Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer

Gloria V. Echeverria; Shirong Cai; Yizheng Tu; Jiansu Shao; Emily Powell; Abena B. Redwood; Yan Jiang; Aaron McCoy; Amanda L. Rinkenbaugh; Rosanna Lau; Alexander J. Trevarton; Chunxiao Fu; Rebekah Gould; Elizabeth E. Ravenberg; Lei Huo; Rosalind Candelaria; Lumarie Santiago; Beatriz E. Adrada; Deanna L. Lane; Gaiane M. Rauch; Wei T. Yang; Jason B. White; Jeffrey T. Chang; Stacy L. Moulder; W. Fraser Symmans; Susan G. Hilsenbeck; Helen Piwnica-Worms

doi:10.1038/s41523-022-00502-1

Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer

Gloria V. Echeverria, Shirong Cai, Yizheng Tu, Jiansu Shao, Emily Powell, Abena B. Redwood, Yan Jiang, Aaron McCoy, Amanda L. Rinkenbaugh, Rosanna Lau, Alexander J. Trevarton, Chunxiao Fu, Rebekah Gould, Elizabeth E. Ravenberg, Lei Huo, Rosalind Candelaria, Lumarie Santiago, Beatriz E. Adrada, Deanna L. Lane, Gaiane M. RauchWei T. Yang, Jason B. White, Jeffrey T. Chang, Stacy L. Moulder, W. Fraser Symmans, Susan G. Hilsenbeck, Helen Piwnica-Worms

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Abstract

Patient-derived xenograft (PDX) models of breast cancer are an effective discovery platform and tool for preclinical pharmacologic testing and biomarker identification. We established orthotopic PDX models of triple negative breast cancer (TNBC) from the primary breast tumors of patients prior to and following neoadjuvant chemotherapy (NACT) while they were enrolled in the ARTEMIS trial (NCT02276443). Serial biopsies were obtained from patients prior to treatment (pre-NACT), from poorly responsive disease after four cycles of Adriamycin and cyclophosphamide (AC, mid-NACT), and in cases of AC-resistance, after a 3-month course of different experimental therapies and/or additional chemotherapy (post-NACT). Our study cohort includes a total of 269 fine needle aspirates (FNAs) from 217 women, generating a total of 62 PDX models (overall success-rate = 23%). Success of PDX engraftment was generally higher from those cancers that proved to be treatment-resistant, whether poorly responsive to AC as determined by ultrasound measurements mid-NACT (p = 0.063), RCB II/III status after NACT (p = 0.046), or metastatic relapse within 2 years of surgery (p = 0.008). TNBC molecular subtype determined from gene expression microarrays of pre-NACT tumors revealed no significant association with PDX engraftment rate (p = 0.877). Finally, we developed a statistical model predictive of PDX engraftment using percent Ki67 positive cells in the patient’s diagnostic biopsy, positive lymph node status at diagnosis, and low volumetric reduction of the patient’s tumor following AC treatment. This novel bank of 62 PDX models of TNBC provides a valuable resource for biomarker discovery and preclinical therapeutic trials aimed at improving neoadjuvant response rates for patients with TNBC.

Original language	English (US)
Article number	2
Journal	npj Breast Cancer
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41523-022-00502-1
State	Published - Dec 2023

ASJC Scopus subject areas

Oncology
Radiology Nuclear Medicine and imaging
Pharmacology (medical)

MD Anderson CCSG core facilities

Research Animal Support Facility
Cytogenetics and Cell Authentication Core
Tissue Biospecimen and Pathology Resource
Advanced Technology Genomics Core

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Echeverria, G. V., Cai, S., Tu, Y., Shao, J., Powell, E., Redwood, A. B., Jiang, Y., McCoy, A., Rinkenbaugh, A. L., Lau, R., Trevarton, A. J., Fu, C., Gould, R., Ravenberg, E. E., Huo, L., Candelaria, R., Santiago, L., Adrada, B. E., Lane, D. L., ... Piwnica-Worms, H. (2023). Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer. npj Breast Cancer, 9(1), Article 2. https://doi.org/10.1038/s41523-022-00502-1

Echeverria, GV, Cai, S, Tu, Y, Shao, J, Powell, E, Redwood, AB, Jiang, Y, McCoy, A, Rinkenbaugh, AL, Lau, R, Trevarton, AJ, Fu, C, Gould, R, Ravenberg, EE, Huo, L , Candelaria, R , Santiago, L , Adrada, BE , Lane, DL , Rauch, GM , Yang, WT, White, JB, Chang, JT, Moulder, SL, Symmans, WF, Hilsenbeck, SG & Piwnica-Worms, H 2023, 'Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer', npj Breast Cancer, vol. 9, no. 1, 2. https://doi.org/10.1038/s41523-022-00502-1

@article{e23f24eb033248d9969d32a03a10ed9c,

title = "Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer",

abstract = "Patient-derived xenograft (PDX) models of breast cancer are an effective discovery platform and tool for preclinical pharmacologic testing and biomarker identification. We established orthotopic PDX models of triple negative breast cancer (TNBC) from the primary breast tumors of patients prior to and following neoadjuvant chemotherapy (NACT) while they were enrolled in the ARTEMIS trial (NCT02276443). Serial biopsies were obtained from patients prior to treatment (pre-NACT), from poorly responsive disease after four cycles of Adriamycin and cyclophosphamide (AC, mid-NACT), and in cases of AC-resistance, after a 3-month course of different experimental therapies and/or additional chemotherapy (post-NACT). Our study cohort includes a total of 269 fine needle aspirates (FNAs) from 217 women, generating a total of 62 PDX models (overall success-rate = 23%). Success of PDX engraftment was generally higher from those cancers that proved to be treatment-resistant, whether poorly responsive to AC as determined by ultrasound measurements mid-NACT (p = 0.063), RCB II/III status after NACT (p = 0.046), or metastatic relapse within 2 years of surgery (p = 0.008). TNBC molecular subtype determined from gene expression microarrays of pre-NACT tumors revealed no significant association with PDX engraftment rate (p = 0.877). Finally, we developed a statistical model predictive of PDX engraftment using percent Ki67 positive cells in the patient{\textquoteright}s diagnostic biopsy, positive lymph node status at diagnosis, and low volumetric reduction of the patient{\textquoteright}s tumor following AC treatment. This novel bank of 62 PDX models of TNBC provides a valuable resource for biomarker discovery and preclinical therapeutic trials aimed at improving neoadjuvant response rates for patients with TNBC.",

author = "Echeverria, {Gloria V.} and Shirong Cai and Yizheng Tu and Jiansu Shao and Emily Powell and Redwood, {Abena B.} and Yan Jiang and Aaron McCoy and Rinkenbaugh, {Amanda L.} and Rosanna Lau and Trevarton, {Alexander J.} and Chunxiao Fu and Rebekah Gould and Ravenberg, {Elizabeth E.} and Lei Huo and Rosalind Candelaria and Lumarie Santiago and Adrada, {Beatriz E.} and Lane, {Deanna L.} and Rauch, {Gaiane M.} and Yang, {Wei T.} and White, {Jason B.} and Chang, {Jeffrey T.} and Moulder, {Stacy L.} and Symmans, {W. Fraser} and Hilsenbeck, {Susan G.} and Helen Piwnica-Worms",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41523-022-00502-1",

language = "English (US)",

volume = "9",

journal = "npj Breast Cancer",

issn = "2374-4677",

publisher = "Nature Publishing Group",

number = "1",

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TY - JOUR

T1 - Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer

AU - Echeverria, Gloria V.

AU - Cai, Shirong

AU - Tu, Yizheng

AU - Shao, Jiansu

AU - Powell, Emily

AU - Redwood, Abena B.

AU - Jiang, Yan

AU - McCoy, Aaron

AU - Rinkenbaugh, Amanda L.

AU - Lau, Rosanna

AU - Trevarton, Alexander J.

AU - Fu, Chunxiao

AU - Gould, Rebekah

AU - Ravenberg, Elizabeth E.

AU - Huo, Lei

AU - Candelaria, Rosalind

AU - Santiago, Lumarie

AU - Adrada, Beatriz E.

AU - Lane, Deanna L.

AU - Rauch, Gaiane M.

AU - Yang, Wei T.

AU - White, Jason B.

AU - Chang, Jeffrey T.

AU - Moulder, Stacy L.

AU - Symmans, W. Fraser

AU - Hilsenbeck, Susan G.

AU - Piwnica-Worms, Helen

PY - 2023/12

Y1 - 2023/12

N2 - Patient-derived xenograft (PDX) models of breast cancer are an effective discovery platform and tool for preclinical pharmacologic testing and biomarker identification. We established orthotopic PDX models of triple negative breast cancer (TNBC) from the primary breast tumors of patients prior to and following neoadjuvant chemotherapy (NACT) while they were enrolled in the ARTEMIS trial (NCT02276443). Serial biopsies were obtained from patients prior to treatment (pre-NACT), from poorly responsive disease after four cycles of Adriamycin and cyclophosphamide (AC, mid-NACT), and in cases of AC-resistance, after a 3-month course of different experimental therapies and/or additional chemotherapy (post-NACT). Our study cohort includes a total of 269 fine needle aspirates (FNAs) from 217 women, generating a total of 62 PDX models (overall success-rate = 23%). Success of PDX engraftment was generally higher from those cancers that proved to be treatment-resistant, whether poorly responsive to AC as determined by ultrasound measurements mid-NACT (p = 0.063), RCB II/III status after NACT (p = 0.046), or metastatic relapse within 2 years of surgery (p = 0.008). TNBC molecular subtype determined from gene expression microarrays of pre-NACT tumors revealed no significant association with PDX engraftment rate (p = 0.877). Finally, we developed a statistical model predictive of PDX engraftment using percent Ki67 positive cells in the patient’s diagnostic biopsy, positive lymph node status at diagnosis, and low volumetric reduction of the patient’s tumor following AC treatment. This novel bank of 62 PDX models of TNBC provides a valuable resource for biomarker discovery and preclinical therapeutic trials aimed at improving neoadjuvant response rates for patients with TNBC.

AB - Patient-derived xenograft (PDX) models of breast cancer are an effective discovery platform and tool for preclinical pharmacologic testing and biomarker identification. We established orthotopic PDX models of triple negative breast cancer (TNBC) from the primary breast tumors of patients prior to and following neoadjuvant chemotherapy (NACT) while they were enrolled in the ARTEMIS trial (NCT02276443). Serial biopsies were obtained from patients prior to treatment (pre-NACT), from poorly responsive disease after four cycles of Adriamycin and cyclophosphamide (AC, mid-NACT), and in cases of AC-resistance, after a 3-month course of different experimental therapies and/or additional chemotherapy (post-NACT). Our study cohort includes a total of 269 fine needle aspirates (FNAs) from 217 women, generating a total of 62 PDX models (overall success-rate = 23%). Success of PDX engraftment was generally higher from those cancers that proved to be treatment-resistant, whether poorly responsive to AC as determined by ultrasound measurements mid-NACT (p = 0.063), RCB II/III status after NACT (p = 0.046), or metastatic relapse within 2 years of surgery (p = 0.008). TNBC molecular subtype determined from gene expression microarrays of pre-NACT tumors revealed no significant association with PDX engraftment rate (p = 0.877). Finally, we developed a statistical model predictive of PDX engraftment using percent Ki67 positive cells in the patient’s diagnostic biopsy, positive lymph node status at diagnosis, and low volumetric reduction of the patient’s tumor following AC treatment. This novel bank of 62 PDX models of TNBC provides a valuable resource for biomarker discovery and preclinical therapeutic trials aimed at improving neoadjuvant response rates for patients with TNBC.

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Predictors of success in establishing orthotopic patient-derived xenograft models of triple negative breast cancer

Abstract

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MD Anderson CCSG core facilities

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