is not gradual. Here, using newly developed informatics tools, we tracked changes in DNA copy number and their associated rearrangements in tumour-enriched genomes and found that pancreatic cancer tumorigenesis is neither gradual nor follows the accepted mutation order. Two-thirds of tumours harbour complex rearrangement patterns associated with mitotic errors, consistent with punctuated equilibrium as the principal evolutionary trajectory. In a subset of cases, the consequence of such errors is the simultaneous, rather than sequential, knockout of canonical preneoplastic genetic drivers that are likely to set-off invasive cancer growth. These findings challenge the current progression model of pancreatic cancer and provide insights into the mutational processes that give rise to these aggressive tumours.

Original language	English (US)
Pages (from-to)	378-382
Number of pages	5
Journal	Nature
Volume	538
Issue number	7625
DOIs	https://doi.org/10.1038/nature19823
State	Published - 2016

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Notta, F., Chan-Seng-Yue, M., Lemire, M., Li, Y., Wilson, G. W., Connor, A. A., Denroche, R. E., Liang, S. B., Brown, A. M. K., Kim, J. C., Wang, T., Simpson, J. T., Beck, T., Borgida, A., Buchner, N., Chadwick, D., Hafezi-Bakhtiari, S., Dick, J. E., Heisler, L., ... Gallinger, S. (2016). A renewed model of pancreatic cancer evolution based on genomic rearrangement patterns. Nature, 538(7625), 378-382. https://doi.org/10.1038/nature19823

Notta, F, Chan-Seng-Yue, M, Lemire, M, Li, Y, Wilson, GW, Connor, AA, Denroche, RE, Liang, SB, Brown, AMK, Kim, JC, Wang, T, Simpson, JT, Beck, T, Borgida, A, Buchner, N, Chadwick, D, Hafezi-Bakhtiari, S, Dick, JE, Heisler, L, Hollingsworth, MA, Ibrahimov, E, Jang, GH, Johns, J, Jorgensen, LGT, Law, C, Ludkovski, O, Lungu, I, Ng, K, Pasternack, D, Petersen, GM, Shlush, LI, Timms, L, Tsao, MS, Wilson, JM, Yung, CK, Zogopoulos, G, Bartlett, JMS, Alexandrov, LB, Real, FX, Cleary, SP, Roehrl, MH, McPherson, JD, Stein, LD, Hudson, TJ, Campbell, PJ & Gallinger, S 2016, 'A renewed model of pancreatic cancer evolution based on genomic rearrangement patterns', Nature, vol. 538, no. 7625, pp. 378-382. https://doi.org/10.1038/nature19823

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title = "A renewed model of pancreatic cancer evolution based on genomic rearrangement patterns",

abstract = "Pancreatic cancer, a highly aggressive tumour type with uniformly poor prognosis, exemplifies the classically held view of stepwise cancer development. The current model of tumorigenesis, based on analyses of precursor lesions, termed pancreatic intraepithelial neoplasm (PanINs) lesions, makes two predictions: first, that pancreatic cancer develops through a particular sequence of genetic alterations (KRAS, followed by CDKN2A, then TP53 and SMAD4); and second, that the evolutionary trajectory of pancreatic cancer progression is gradual because each alteration is acquired independently. A shortcoming of this model is that clonally expanded precursor lesions do not always belong to the tumour lineage, indicating that the evolutionary trajectory of the tumour lineage and precursor lesions can be divergent. This prevailing model of tumorigenesis has contributed to the clinical notion that pancreatic cancer evolves slowly and presents at a late stage. However, the propensity for this disease to rapidly metastasize and the inability to improve patient outcomes, despite efforts aimed at early detection, suggest that pancreatic cancer progression is not gradual. Here, using newly developed informatics tools, we tracked changes in DNA copy number and their associated rearrangements in tumour-enriched genomes and found that pancreatic cancer tumorigenesis is neither gradual nor follows the accepted mutation order. Two-thirds of tumours harbour complex rearrangement patterns associated with mitotic errors, consistent with punctuated equilibrium as the principal evolutionary trajectory. In a subset of cases, the consequence of such errors is the simultaneous, rather than sequential, knockout of canonical preneoplastic genetic drivers that are likely to set-off invasive cancer growth. These findings challenge the current progression model of pancreatic cancer and provide insights into the mutational processes that give rise to these aggressive tumours.",

author = "Faiyaz Notta and Michelle Chan-Seng-Yue and Mathieu Lemire and Yilong Li and Wilson, {Gavin W.} and Connor, {Ashton A.} and Denroche, {Robert E.} and Liang, {Sheng Ben} and Brown, {Andrew M.K.} and Kim, {Jaeseung C.} and Tao Wang and Simpson, {Jared T.} and Timothy Beck and Ayelet Borgida and Nicholas Buchner and Dianne Chadwick and Sara Hafezi-Bakhtiari and Dick, {John E.} and Lawrence Heisler and Hollingsworth, {Michael A.} and Emin Ibrahimov and Jang, {Gun Ho} and Jeremy Johns and Jorgensen, {Lars G.T.} and Calvin Law and Olga Ludkovski and Ilinca Lungu and Karen Ng and Danielle Pasternack and Petersen, {Gloria M.} and Shlush, {Liran I.} and Lee Timms and Tsao, {Ming Sound} and Wilson, {Julie M.} and Yung, {Christina K.} and George Zogopoulos and Bartlett, {John M.S.} and Alexandrov, {Ludmil B.} and Real, {Francisco X.} and Cleary, {Sean P.} and Roehrl, {Michael H.} and McPherson, {John D.} and Stein, {Lincoln D.} and Hudson, {Thomas J.} and Campbell, {Peter J.} and Steven Gallinger",

note = "Publisher Copyright: {\textcopyright} 2016 Macmillan Publishers Limited, part of Springer.",

year = "2016",

doi = "10.1038/nature19823",

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AU - Notta, Faiyaz

AU - Chan-Seng-Yue, Michelle

AU - Lemire, Mathieu

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AU - Wilson, Gavin W.

AU - Connor, Ashton A.

AU - Denroche, Robert E.

AU - Liang, Sheng Ben

AU - Brown, Andrew M.K.

AU - Kim, Jaeseung C.

AU - Wang, Tao

AU - Simpson, Jared T.

AU - Beck, Timothy

AU - Borgida, Ayelet

AU - Buchner, Nicholas

AU - Chadwick, Dianne

AU - Hafezi-Bakhtiari, Sara

AU - Dick, John E.

AU - Heisler, Lawrence

AU - Hollingsworth, Michael A.

AU - Ibrahimov, Emin

AU - Jang, Gun Ho

AU - Johns, Jeremy

AU - Jorgensen, Lars G.T.

AU - Law, Calvin

AU - Ludkovski, Olga

AU - Lungu, Ilinca

AU - Ng, Karen

AU - Pasternack, Danielle

AU - Petersen, Gloria M.

AU - Shlush, Liran I.

AU - Timms, Lee

AU - Tsao, Ming Sound

AU - Wilson, Julie M.

AU - Yung, Christina K.

AU - Zogopoulos, George

AU - Bartlett, John M.S.

AU - Alexandrov, Ludmil B.

AU - Real, Francisco X.

AU - Cleary, Sean P.

AU - Roehrl, Michael H.

AU - McPherson, John D.

AU - Stein, Lincoln D.

AU - Hudson, Thomas J.

AU - Campbell, Peter J.

AU - Gallinger, Steven

PY - 2016

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N2 - Pancreatic cancer, a highly aggressive tumour type with uniformly poor prognosis, exemplifies the classically held view of stepwise cancer development. The current model of tumorigenesis, based on analyses of precursor lesions, termed pancreatic intraepithelial neoplasm (PanINs) lesions, makes two predictions: first, that pancreatic cancer develops through a particular sequence of genetic alterations (KRAS, followed by CDKN2A, then TP53 and SMAD4); and second, that the evolutionary trajectory of pancreatic cancer progression is gradual because each alteration is acquired independently. A shortcoming of this model is that clonally expanded precursor lesions do not always belong to the tumour lineage, indicating that the evolutionary trajectory of the tumour lineage and precursor lesions can be divergent. This prevailing model of tumorigenesis has contributed to the clinical notion that pancreatic cancer evolves slowly and presents at a late stage. However, the propensity for this disease to rapidly metastasize and the inability to improve patient outcomes, despite efforts aimed at early detection, suggest that pancreatic cancer progression is not gradual. Here, using newly developed informatics tools, we tracked changes in DNA copy number and their associated rearrangements in tumour-enriched genomes and found that pancreatic cancer tumorigenesis is neither gradual nor follows the accepted mutation order. Two-thirds of tumours harbour complex rearrangement patterns associated with mitotic errors, consistent with punctuated equilibrium as the principal evolutionary trajectory. In a subset of cases, the consequence of such errors is the simultaneous, rather than sequential, knockout of canonical preneoplastic genetic drivers that are likely to set-off invasive cancer growth. These findings challenge the current progression model of pancreatic cancer and provide insights into the mutational processes that give rise to these aggressive tumours.

AB - Pancreatic cancer, a highly aggressive tumour type with uniformly poor prognosis, exemplifies the classically held view of stepwise cancer development. The current model of tumorigenesis, based on analyses of precursor lesions, termed pancreatic intraepithelial neoplasm (PanINs) lesions, makes two predictions: first, that pancreatic cancer develops through a particular sequence of genetic alterations (KRAS, followed by CDKN2A, then TP53 and SMAD4); and second, that the evolutionary trajectory of pancreatic cancer progression is gradual because each alteration is acquired independently. A shortcoming of this model is that clonally expanded precursor lesions do not always belong to the tumour lineage, indicating that the evolutionary trajectory of the tumour lineage and precursor lesions can be divergent. This prevailing model of tumorigenesis has contributed to the clinical notion that pancreatic cancer evolves slowly and presents at a late stage. However, the propensity for this disease to rapidly metastasize and the inability to improve patient outcomes, despite efforts aimed at early detection, suggest that pancreatic cancer progression is not gradual. Here, using newly developed informatics tools, we tracked changes in DNA copy number and their associated rearrangements in tumour-enriched genomes and found that pancreatic cancer tumorigenesis is neither gradual nor follows the accepted mutation order. Two-thirds of tumours harbour complex rearrangement patterns associated with mitotic errors, consistent with punctuated equilibrium as the principal evolutionary trajectory. In a subset of cases, the consequence of such errors is the simultaneous, rather than sequential, knockout of canonical preneoplastic genetic drivers that are likely to set-off invasive cancer growth. These findings challenge the current progression model of pancreatic cancer and provide insights into the mutational processes that give rise to these aggressive tumours.

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A renewed model of pancreatic cancer evolution based on genomic rearrangement patterns

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