Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice

Yungchang Chen; Ran Zhang; Li Wang; Arlene M. Correa; Apar Pataer; Yi Xu; Xiaoshan Zhang; Chenghui Ren; Shuhong Wu; Qing H. Meng; Junya Fujimoto; Vanessa B. Jensen; Mara B. Antonoff; Wayne L. Hofstetter; Reza J. Mehran; George Pisimisis; David C. Rice; Boris Sepesi; Ara A. Vaporciyan; Garrett L. Walsh; Stephen G. Swisher; Jack A. Roth; John V. Heymach; Bingliang Fang

doi:10.1002/cncr.32366

Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice

Yungchang Chen, Ran Zhang, Li Wang, Arlene M. Correa, Apar Pataer, Yi Xu, Xiaoshan Zhang, Chenghui Ren, Shuhong Wu, Qing H. Meng, Junya Fujimoto, Vanessa B. Jensen, Mara B. Antonoff, Wayne L. Hofstetter, Reza J. Mehran, George Pisimisis, David C. Rice, Boris Sepesi, Ara A. Vaporciyan, Garrett L. WalshStephen G. Swisher, Jack A. Roth, John V. Heymach, Bingliang Fang

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

27 Scopus citations

Abstract

Background: Patient-derived xenograft (PDX) models increasingly are used in translational research. However, the engraftment rates of patient tumor samples in immunodeficient mice to PDX models vary greatly. Methods: Tumor tissue samples from 308 patients with non–small cell lung cancer were implanted in immunodeficient mice. The patients were followed for 1.5 to approximately 6 years. The authors performed histological analysis of PDXs and some residual tumor tissues in mice with failed PDX growth at 1 year after implantation. Quantitative polymerase chain reaction and enzyme-linked immunoadsorbent assay were performed to measure the levels of Epstein-Barr virus genes and human immunoglobulin G in PDX samples. Patient characteristics were compared for PDX growth and overall survival as outcomes using Cox regression analyses. Disease staging was based on the 7th TNM staging system. Results: The overall engraftment rate for PDXs from patients with non–small cell lung cancer was 34%. Squamous cell carcinomas had a higher engraftment rate (53%) compared with adenocarcinomas. Tumor samples from patients with stage II and stage III disease and from larger tumors were found to have relatively high engraftment rates. Patients whose tumors successfully engrafted had worse overall survival, particularly those individuals with adenocarcinoma, stage III or stage IV disease, and moderately differentiated tumors. Lymphoma formation was one of the factors associated with engraftment failure. Human CD8-positive and CD20-positive cells were detected in residual samples of tumor tissue that failed to generate a PDX at 1 year after implantation. Human immunoglobulin G was detected in the plasma of mice that did not have PDX growth at 14 months after implantation. Conclusions: The results of the current study indicate that the characteristics of cancer cells and the tumor immune microenvironment in primary tumors both can affect engraftment of a primary tumor sample.

Original language	English (US)
Pages (from-to)	3738-3748
Number of pages	11
Journal	Cancer
Volume	125
Issue number	21
DOIs	https://doi.org/10.1002/cncr.32366
State	Published - Nov 1 2019

Keywords

neoplasia
non–small cell lung cancer (NSCLC)
tumor microenvironment tumor models
xenografts

ASJC Scopus subject areas

Oncology
Cancer Research

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Advanced Technology Genomics Core
Research Animal Support Facility
Tissue Biospecimen and Pathology Resource
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Research Histology, Pathology and Imaging Core

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10.1002/cncr.32366

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Chen, Y., Zhang, R., Wang, L., Correa, A. M., Pataer, A., Xu, Y., Zhang, X., Ren, C., Wu, S., Meng, Q. H., Fujimoto, J., Jensen, V. B., Antonoff, M. B., Hofstetter, W. L., Mehran, R. J., Pisimisis, G., Rice, D. C., Sepesi, B., Vaporciyan, A. A., ... Fang, B. (2019). Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice. Cancer, 125(21), 3738-3748. https://doi.org/10.1002/cncr.32366

Chen, Y, Zhang, R, Wang, L, Correa, AM , Pataer, A, Xu, Y, Zhang, X, Ren, C, Wu, S, Meng, QH, Fujimoto, J, Jensen, VB , Antonoff, MB , Hofstetter, WL , Mehran, RJ, Pisimisis, G, Rice, DC, Sepesi, B, Vaporciyan, AA , Walsh, GL , Swisher, SG, Roth, JA, Heymach, JV & Fang, B 2019, 'Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice', Cancer, vol. 125, no. 21, pp. 3738-3748. https://doi.org/10.1002/cncr.32366

@article{c1c473264de24fd38a5c09f9a245c463,

title = "Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice",

abstract = "Background: Patient-derived xenograft (PDX) models increasingly are used in translational research. However, the engraftment rates of patient tumor samples in immunodeficient mice to PDX models vary greatly. Methods: Tumor tissue samples from 308 patients with non–small cell lung cancer were implanted in immunodeficient mice. The patients were followed for 1.5 to approximately 6 years. The authors performed histological analysis of PDXs and some residual tumor tissues in mice with failed PDX growth at 1 year after implantation. Quantitative polymerase chain reaction and enzyme-linked immunoadsorbent assay were performed to measure the levels of Epstein-Barr virus genes and human immunoglobulin G in PDX samples. Patient characteristics were compared for PDX growth and overall survival as outcomes using Cox regression analyses. Disease staging was based on the 7th TNM staging system. Results: The overall engraftment rate for PDXs from patients with non–small cell lung cancer was 34%. Squamous cell carcinomas had a higher engraftment rate (53%) compared with adenocarcinomas. Tumor samples from patients with stage II and stage III disease and from larger tumors were found to have relatively high engraftment rates. Patients whose tumors successfully engrafted had worse overall survival, particularly those individuals with adenocarcinoma, stage III or stage IV disease, and moderately differentiated tumors. Lymphoma formation was one of the factors associated with engraftment failure. Human CD8-positive and CD20-positive cells were detected in residual samples of tumor tissue that failed to generate a PDX at 1 year after implantation. Human immunoglobulin G was detected in the plasma of mice that did not have PDX growth at 14 months after implantation. Conclusions: The results of the current study indicate that the characteristics of cancer cells and the tumor immune microenvironment in primary tumors both can affect engraftment of a primary tumor sample.",

keywords = "neoplasia, non–small cell lung cancer (NSCLC), tumor microenvironment tumor models, xenografts",

author = "Yungchang Chen and Ran Zhang and Li Wang and Correa, {Arlene M.} and Apar Pataer and Yi Xu and Xiaoshan Zhang and Chenghui Ren and Shuhong Wu and Meng, {Qing H.} and Junya Fujimoto and Jensen, {Vanessa B.} and Antonoff, {Mara B.} and Hofstetter, {Wayne L.} and Mehran, {Reza J.} and George Pisimisis and Rice, {David C.} and Boris Sepesi and Vaporciyan, {Ara A.} and Walsh, {Garrett L.} and Swisher, {Stephen G.} and Roth, {Jack A.} and Heymach, {John V.} and Bingliang Fang",

note = "Funding Information: Stephen G. Swisher has received travel expenses from Ethicon Inc for work performed outside of the current study and has a patent Treatment of PKR-associated diseases by compounds licensed to The University of Texas MD Anderson Cancer Center (#104663) and a patent Compounds and Methods for the Treatment of PKR-associated Diseases licensed to the Board of Regents of the University of Texas System (#62802957). Publisher Copyright: {\textcopyright} 2019 American Cancer Society",

year = "2019",

month = nov,

day = "1",

doi = "10.1002/cncr.32366",

language = "English (US)",

volume = "125",

pages = "3738--3748",

journal = "Cancer",

issn = "0008-543X",

publisher = "John Wiley and Sons Inc.",

number = "21",

}

TY - JOUR

T1 - Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice

AU - Chen, Yungchang

AU - Zhang, Ran

AU - Wang, Li

AU - Correa, Arlene M.

AU - Pataer, Apar

AU - Xu, Yi

AU - Zhang, Xiaoshan

AU - Ren, Chenghui

AU - Wu, Shuhong

AU - Meng, Qing H.

AU - Fujimoto, Junya

AU - Jensen, Vanessa B.

AU - Antonoff, Mara B.

AU - Hofstetter, Wayne L.

AU - Mehran, Reza J.

AU - Pisimisis, George

AU - Rice, David C.

AU - Sepesi, Boris

AU - Vaporciyan, Ara A.

AU - Walsh, Garrett L.

AU - Swisher, Stephen G.

AU - Roth, Jack A.

AU - Heymach, John V.

AU - Fang, Bingliang

N1 - Funding Information: Stephen G. Swisher has received travel expenses from Ethicon Inc for work performed outside of the current study and has a patent Treatment of PKR-associated diseases by compounds licensed to The University of Texas MD Anderson Cancer Center (#104663) and a patent Compounds and Methods for the Treatment of PKR-associated Diseases licensed to the Board of Regents of the University of Texas System (#62802957). Publisher Copyright: © 2019 American Cancer Society

PY - 2019/11/1

Y1 - 2019/11/1

N2 - Background: Patient-derived xenograft (PDX) models increasingly are used in translational research. However, the engraftment rates of patient tumor samples in immunodeficient mice to PDX models vary greatly. Methods: Tumor tissue samples from 308 patients with non–small cell lung cancer were implanted in immunodeficient mice. The patients were followed for 1.5 to approximately 6 years. The authors performed histological analysis of PDXs and some residual tumor tissues in mice with failed PDX growth at 1 year after implantation. Quantitative polymerase chain reaction and enzyme-linked immunoadsorbent assay were performed to measure the levels of Epstein-Barr virus genes and human immunoglobulin G in PDX samples. Patient characteristics were compared for PDX growth and overall survival as outcomes using Cox regression analyses. Disease staging was based on the 7th TNM staging system. Results: The overall engraftment rate for PDXs from patients with non–small cell lung cancer was 34%. Squamous cell carcinomas had a higher engraftment rate (53%) compared with adenocarcinomas. Tumor samples from patients with stage II and stage III disease and from larger tumors were found to have relatively high engraftment rates. Patients whose tumors successfully engrafted had worse overall survival, particularly those individuals with adenocarcinoma, stage III or stage IV disease, and moderately differentiated tumors. Lymphoma formation was one of the factors associated with engraftment failure. Human CD8-positive and CD20-positive cells were detected in residual samples of tumor tissue that failed to generate a PDX at 1 year after implantation. Human immunoglobulin G was detected in the plasma of mice that did not have PDX growth at 14 months after implantation. Conclusions: The results of the current study indicate that the characteristics of cancer cells and the tumor immune microenvironment in primary tumors both can affect engraftment of a primary tumor sample.

AB - Background: Patient-derived xenograft (PDX) models increasingly are used in translational research. However, the engraftment rates of patient tumor samples in immunodeficient mice to PDX models vary greatly. Methods: Tumor tissue samples from 308 patients with non–small cell lung cancer were implanted in immunodeficient mice. The patients were followed for 1.5 to approximately 6 years. The authors performed histological analysis of PDXs and some residual tumor tissues in mice with failed PDX growth at 1 year after implantation. Quantitative polymerase chain reaction and enzyme-linked immunoadsorbent assay were performed to measure the levels of Epstein-Barr virus genes and human immunoglobulin G in PDX samples. Patient characteristics were compared for PDX growth and overall survival as outcomes using Cox regression analyses. Disease staging was based on the 7th TNM staging system. Results: The overall engraftment rate for PDXs from patients with non–small cell lung cancer was 34%. Squamous cell carcinomas had a higher engraftment rate (53%) compared with adenocarcinomas. Tumor samples from patients with stage II and stage III disease and from larger tumors were found to have relatively high engraftment rates. Patients whose tumors successfully engrafted had worse overall survival, particularly those individuals with adenocarcinoma, stage III or stage IV disease, and moderately differentiated tumors. Lymphoma formation was one of the factors associated with engraftment failure. Human CD8-positive and CD20-positive cells were detected in residual samples of tumor tissue that failed to generate a PDX at 1 year after implantation. Human immunoglobulin G was detected in the plasma of mice that did not have PDX growth at 14 months after implantation. Conclusions: The results of the current study indicate that the characteristics of cancer cells and the tumor immune microenvironment in primary tumors both can affect engraftment of a primary tumor sample.

KW - neoplasia

KW - non–small cell lung cancer (NSCLC)

KW - tumor microenvironment tumor models

KW - xenografts

UR - http://www.scopus.com/inward/record.url?scp=85068638272&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85068638272&partnerID=8YFLogxK

U2 - 10.1002/cncr.32366

DO - 10.1002/cncr.32366

M3 - Article

C2 - 31287557

AN - SCOPUS:85068638272

SN - 0008-543X

VL - 125

SP - 3738

EP - 3748

JO - Cancer

JF - Cancer

IS - 21

ER -

Tumor characteristics associated with engraftment of patient-derived non–small cell lung cancer xenografts in immunocompromised mice

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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