Targeting DNA Damage Response and Replication Stress in Pancreatic Cancer

Glasgow Precision Oncology Laboratory,; Glasgow Precision Oncology Laboratory,; Australian Pancreatic Cancer Genome Initiative

doi:10.1053/j.gastro.2020.09.043

Targeting DNA Damage Response and Replication Stress in Pancreatic Cancer

Glasgow Precision Oncology Laboratory,, Glasgow Precision Oncology Laboratory,, Australian Pancreatic Cancer Genome Initiative

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Background & Aims: Continuing recalcitrance to therapy cements pancreatic cancer (PC) as the most lethal malignancy, which is set to become the second leading cause of cancer death in our society. The study aim was to investigate the association between DNA damage response (DDR), replication stress, and novel therapeutic response in PC to develop a biomarker-driven therapeutic strategy targeting DDR and replication stress in PC. Methods: We interrogated the transcriptome, genome, proteome, and functional characteristics of 61 novel PC patient–derived cell lines to define novel therapeutic strategies targeting DDR and replication stress. Validation was done in patient-derived xenografts and human PC organoids. Results: Patient-derived cell lines faithfully recapitulate the epithelial component of pancreatic tumors, including previously described molecular subtypes. Biomarkers of DDR deficiency, including a novel signature of homologous recombination deficiency, cosegregates with response to platinum (P <.001) and PARP inhibitor therapy (P <.001) in vitro and in vivo. We generated a novel signature of replication stress that predicts response to ATR (P <.018) and WEE1 inhibitor (P <.029) treatment in both cell lines and human PC organoids. Replication stress was enriched in the squamous subtype of PC (P <.001) but was not associated with DDR deficiency. Conclusions: Replication stress and DDR deficiency are independent of each other, creating opportunities for therapy in DDR-proficient PC and after platinum therapy.

Original language	English (US)
Pages (from-to)	362-377.e13
Journal	Gastroenterology
Volume	160
Issue number	1
DOIs	https://doi.org/10.1053/j.gastro.2020.09.043
State	Published - Jan 2021

Keywords

DNA Damage Response
Pancreatic Cancer
Personalized Medicine
Replication Stress

ASJC Scopus subject areas

Hepatology
Gastroenterology

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10.1053/j.gastro.2020.09.043

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@article{1497ba48bdba41a291377ae89e83ac89,

title = "Targeting DNA Damage Response and Replication Stress in Pancreatic Cancer",

abstract = "Background & Aims: Continuing recalcitrance to therapy cements pancreatic cancer (PC) as the most lethal malignancy, which is set to become the second leading cause of cancer death in our society. The study aim was to investigate the association between DNA damage response (DDR), replication stress, and novel therapeutic response in PC to develop a biomarker-driven therapeutic strategy targeting DDR and replication stress in PC. Methods: We interrogated the transcriptome, genome, proteome, and functional characteristics of 61 novel PC patient–derived cell lines to define novel therapeutic strategies targeting DDR and replication stress. Validation was done in patient-derived xenografts and human PC organoids. Results: Patient-derived cell lines faithfully recapitulate the epithelial component of pancreatic tumors, including previously described molecular subtypes. Biomarkers of DDR deficiency, including a novel signature of homologous recombination deficiency, cosegregates with response to platinum (P <.001) and PARP inhibitor therapy (P <.001) in vitro and in vivo. We generated a novel signature of replication stress that predicts response to ATR (P <.018) and WEE1 inhibitor (P <.029) treatment in both cell lines and human PC organoids. Replication stress was enriched in the squamous subtype of PC (P <.001) but was not associated with DDR deficiency. Conclusions: Replication stress and DDR deficiency are independent of each other, creating opportunities for therapy in DDR-proficient PC and after platinum therapy.",

keywords = "DNA Damage Response, Pancreatic Cancer, Personalized Medicine, Replication Stress",

author = "{Glasgow Precision Oncology Laboratory,} and {Glasgow Precision Oncology Laboratory,} and {Australian Pancreatic Cancer Genome Initiative} and Dreyer, {Stephan B.} and Rosie Upstill-Goddard and Viola Paulus-Hock and Clara Paris and Lampraki, {Eirini Maria} and Eloise Dray and Bryan Serrels and Giuseppina Caligiuri and Selma Rebus and Dennis Plenker and Zachary Galluzzo and Holly Brunton and Richard Cunningham and Mathias Tesson and Craig Nourse and Bailey, {Ulla Maja} and Jones, {Marc D.} and Kim Moran-Jones and Wright, {Derek W.} and Fraser Duthie and Karin Oien and Lisa Evers and McKay, {Colin J.} and McGregor, {Grant A.} and Aditi Gulati and Rachel Brough and Ilirjana Bajrami and Stephan Pettitt and Dziubinski, {Michele L.} and Juliana Candido and Frances Balkwill and Barry, {Simon T.} and Robert Gr{\"u}tzmann and Lola Rahib and Sarah Allison and Bailey, {Peter J.} and Biankin, {Andrew V.} and Dario Beraldi and Euan Cameron and Chang, {David K.} and Cooke, {Susanna L.} and Paul Grimwood and Shane Kelly and John Marshall and Sancha Martin and Brian McDade and Daniel McElroy and Petersen, {Gloria M.} and Crawford, {Howard C.} and Debabrata Mukhopadhyay",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors",

year = "2021",

month = jan,

doi = "10.1053/j.gastro.2020.09.043",

language = "English (US)",

volume = "160",

pages = "362--377.e13",

journal = "Gastroenterology",

issn = "0016-5085",

publisher = "W.B. Saunders Ltd",

number = "1",

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TY - JOUR

T1 - Targeting DNA Damage Response and Replication Stress in Pancreatic Cancer

AU - Glasgow Precision Oncology Laboratory,

AU - Australian Pancreatic Cancer Genome Initiative

AU - Dreyer, Stephan B.

AU - Upstill-Goddard, Rosie

AU - Paulus-Hock, Viola

AU - Paris, Clara

AU - Lampraki, Eirini Maria

AU - Dray, Eloise

AU - Serrels, Bryan

AU - Caligiuri, Giuseppina

AU - Rebus, Selma

AU - Plenker, Dennis

AU - Galluzzo, Zachary

AU - Brunton, Holly

AU - Cunningham, Richard

AU - Tesson, Mathias

AU - Nourse, Craig

AU - Bailey, Ulla Maja

AU - Jones, Marc D.

AU - Moran-Jones, Kim

AU - Wright, Derek W.

AU - Duthie, Fraser

AU - Oien, Karin

AU - Evers, Lisa

AU - McKay, Colin J.

AU - McGregor, Grant A.

AU - Gulati, Aditi

AU - Brough, Rachel

AU - Bajrami, Ilirjana

AU - Pettitt, Stephan

AU - Dziubinski, Michele L.

AU - Candido, Juliana

AU - Balkwill, Frances

AU - Barry, Simon T.

AU - Grützmann, Robert

AU - Rahib, Lola

AU - Allison, Sarah

AU - Bailey, Peter J.

AU - Biankin, Andrew V.

AU - Beraldi, Dario

AU - Cameron, Euan

AU - Chang, David K.

AU - Cooke, Susanna L.

AU - Grimwood, Paul

AU - Kelly, Shane

AU - Marshall, John

AU - Martin, Sancha

AU - McDade, Brian

AU - McElroy, Daniel

AU - Petersen, Gloria M.

AU - Crawford, Howard C.

AU - Mukhopadhyay, Debabrata

PY - 2021/1

Y1 - 2021/1

N2 - Background & Aims: Continuing recalcitrance to therapy cements pancreatic cancer (PC) as the most lethal malignancy, which is set to become the second leading cause of cancer death in our society. The study aim was to investigate the association between DNA damage response (DDR), replication stress, and novel therapeutic response in PC to develop a biomarker-driven therapeutic strategy targeting DDR and replication stress in PC. Methods: We interrogated the transcriptome, genome, proteome, and functional characteristics of 61 novel PC patient–derived cell lines to define novel therapeutic strategies targeting DDR and replication stress. Validation was done in patient-derived xenografts and human PC organoids. Results: Patient-derived cell lines faithfully recapitulate the epithelial component of pancreatic tumors, including previously described molecular subtypes. Biomarkers of DDR deficiency, including a novel signature of homologous recombination deficiency, cosegregates with response to platinum (P <.001) and PARP inhibitor therapy (P <.001) in vitro and in vivo. We generated a novel signature of replication stress that predicts response to ATR (P <.018) and WEE1 inhibitor (P <.029) treatment in both cell lines and human PC organoids. Replication stress was enriched in the squamous subtype of PC (P <.001) but was not associated with DDR deficiency. Conclusions: Replication stress and DDR deficiency are independent of each other, creating opportunities for therapy in DDR-proficient PC and after platinum therapy.

AB - Background & Aims: Continuing recalcitrance to therapy cements pancreatic cancer (PC) as the most lethal malignancy, which is set to become the second leading cause of cancer death in our society. The study aim was to investigate the association between DNA damage response (DDR), replication stress, and novel therapeutic response in PC to develop a biomarker-driven therapeutic strategy targeting DDR and replication stress in PC. Methods: We interrogated the transcriptome, genome, proteome, and functional characteristics of 61 novel PC patient–derived cell lines to define novel therapeutic strategies targeting DDR and replication stress. Validation was done in patient-derived xenografts and human PC organoids. Results: Patient-derived cell lines faithfully recapitulate the epithelial component of pancreatic tumors, including previously described molecular subtypes. Biomarkers of DDR deficiency, including a novel signature of homologous recombination deficiency, cosegregates with response to platinum (P <.001) and PARP inhibitor therapy (P <.001) in vitro and in vivo. We generated a novel signature of replication stress that predicts response to ATR (P <.018) and WEE1 inhibitor (P <.029) treatment in both cell lines and human PC organoids. Replication stress was enriched in the squamous subtype of PC (P <.001) but was not associated with DDR deficiency. Conclusions: Replication stress and DDR deficiency are independent of each other, creating opportunities for therapy in DDR-proficient PC and after platinum therapy.

KW - DNA Damage Response

KW - Pancreatic Cancer

KW - Personalized Medicine

KW - Replication Stress

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UR - http://www.scopus.com/inward/citedby.url?scp=85097475066&partnerID=8YFLogxK

U2 - 10.1053/j.gastro.2020.09.043

DO - 10.1053/j.gastro.2020.09.043

M3 - Article

C2 - 33039466

AN - SCOPUS:85097475066

SN - 0016-5085

VL - 160

SP - 362-377.e13

JO - Gastroenterology

JF - Gastroenterology

IS - 1

ER -

Targeting DNA Damage Response and Replication Stress in Pancreatic Cancer

Abstract

Keywords

ASJC Scopus subject areas

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