Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses

Chris Jenske de Witte; Jose Espejo Valle-Inclan; Nizar Hami; Kadi Lõhmussaar; Oded Kopper; Celien Philomena Henrieke Vreuls; Geertruida Nellie Jonges; Paul van Diest; Luan Nguyen; Hans Clevers; Wigard Pieter Kloosterman; Edwin Cuppen; Hugo Johannes Gerhardus Snippert; Ronald Peter Zweemer; Petronella Oda Witteveen; Ellen Stelloo

doi:10.1016/j.celrep.2020.107762

Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses

Chris Jenske de Witte
, Jose Espejo Valle-Inclan
, Nizar Hami
, Kadi Lõhmussaar
, Oded Kopper
, Celien Philomena Henrieke Vreuls
, Geertruida Nellie Jonges
, Paul van Diest
, Luan Nguyen
, Hans Clevers
, Wigard Pieter Kloosterman
, Edwin Cuppen
, Hugo Johannes Gerhardus Snippert
, Ronald Peter Zweemer
, Petronella Oda Witteveen
, Ellen Stelloo

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

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Abstract

There remains an unmet need for preclinical models to enable personalized therapy for ovarian cancer (OC) patients. Here we evaluate the capacity of patient-derived organoids (PDOs) to predict clinical drug response and functional consequences of tumor heterogeneity. We included 36 whole-genome-characterized PDOs from 23 OC patients with known clinical histories. OC PDOs maintain the genomic features of the original tumor lesion and recapitulate patient response to neoadjuvant carboplatin/paclitaxel combination treatment. PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partially explained by genetic aberrations. PDO drug screening identifies high responsiveness to at least one drug for 88% of patients. PDOs are valuable preclinical models that can provide insights into drug response for individual patients with OC, complementary to genetic testing. Generating PDOs of multiple tumor locations can improve clinical decision making and increase our knowledge of genetic and drug response heterogeneity. De Witte et al. employ patient-derived organoids (PDOs) for ex vivo drug screening. Ovarian cancer (OC) PDOs often recapitulate patient drug response to first-line chemotherapy. In addition, OC PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partly explained by genetic aberrations.

Original language	English
Article number	107762
Number of pages	8
Journal	Cell Reports
Volume	31
Issue number	11
DOIs	https://doi.org/10.1016/j.celrep.2020.107762
Publication status	Published - 16 Jun 2020

Keywords

chemotherapy
clinical response
drug screening
heterogeneity
organoids
ovarian cancer
WGS

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10.1016/j.celrep.2020.107762

1-s2.0-S2211124720307427-mainFinal published version, 5.8 MBLicence: CC BY-NC-ND

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de Witte, C. J., Espejo Valle-Inclan, J., Hami, N., Lõhmussaar, K., Kopper, O., Vreuls, C. P. H., Jonges, G. N., van Diest, P., Nguyen, L., Clevers, H., Kloosterman, W. P., Cuppen, E., Snippert, H. J. G., Zweemer, R. P., Witteveen, P. O., & Stelloo, E. (2020). Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses. Cell Reports, 31(11), Article 107762. https://doi.org/10.1016/j.celrep.2020.107762

@article{2e75ea109bcb49cd9c3f9c90f7a36873,

title = "Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses",

abstract = "There remains an unmet need for preclinical models to enable personalized therapy for ovarian cancer (OC) patients. Here we evaluate the capacity of patient-derived organoids (PDOs) to predict clinical drug response and functional consequences of tumor heterogeneity. We included 36 whole-genome-characterized PDOs from 23 OC patients with known clinical histories. OC PDOs maintain the genomic features of the original tumor lesion and recapitulate patient response to neoadjuvant carboplatin/paclitaxel combination treatment. PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partially explained by genetic aberrations. PDO drug screening identifies high responsiveness to at least one drug for 88\% of patients. PDOs are valuable preclinical models that can provide insights into drug response for individual patients with OC, complementary to genetic testing. Generating PDOs of multiple tumor locations can improve clinical decision making and increase our knowledge of genetic and drug response heterogeneity. De Witte et al. employ patient-derived organoids (PDOs) for ex vivo drug screening. Ovarian cancer (OC) PDOs often recapitulate patient drug response to first-line chemotherapy. In addition, OC PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partly explained by genetic aberrations.",

keywords = "chemotherapy, clinical response, drug screening, heterogeneity, organoids, ovarian cancer, WGS",

author = "\{de Witte\}, \{Chris Jenske\} and \{Espejo Valle-Inclan\}, Jose and Nizar Hami and Kadi L{\~o}hmussaar and Oded Kopper and Vreuls, \{Celien Philomena Henrieke\} and Jonges, \{Geertruida Nellie\} and \{van Diest\}, Paul and Luan Nguyen and Hans Clevers and Kloosterman, \{Wigard Pieter\} and Edwin Cuppen and Snippert, \{Hugo Johannes Gerhardus\} and Zweemer, \{Ronald Peter\} and Witteveen, \{Petronella Oda\} and Ellen Stelloo",

note = "Funding Information: We thank members of the Kloosterman and Cuppen laboratories for helpful discussions, Anne Snelting of the Utrecht Platform for Organoid Technology (U-PORT; UMC Utrecht) for patient inclusion and tissue acquisition, Maaike Vreeswijk and Lise van Wijk (Leiden University Medical Center) for providing OC tissues for PDO culturing, Vera Deneer for input regarding clinical pharmacokinetics, the Utrecht Sequencing Facility and Hartwig Medical Foundation for providing sequencing service and data, Hans Bos for acquiring funding, and the Dutch Cancer Registration (IKNL) for providing survival data. The graphical abstract was created with BioRender. This work was supported by the Gieskes Strijbis Foundation (1816199) and the Dutch Cancer Society (UU2015-7743 and RUG-2017-11352). Conceptualization, C.J.d.W. J.E.V.-I. R.P.Z. P.O.W. and E.S.; Methodology, C.J.d.W. J.E.V.-I. O.K. H.C. W.P.K. and E.S.; Software, J.E.V.-I. and L.N.; Validation, C.J.d.W. N.H. and E.S.; Formal Analysis, C.J.d.W. J.E.V.-I. N.H. C.P.H.V. G.N.J. P.v.D. and E.S.; Investigation, C.J.d.W. N.H. K.L. O.K. and E.S.; Resources, C.J.d.W. J.E.V.-I. K.L. O.K. G.N.J. L.N. R.P.Z. P.O.W. and E.S.; Data Curation, C.J.d.W. J.E.V.-I. and E.S.; Writing ? Original Draft, C.J.d.W. and E.S.; Writing ? Review \& Editing, all authors; Visualization, C.J.d.W. J.E.V.-I. and E.S.; Supervision, W.P.K. E.C. H.J.G.S. R.P.Z. P.O.W. and E.S.; Project Administration, C.J.d.W. and E.S.; Funding Acquisition, H.C. W.P.K. R.P.Z. and P.O.W. H.C. is an inventor listed on several patents related to organoid technology. H.C. is the founder of OrganoidZ, which employs organoids for drug development. H.C. is the (unpaid) Chief Scientific Officer of Hubrecht Organoid Technology (HUB), a cofounder of Surrozen, and a scientific advisory board member for Kallyope, Merus, and Decibel. H.C. is a nonexecutive board member of Roche and Genentech and a scientific advisor for Life Sciences Partners. His full disclosure is given at https://www.uu.nl/staff/JCClevers/. Funding Information: We thank members of the Kloosterman and Cuppen laboratories for helpful discussions, Anne Snelting of the Utrecht Platform for Organoid Technology (U-PORT; UMC Utrecht) for patient inclusion and tissue acquisition, Maaike Vreeswijk and Lise van Wijk (Leiden University Medical Center) for providing OC tissues for PDO culturing, Vera Deneer for input regarding clinical pharmacokinetics, the Utrecht Sequencing Facility and Hartwig Medical Foundation for providing sequencing service and data, Hans Bos for acquiring funding, and the Dutch Cancer Registration (IKNL) for providing survival data. The graphical abstract was created with BioRender. This work was supported by the Gieskes Strijbis Foundation ( 1816199 ) and the Dutch Cancer Society ( UU2015-7743 and RUG-2017-11352 ). Publisher Copyright: {\textcopyright} 2020 The Author(s)",

year = "2020",

month = jun,

day = "16",

doi = "10.1016/j.celrep.2020.107762",

language = "English",

volume = "31",

journal = "Cell Reports",

issn = "2211-1247",

publisher = "Cell Press",

number = "11",

}

de Witte, CJ, Espejo Valle-Inclan, J, Hami, N, Lõhmussaar, K, Kopper, O, Vreuls, CPH, Jonges, GN, van Diest, P, Nguyen, L, Clevers, H, Kloosterman, WP, Cuppen, E, Snippert, HJG, Zweemer, RP, Witteveen, PO & Stelloo, E 2020, 'Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses', Cell Reports, vol. 31, no. 11, 107762. https://doi.org/10.1016/j.celrep.2020.107762

TY - JOUR

T1 - Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses

AU - de Witte, Chris Jenske

AU - Espejo Valle-Inclan, Jose

AU - Hami, Nizar

AU - Lõhmussaar, Kadi

AU - Kopper, Oded

AU - Vreuls, Celien Philomena Henrieke

AU - Jonges, Geertruida Nellie

AU - van Diest, Paul

AU - Nguyen, Luan

AU - Clevers, Hans

AU - Kloosterman, Wigard Pieter

AU - Cuppen, Edwin

AU - Snippert, Hugo Johannes Gerhardus

AU - Zweemer, Ronald Peter

AU - Witteveen, Petronella Oda

AU - Stelloo, Ellen

N1 - Funding Information: We thank members of the Kloosterman and Cuppen laboratories for helpful discussions, Anne Snelting of the Utrecht Platform for Organoid Technology (U-PORT; UMC Utrecht) for patient inclusion and tissue acquisition, Maaike Vreeswijk and Lise van Wijk (Leiden University Medical Center) for providing OC tissues for PDO culturing, Vera Deneer for input regarding clinical pharmacokinetics, the Utrecht Sequencing Facility and Hartwig Medical Foundation for providing sequencing service and data, Hans Bos for acquiring funding, and the Dutch Cancer Registration (IKNL) for providing survival data. The graphical abstract was created with BioRender. This work was supported by the Gieskes Strijbis Foundation (1816199) and the Dutch Cancer Society (UU2015-7743 and RUG-2017-11352). Conceptualization, C.J.d.W. J.E.V.-I. R.P.Z. P.O.W. and E.S.; Methodology, C.J.d.W. J.E.V.-I. O.K. H.C. W.P.K. and E.S.; Software, J.E.V.-I. and L.N.; Validation, C.J.d.W. N.H. and E.S.; Formal Analysis, C.J.d.W. J.E.V.-I. N.H. C.P.H.V. G.N.J. P.v.D. and E.S.; Investigation, C.J.d.W. N.H. K.L. O.K. and E.S.; Resources, C.J.d.W. J.E.V.-I. K.L. O.K. G.N.J. L.N. R.P.Z. P.O.W. and E.S.; Data Curation, C.J.d.W. J.E.V.-I. and E.S.; Writing ? Original Draft, C.J.d.W. and E.S.; Writing ? Review & Editing, all authors; Visualization, C.J.d.W. J.E.V.-I. and E.S.; Supervision, W.P.K. E.C. H.J.G.S. R.P.Z. P.O.W. and E.S.; Project Administration, C.J.d.W. and E.S.; Funding Acquisition, H.C. W.P.K. R.P.Z. and P.O.W. H.C. is an inventor listed on several patents related to organoid technology. H.C. is the founder of OrganoidZ, which employs organoids for drug development. H.C. is the (unpaid) Chief Scientific Officer of Hubrecht Organoid Technology (HUB), a cofounder of Surrozen, and a scientific advisory board member for Kallyope, Merus, and Decibel. H.C. is a nonexecutive board member of Roche and Genentech and a scientific advisor for Life Sciences Partners. His full disclosure is given at https://www.uu.nl/staff/JCClevers/. Funding Information: We thank members of the Kloosterman and Cuppen laboratories for helpful discussions, Anne Snelting of the Utrecht Platform for Organoid Technology (U-PORT; UMC Utrecht) for patient inclusion and tissue acquisition, Maaike Vreeswijk and Lise van Wijk (Leiden University Medical Center) for providing OC tissues for PDO culturing, Vera Deneer for input regarding clinical pharmacokinetics, the Utrecht Sequencing Facility and Hartwig Medical Foundation for providing sequencing service and data, Hans Bos for acquiring funding, and the Dutch Cancer Registration (IKNL) for providing survival data. The graphical abstract was created with BioRender. This work was supported by the Gieskes Strijbis Foundation ( 1816199 ) and the Dutch Cancer Society ( UU2015-7743 and RUG-2017-11352 ). Publisher Copyright: © 2020 The Author(s)

PY - 2020/6/16

Y1 - 2020/6/16

N2 - There remains an unmet need for preclinical models to enable personalized therapy for ovarian cancer (OC) patients. Here we evaluate the capacity of patient-derived organoids (PDOs) to predict clinical drug response and functional consequences of tumor heterogeneity. We included 36 whole-genome-characterized PDOs from 23 OC patients with known clinical histories. OC PDOs maintain the genomic features of the original tumor lesion and recapitulate patient response to neoadjuvant carboplatin/paclitaxel combination treatment. PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partially explained by genetic aberrations. PDO drug screening identifies high responsiveness to at least one drug for 88% of patients. PDOs are valuable preclinical models that can provide insights into drug response for individual patients with OC, complementary to genetic testing. Generating PDOs of multiple tumor locations can improve clinical decision making and increase our knowledge of genetic and drug response heterogeneity. De Witte et al. employ patient-derived organoids (PDOs) for ex vivo drug screening. Ovarian cancer (OC) PDOs often recapitulate patient drug response to first-line chemotherapy. In addition, OC PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partly explained by genetic aberrations.

AB - There remains an unmet need for preclinical models to enable personalized therapy for ovarian cancer (OC) patients. Here we evaluate the capacity of patient-derived organoids (PDOs) to predict clinical drug response and functional consequences of tumor heterogeneity. We included 36 whole-genome-characterized PDOs from 23 OC patients with known clinical histories. OC PDOs maintain the genomic features of the original tumor lesion and recapitulate patient response to neoadjuvant carboplatin/paclitaxel combination treatment. PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partially explained by genetic aberrations. PDO drug screening identifies high responsiveness to at least one drug for 88% of patients. PDOs are valuable preclinical models that can provide insights into drug response for individual patients with OC, complementary to genetic testing. Generating PDOs of multiple tumor locations can improve clinical decision making and increase our knowledge of genetic and drug response heterogeneity. De Witte et al. employ patient-derived organoids (PDOs) for ex vivo drug screening. Ovarian cancer (OC) PDOs often recapitulate patient drug response to first-line chemotherapy. In addition, OC PDOs display inter- and intrapatient drug response heterogeneity to chemotherapy and targeted drugs, which can be partly explained by genetic aberrations.

KW - chemotherapy

KW - clinical response

KW - drug screening

KW - heterogeneity

KW - organoids

KW - ovarian cancer

KW - WGS

UR - https://www.scopus.com/pages/publications/85086371653

U2 - 10.1016/j.celrep.2020.107762

DO - 10.1016/j.celrep.2020.107762

M3 - Article

C2 - 32553164

SN - 2211-1247

VL - 31

JO - Cell Reports

JF - Cell Reports

IS - 11

M1 - 107762

ER -

Patient-Derived Ovarian Cancer Organoids Mimic Clinical Response and Exhibit Heterogeneous Inter- and Intrapatient Drug Responses

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