Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance

Violeta Serra; Anderson T. Wang; Marta Castroviejo-Bermejo; Urszula Polanska; Marta Palafox; Andrea Herencia Ropero; Gemma Jones; Zhongwu Lai; Joshua Armenia; Filippos Michopoulos; Alba Llop-Guevara; Rachel Brough; Aditi Gulati; Stephen Pettitt; Krishna C. Bulusu; Jenni Nikkila; Zena Wilson; Adina Hughes; Paul W.G. Wijnhoven; Ambar Ahmed; Alejandra Bruna; Albert Gris-Oliver; Marta Guzmán; Olga Rodríguez; Judit Grueso; Joaquín V Arribas; Javier Cortés; Cristina Saura Manich; Alan Lau; Susan Critchlow; Brian Dougherty; Carlos Caldas; Gordon Mills; J. Carl Barrett; Josep V. Forment; Elaine Cadogan; Christopher J. Lord; Cristina Cruz Zambrano; Judith Balmaña Gelpí; Mark J. O'Connor

doi:10.1158/1078-0432.CCR-22-0568

Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance

Violeta Serra, Anderson T. Wang, Marta Castroviejo-Bermejo, Urszula Polanska, Marta Palafox, Andrea Herencia Ropero, Gemma Jones, Zhongwu Lai, Joshua Armenia, Filippos Michopoulos, Alba Llop-Guevara, Rachel Brough, Aditi Gulati, Stephen Pettitt, Krishna C. Bulusu, Jenni Nikkila, Zena Wilson, Adina Hughes, Paul W.G. Wijnhoven, Ambar AhmedAlejandra Bruna, Albert Gris-Oliver, Marta Guzmán, Olga Rodríguez, Judit Grueso, Joaquín V Arribas, Javier Cortés, Cristina Saura Manich, Alan Lau, Susan Critchlow, Brian Dougherty, Carlos Caldas, Gordon Mills, J. Carl Barrett, Josep V. Forment, Elaine Cadogan, Christopher J. Lord, Cristina Cruz Zambrano, Judith Balmaña Gelpí, Mark J. O'Connor

Department of Medicine

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

30 Citations (Scopus)

Abstract

PARP inhibitors (PARPi) induce synthetic lethality in homologous recombination repair (HRR)-deficient tumors and are used to treat breast, ovarian, pancreatic, and prostate cancers. Multiple PARPi resistance mechanisms exist, most resulting in restoration of HRR and protection of stalled replication forks. ATR inhibition was highlighted as a unique approach to reverse both aspects of resistance. Recently, however, a PARPi/WEE1 inhibitor (WEE1i) combination demonstrated enhanced antitumor activity associated with the induction of replication stress, suggesting another approach to tackling PARPi resistance. We analyzed breast and ovarian patientderived xenoimplant models resistant to PARPi to quantify WEE1i and ATR inhibitor (ATRi) responses as single agents and in combination with PARPi. Biomarker analysis was conducted at the genetic and protein level. Metabolite analysis by mass spectrometry and nucleoside rescue experiments ex vivo were also conducted in patient-derived models. Although WEE1i response was linked to markers of replication stress, including STK11/RB1 and phospho-RPA, ATRi response associated with ATM mutation. When combined with olaparib, WEE1i could be differentiated from the ATRi/olaparib combination, providing distinct therapeutic strategies to overcome PARPi resistance by targeting the replication stress response. Mechanistically, WEE1i sensitivity was associated with shortage of the dNTP pool and a concomitant increase in replication stress. Targeting the replication stress response is a valid therapeutic option to overcome PARPi resistance including tumors without an underlying HRR deficiency. These preclinical insights are now being tested in several clinical trials where the PARPi is administered with either the WEE1i or the ATRi.

Original language	English
Pages (from-to)	4536-4550
Number of pages	15
Journal	Clinical Cancer Research
Volume	28
Issue number	20
DOIs	https://doi.org/10.1158/1078-0432.CCR-22-0568
Publication status	Published - 2022

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10.1158/1078-0432.CCR-22-0568

https://ddd.uab.cat/record/292109

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Serra, V., Wang, A. T., Castroviejo-Bermejo, M., Polanska, U., Palafox, M., Herencia Ropero, A., Jones, G., Lai, Z., Armenia, J., Michopoulos, F., Llop-Guevara, A., Brough, R., Gulati, A., Pettitt, S., Bulusu, K. C., Nikkila, J., Wilson, Z., Hughes, A., Wijnhoven, P. W. G., ... O'Connor, M. J. (2022). Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance. Clinical Cancer Research, 28(20), 4536-4550. https://doi.org/10.1158/1078-0432.CCR-22-0568

@article{cb96f495a20f48d09b6f2a00612b798e,

title = "Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance",

abstract = "PARP inhibitors (PARPi) induce synthetic lethality in homologous recombination repair (HRR)-deficient tumors and are used to treat breast, ovarian, pancreatic, and prostate cancers. Multiple PARPi resistance mechanisms exist, most resulting in restoration of HRR and protection of stalled replication forks. ATR inhibition was highlighted as a unique approach to reverse both aspects of resistance. Recently, however, a PARPi/WEE1 inhibitor (WEE1i) combination demonstrated enhanced antitumor activity associated with the induction of replication stress, suggesting another approach to tackling PARPi resistance. We analyzed breast and ovarian patientderived xenoimplant models resistant to PARPi to quantify WEE1i and ATR inhibitor (ATRi) responses as single agents and in combination with PARPi. Biomarker analysis was conducted at the genetic and protein level. Metabolite analysis by mass spectrometry and nucleoside rescue experiments ex vivo were also conducted in patient-derived models. Although WEE1i response was linked to markers of replication stress, including STK11/RB1 and phospho-RPA, ATRi response associated with ATM mutation. When combined with olaparib, WEE1i could be differentiated from the ATRi/olaparib combination, providing distinct therapeutic strategies to overcome PARPi resistance by targeting the replication stress response. Mechanistically, WEE1i sensitivity was associated with shortage of the dNTP pool and a concomitant increase in replication stress. Targeting the replication stress response is a valid therapeutic option to overcome PARPi resistance including tumors without an underlying HRR deficiency. These preclinical insights are now being tested in several clinical trials where the PARPi is administered with either the WEE1i or the ATRi.",

author = "Violeta Serra and Wang, {Anderson T.} and Marta Castroviejo-Bermejo and Urszula Polanska and Marta Palafox and {Herencia Ropero}, Andrea and Gemma Jones and Zhongwu Lai and Joshua Armenia and Filippos Michopoulos and Alba Llop-Guevara and Rachel Brough and Aditi Gulati and Stephen Pettitt and Bulusu, {Krishna C.} and Jenni Nikkila and Zena Wilson and Adina Hughes and Wijnhoven, {Paul W.G.} and Ambar Ahmed and Alejandra Bruna and Albert Gris-Oliver and Marta Guzm{\'a}n and Olga Rodr{\'i}guez and Judit Grueso and Arribas, {Joaqu{\'i}n V} and Javier Cort{\'e}s and {Saura Manich}, Cristina and Alan Lau and Susan Critchlow and Brian Dougherty and Carlos Caldas and Gordon Mills and Barrett, {J. Carl} and Forment, {Josep V.} and Elaine Cadogan and Lord, {Christopher J.} and {Cruz Zambrano}, Cristina and {Balma{\~n}a Gelp{\'i}}, Judith and O'Connor, {Mark J.}",

year = "2022",

doi = "10.1158/1078-0432.CCR-22-0568",

language = "English",

volume = "28",

pages = "4536--4550",

journal = "Clinical Cancer Research",

issn = "1078-0432",

publisher = "American Association for Cancer Research Inc.",

number = "20",

}

Serra, V, Wang, AT, Castroviejo-Bermejo, M, Polanska, U, Palafox, M, Herencia Ropero, A, Jones, G, Lai, Z, Armenia, J, Michopoulos, F, Llop-Guevara, A, Brough, R, Gulati, A, Pettitt, S, Bulusu, KC, Nikkila, J, Wilson, Z, Hughes, A, Wijnhoven, PWG, Ahmed, A, Bruna, A, Gris-Oliver, A, Guzmán, M, Rodríguez, O, Grueso, J, Arribas, JV, Cortés, J, Saura Manich, C, Lau, A, Critchlow, S, Dougherty, B, Caldas, C, Mills, G, Barrett, JC, Forment, JV, Cadogan, E, Lord, CJ, Cruz Zambrano, C, Balmaña Gelpí, J & O'Connor, MJ 2022, 'Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance', Clinical Cancer Research, vol. 28, no. 20, pp. 4536-4550. https://doi.org/10.1158/1078-0432.CCR-22-0568

Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance. / Serra, Violeta; Wang, Anderson T.; Castroviejo-Bermejo, Marta et al.
In: Clinical Cancer Research, Vol. 28, No. 20, 2022, p. 4536-4550.

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

TY - JOUR

T1 - Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance

AU - Serra, Violeta

AU - Wang, Anderson T.

AU - Castroviejo-Bermejo, Marta

AU - Polanska, Urszula

AU - Palafox, Marta

AU - Herencia Ropero, Andrea

AU - Jones, Gemma

AU - Lai, Zhongwu

AU - Armenia, Joshua

AU - Michopoulos, Filippos

AU - Llop-Guevara, Alba

AU - Brough, Rachel

AU - Gulati, Aditi

AU - Pettitt, Stephen

AU - Bulusu, Krishna C.

AU - Nikkila, Jenni

AU - Wilson, Zena

AU - Hughes, Adina

AU - Wijnhoven, Paul W.G.

AU - Ahmed, Ambar

AU - Bruna, Alejandra

AU - Gris-Oliver, Albert

AU - Guzmán, Marta

AU - Rodríguez, Olga

AU - Grueso, Judit

AU - Arribas, Joaquín V

AU - Cortés, Javier

AU - Saura Manich, Cristina

AU - Lau, Alan

AU - Critchlow, Susan

AU - Dougherty, Brian

AU - Caldas, Carlos

AU - Mills, Gordon

AU - Barrett, J. Carl

AU - Forment, Josep V.

AU - Cadogan, Elaine

AU - Lord, Christopher J.

AU - Cruz Zambrano, Cristina

AU - Balmaña Gelpí, Judith

AU - O'Connor, Mark J.

PY - 2022

Y1 - 2022

N2 - PARP inhibitors (PARPi) induce synthetic lethality in homologous recombination repair (HRR)-deficient tumors and are used to treat breast, ovarian, pancreatic, and prostate cancers. Multiple PARPi resistance mechanisms exist, most resulting in restoration of HRR and protection of stalled replication forks. ATR inhibition was highlighted as a unique approach to reverse both aspects of resistance. Recently, however, a PARPi/WEE1 inhibitor (WEE1i) combination demonstrated enhanced antitumor activity associated with the induction of replication stress, suggesting another approach to tackling PARPi resistance. We analyzed breast and ovarian patientderived xenoimplant models resistant to PARPi to quantify WEE1i and ATR inhibitor (ATRi) responses as single agents and in combination with PARPi. Biomarker analysis was conducted at the genetic and protein level. Metabolite analysis by mass spectrometry and nucleoside rescue experiments ex vivo were also conducted in patient-derived models. Although WEE1i response was linked to markers of replication stress, including STK11/RB1 and phospho-RPA, ATRi response associated with ATM mutation. When combined with olaparib, WEE1i could be differentiated from the ATRi/olaparib combination, providing distinct therapeutic strategies to overcome PARPi resistance by targeting the replication stress response. Mechanistically, WEE1i sensitivity was associated with shortage of the dNTP pool and a concomitant increase in replication stress. Targeting the replication stress response is a valid therapeutic option to overcome PARPi resistance including tumors without an underlying HRR deficiency. These preclinical insights are now being tested in several clinical trials where the PARPi is administered with either the WEE1i or the ATRi.

AB - PARP inhibitors (PARPi) induce synthetic lethality in homologous recombination repair (HRR)-deficient tumors and are used to treat breast, ovarian, pancreatic, and prostate cancers. Multiple PARPi resistance mechanisms exist, most resulting in restoration of HRR and protection of stalled replication forks. ATR inhibition was highlighted as a unique approach to reverse both aspects of resistance. Recently, however, a PARPi/WEE1 inhibitor (WEE1i) combination demonstrated enhanced antitumor activity associated with the induction of replication stress, suggesting another approach to tackling PARPi resistance. We analyzed breast and ovarian patientderived xenoimplant models resistant to PARPi to quantify WEE1i and ATR inhibitor (ATRi) responses as single agents and in combination with PARPi. Biomarker analysis was conducted at the genetic and protein level. Metabolite analysis by mass spectrometry and nucleoside rescue experiments ex vivo were also conducted in patient-derived models. Although WEE1i response was linked to markers of replication stress, including STK11/RB1 and phospho-RPA, ATRi response associated with ATM mutation. When combined with olaparib, WEE1i could be differentiated from the ATRi/olaparib combination, providing distinct therapeutic strategies to overcome PARPi resistance by targeting the replication stress response. Mechanistically, WEE1i sensitivity was associated with shortage of the dNTP pool and a concomitant increase in replication stress. Targeting the replication stress response is a valid therapeutic option to overcome PARPi resistance including tumors without an underlying HRR deficiency. These preclinical insights are now being tested in several clinical trials where the PARPi is administered with either the WEE1i or the ATRi.

U2 - 10.1158/1078-0432.CCR-22-0568

DO - 10.1158/1078-0432.CCR-22-0568

M3 - Article

C2 - 35921524

SN - 1078-0432

VL - 28

SP - 4536

EP - 4550

JO - Clinical Cancer Research

JF - Clinical Cancer Research

IS - 20

ER -

Identification of a Molecularly-Defined Subset of Breast and Ovarian Cancer Models that Respond to WEE1 or ATR Inhibition, Overcoming PARP Inhibitor Resistance

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