Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics

Joyce F. Liu; Sangeetha Palakurthi; Qing Zeng; Shan Zhou; Elena Ivanova; Wei Huang; Ioannis K. Zervantonakis; Laura M. Selfors; Yiping Shen; Colin C. Pritchard; Mei Zheng; Vilmos Adleff; Eniko Papp; Huiying Piao; Marian Novak; Susan Fotheringham; Gerburg M. Wulf; Jessie English; Paul T. Kirschmeier; Victor E. Velculescu; Cloud Paweletz; Gordon B. Mills; David M. Livingston; Joan S. Brugge; Ursula A. Matulonis; Ronny Drapkin

doi:10.1158/1078-0432.CCR-16-1237

Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics

Joyce F. Liu, Sangeetha Palakurthi, Qing Zeng, Shan Zhou, Elena Ivanova, Wei Huang, Ioannis K. Zervantonakis, Laura M. Selfors, Yiping Shen, Colin C. Pritchard, Mei Zheng, Vilmos Adleff, Eniko Papp, Huiying Piao, Marian Novak, Susan Fotheringham, Gerburg M. Wulf, Jessie English, Paul T. Kirschmeier, Victor E. VelculescuCloud Paweletz, Gordon B. Mills, David M. Livingston, Joan S. Brugge, Ursula A. Matulonis, Ronny Drapkin

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

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Abstract

Purpose: Ovarian cancer is the leading cause of death from gynecologic malignancy in the United States, with high rates of recurrence and eventual resistance to cytotoxic chemotherapy. Model systems that allow for accurate and reproducible target discovery and validation are needed to support further drug development in this disease. Experimental Design: Clinically annotated patient-derived xenograft (PDX) models were generated from tumor cells isolated from the ascites or pleural fluid of patients undergoing clinical procedures. Models were characterized by IHC and by molecular analyses. Each PDX was luciferized to allow for reproducible in vivo assessment of intraperitoneal tumor burden by bioluminescence imaging (BLI). Plasma assays for CA125 and human LINE-1 were developed as secondary tests of in vivo disease burden. Results: Fourteen clinically annotated and molecularly characterized luciferized ovarian PDX models were generated. Luci-ferized PDX models retain fidelity to both the nonluciferized PDX and the original patient tumor, as demonstrated by IHC, array CGH, and targeted and whole-exome sequencing analyses. Models demonstrated diversity in specific genetic alterations and activation of PI3K signaling pathway members. Response of luciferized PDX models to standard-of-care therapy could be reproducibly monitored by BLI or plasma markers. Conclusions: We describe the establishment of a collection of 14 clinically annotated and molecularly characterized luciferized ovarian PDX models in which orthotopic tumor burden in the intraperitoneal space can be followed by standard and reproducible methods. This collection is well suited as a platform for proof-of-concept efficacy and biomarker studies and for validation of novel therapeutic strategies in ovarian cancer.

Original language	English (US)
Pages (from-to)	1263-1273
Number of pages	11
Journal	Clinical Cancer Research
Volume	23
Issue number	5
DOIs	https://doi.org/10.1158/1078-0432.CCR-16-1237
State	Published - Mar 1 2017
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/1078-0432.CCR-16-1237

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Liu, J. F., Palakurthi, S., Zeng, Q., Zhou, S., Ivanova, E., Huang, W., Zervantonakis, I. K., Selfors, L. M., Shen, Y., Pritchard, C. C., Zheng, M., Adleff, V., Papp, E., Piao, H., Novak, M., Fotheringham, S., Wulf, G. M., English, J., Kirschmeier, P. T., ... Drapkin, R. (2017). Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics. Clinical Cancer Research, 23(5), 1263-1273. https://doi.org/10.1158/1078-0432.CCR-16-1237

Liu, JF, Palakurthi, S, Zeng, Q, Zhou, S, Ivanova, E, Huang, W, Zervantonakis, IK, Selfors, LM, Shen, Y, Pritchard, CC, Zheng, M, Adleff, V, Papp, E, Piao, H, Novak, M, Fotheringham, S, Wulf, GM, English, J, Kirschmeier, PT, Velculescu, VE, Paweletz, C, Mills, GB, Livingston, DM, Brugge, JS, Matulonis, UA & Drapkin, R 2017, 'Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics', Clinical Cancer Research, vol. 23, no. 5, pp. 1263-1273. https://doi.org/10.1158/1078-0432.CCR-16-1237

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title = "Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics",

abstract = "Purpose: Ovarian cancer is the leading cause of death from gynecologic malignancy in the United States, with high rates of recurrence and eventual resistance to cytotoxic chemotherapy. Model systems that allow for accurate and reproducible target discovery and validation are needed to support further drug development in this disease. Experimental Design: Clinically annotated patient-derived xenograft (PDX) models were generated from tumor cells isolated from the ascites or pleural fluid of patients undergoing clinical procedures. Models were characterized by IHC and by molecular analyses. Each PDX was luciferized to allow for reproducible in vivo assessment of intraperitoneal tumor burden by bioluminescence imaging (BLI). Plasma assays for CA125 and human LINE-1 were developed as secondary tests of in vivo disease burden. Results: Fourteen clinically annotated and molecularly characterized luciferized ovarian PDX models were generated. Luci-ferized PDX models retain fidelity to both the nonluciferized PDX and the original patient tumor, as demonstrated by IHC, array CGH, and targeted and whole-exome sequencing analyses. Models demonstrated diversity in specific genetic alterations and activation of PI3K signaling pathway members. Response of luciferized PDX models to standard-of-care therapy could be reproducibly monitored by BLI or plasma markers. Conclusions: We describe the establishment of a collection of 14 clinically annotated and molecularly characterized luciferized ovarian PDX models in which orthotopic tumor burden in the intraperitoneal space can be followed by standard and reproducible methods. This collection is well suited as a platform for proof-of-concept efficacy and biomarker studies and for validation of novel therapeutic strategies in ovarian cancer.",

author = "Liu, {Joyce F.} and Sangeetha Palakurthi and Qing Zeng and Shan Zhou and Elena Ivanova and Wei Huang and Zervantonakis, {Ioannis K.} and Selfors, {Laura M.} and Yiping Shen and Pritchard, {Colin C.} and Mei Zheng and Vilmos Adleff and Eniko Papp and Huiying Piao and Marian Novak and Susan Fotheringham and Wulf, {Gerburg M.} and Jessie English and Kirschmeier, {Paul T.} and Velculescu, {Victor E.} and Cloud Paweletz and Mills, {Gordon B.} and Livingston, {David M.} and Brugge, {Joan S.} and Matulonis, {Ursula A.} and Ronny Drapkin",

note = "Funding Information: This work was supported by the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation (to R. Drapkin, V.E. Velculescu, J.S. Brugge, G.B. Mills, and I.K. Zervantonakis), NIH grants CA121113 (to V.E. Velculescu), CA006973 (to V.E. Velculescu), CA083636 (to R. Drapkin), CA152990 (to R. Drapkin), and K12CA08772307 (to J.F Liu), Expect Miracles Foundation (Belfer Center for Applied Cancer Science, DFCI), the Commonwealth Foundation (to V.E. Velculescu), the Pallotta Investigatorship (to J.F. Liu), the Ovarian Cancer Research Fund (to J.F. Liu), and the Honorable Tina Brozman Foundation for Ovarian Cancer Research (to R. Drapkin). The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact. Publisher Copyright: {\textcopyright} 2016 American Association for Cancer Research.",

year = "2017",

month = mar,

day = "1",

doi = "10.1158/1078-0432.CCR-16-1237",

language = "English (US)",

volume = "23",

pages = "1263--1273",

journal = "Clinical Cancer Research",

issn = "1078-0432",

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

number = "5",

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TY - JOUR

T1 - Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics

AU - Liu, Joyce F.

AU - Palakurthi, Sangeetha

AU - Zeng, Qing

AU - Zhou, Shan

AU - Ivanova, Elena

AU - Huang, Wei

AU - Zervantonakis, Ioannis K.

AU - Selfors, Laura M.

AU - Shen, Yiping

AU - Pritchard, Colin C.

AU - Zheng, Mei

AU - Adleff, Vilmos

AU - Papp, Eniko

AU - Piao, Huiying

AU - Novak, Marian

AU - Fotheringham, Susan

AU - Wulf, Gerburg M.

AU - English, Jessie

AU - Kirschmeier, Paul T.

AU - Velculescu, Victor E.

AU - Paweletz, Cloud

AU - Mills, Gordon B.

AU - Livingston, David M.

AU - Brugge, Joan S.

AU - Matulonis, Ursula A.

AU - Drapkin, Ronny

N1 - Funding Information: This work was supported by the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation (to R. Drapkin, V.E. Velculescu, J.S. Brugge, G.B. Mills, and I.K. Zervantonakis), NIH grants CA121113 (to V.E. Velculescu), CA006973 (to V.E. Velculescu), CA083636 (to R. Drapkin), CA152990 (to R. Drapkin), and K12CA08772307 (to J.F Liu), Expect Miracles Foundation (Belfer Center for Applied Cancer Science, DFCI), the Commonwealth Foundation (to V.E. Velculescu), the Pallotta Investigatorship (to J.F. Liu), the Ovarian Cancer Research Fund (to J.F. Liu), and the Honorable Tina Brozman Foundation for Ovarian Cancer Research (to R. Drapkin). The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked advertisement in accordance with 18 U.S.C. Section 1734 solely to indicate this fact. Publisher Copyright: © 2016 American Association for Cancer Research.

PY - 2017/3/1

Y1 - 2017/3/1

N2 - Purpose: Ovarian cancer is the leading cause of death from gynecologic malignancy in the United States, with high rates of recurrence and eventual resistance to cytotoxic chemotherapy. Model systems that allow for accurate and reproducible target discovery and validation are needed to support further drug development in this disease. Experimental Design: Clinically annotated patient-derived xenograft (PDX) models were generated from tumor cells isolated from the ascites or pleural fluid of patients undergoing clinical procedures. Models were characterized by IHC and by molecular analyses. Each PDX was luciferized to allow for reproducible in vivo assessment of intraperitoneal tumor burden by bioluminescence imaging (BLI). Plasma assays for CA125 and human LINE-1 were developed as secondary tests of in vivo disease burden. Results: Fourteen clinically annotated and molecularly characterized luciferized ovarian PDX models were generated. Luci-ferized PDX models retain fidelity to both the nonluciferized PDX and the original patient tumor, as demonstrated by IHC, array CGH, and targeted and whole-exome sequencing analyses. Models demonstrated diversity in specific genetic alterations and activation of PI3K signaling pathway members. Response of luciferized PDX models to standard-of-care therapy could be reproducibly monitored by BLI or plasma markers. Conclusions: We describe the establishment of a collection of 14 clinically annotated and molecularly characterized luciferized ovarian PDX models in which orthotopic tumor burden in the intraperitoneal space can be followed by standard and reproducible methods. This collection is well suited as a platform for proof-of-concept efficacy and biomarker studies and for validation of novel therapeutic strategies in ovarian cancer.

AB - Purpose: Ovarian cancer is the leading cause of death from gynecologic malignancy in the United States, with high rates of recurrence and eventual resistance to cytotoxic chemotherapy. Model systems that allow for accurate and reproducible target discovery and validation are needed to support further drug development in this disease. Experimental Design: Clinically annotated patient-derived xenograft (PDX) models were generated from tumor cells isolated from the ascites or pleural fluid of patients undergoing clinical procedures. Models were characterized by IHC and by molecular analyses. Each PDX was luciferized to allow for reproducible in vivo assessment of intraperitoneal tumor burden by bioluminescence imaging (BLI). Plasma assays for CA125 and human LINE-1 were developed as secondary tests of in vivo disease burden. Results: Fourteen clinically annotated and molecularly characterized luciferized ovarian PDX models were generated. Luci-ferized PDX models retain fidelity to both the nonluciferized PDX and the original patient tumor, as demonstrated by IHC, array CGH, and targeted and whole-exome sequencing analyses. Models demonstrated diversity in specific genetic alterations and activation of PI3K signaling pathway members. Response of luciferized PDX models to standard-of-care therapy could be reproducibly monitored by BLI or plasma markers. Conclusions: We describe the establishment of a collection of 14 clinically annotated and molecularly characterized luciferized ovarian PDX models in which orthotopic tumor burden in the intraperitoneal space can be followed by standard and reproducible methods. This collection is well suited as a platform for proof-of-concept efficacy and biomarker studies and for validation of novel therapeutic strategies in ovarian cancer.

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Establishment of patient-derived tumor xenograft models of epithelial ovarian cancer for preclinical evaluation of novel therapeutics

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