A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma

A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma

Abstract Background Patient-derived xenograft (PDX) mouse models of cancer have been recognized as better mouse models that recapitulate the characteristics of original malignancies including preserved tumor heterogeneity, lineage hierarchy, and tumor microenvironment. However, common challenges of...

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Main Authors: Zhenyang Liu, Michael Ho-Young Ahn, Tomohiro Kurokawa, Amy Ly, Gong Zhang, Fuyou Wang, Teppei Yamada, Ananthan Sadagopan, Jane Cheng, Cristina R. Ferrone, Andrew S. Liss, Kim C. Honselmann, Gregory R. Wojtkiewicz, Soldano Ferrone, Xinhui Wang
Format: Article
Language:English
Published: BMC 2020-06-01
Series:Journal of Translational Medicine
Subjects:
PDX expansion
Subcutaneous PDX mouse model
Orthotopic PDX mouse model
PDAC PDX
Online Access:http://link.springer.com/article/10.1186/s12967-020-02414-9
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spelling doaj-3c5289b034584a1288ffc1a9724ad1f12020-11-25T03:41:26ZengBMCJournal of Translational Medicine1479-58762020-06-0118111210.1186/s12967-020-02414-9A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinomaZhenyang Liu0Michael Ho-Young Ahn1Tomohiro Kurokawa2Amy Ly3Gong Zhang4Fuyou Wang5Teppei Yamada6Ananthan Sadagopan7Jane Cheng8Cristina R. Ferrone9Andrew S. Liss10Kim C. Honselmann11Gregory R. Wojtkiewicz12Soldano Ferrone13Xinhui Wang14Division of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDepartment of Pathology, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of General and Gastrointestinal Surgery, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of General and Gastrointestinal Surgery, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolMouse Imaging Program, Center for Systems Biology, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolDivision of Surgical Oncology, Department of Surgery, Massachusetts General Hospital, Harvard Medical SchoolAbstract Background Patient-derived xenograft (PDX) mouse models of cancer have been recognized as better mouse models that recapitulate the characteristics of original malignancies including preserved tumor heterogeneity, lineage hierarchy, and tumor microenvironment. However, common challenges of PDX models are the significant time required for tumor expansion, reduced tumor take rates, and higher costs. Here, we describe a fast, simple, and cost-effective method of expanding PDX of pancreatic ductal adenocarcinoma (PDAC) in mice. Methods We used two established frozen PDAC PDX tissues (derived from two different patients) and implanted them subcutaneously into SCID mice. After tissues reached 10–20 mm in diameter, we performed survival surgery on each mouse to harvest 90–95% of subcutaneous PDX (incomplete resection), allowing the remaining 5–10% of PDX to continue growing in the same mouse. Results We expanded three consecutive passages (P1, P2, and P3) of PDX in the same mouse. Comparing the times required for in vivo expansion, P2 and P3 (expanded through incomplete resection) grew 26-60% faster than P1. Moreover, such expanded PDX tissues were successfully implanted orthotopically into mouse pancreases. Within 20 weeks using only 14 mice, we generated sufficient PDX tissue for future implantation of 200 mice. Our histology study confirmed that the morphologies of cancer cells and stromal structures were similar across all three passages of subcutaneous PDX and the orthotopic PDX and were reflective of the original patient tumors. Conclusions Taking advantage of incomplete resection of tumors associated with high local recurrence, we established a fast method of PDAC PDX expansion in mice.http://link.springer.com/article/10.1186/s12967-020-02414-9PDX expansionSubcutaneous PDX mouse modelOrthotopic PDX mouse modelPDAC PDX
collection DOAJ
language English
format Article
sources DOAJ
author Zhenyang Liu
Michael Ho-Young Ahn
Tomohiro Kurokawa
Amy Ly
Gong Zhang
Fuyou Wang
Teppei Yamada
Ananthan Sadagopan
Jane Cheng
Cristina R. Ferrone
Andrew S. Liss
Kim C. Honselmann
Gregory R. Wojtkiewicz
Soldano Ferrone
Xinhui Wang
spellingShingle Zhenyang Liu
Michael Ho-Young Ahn
Tomohiro Kurokawa
Amy Ly
Gong Zhang
Fuyou Wang
Teppei Yamada
Ananthan Sadagopan
Jane Cheng
Cristina R. Ferrone
Andrew S. Liss
Kim C. Honselmann
Gregory R. Wojtkiewicz
Soldano Ferrone
Xinhui Wang
A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
Journal of Translational Medicine
PDX expansion
Subcutaneous PDX mouse model
Orthotopic PDX mouse model
PDAC PDX
author_facet Zhenyang Liu
Michael Ho-Young Ahn
Tomohiro Kurokawa
Amy Ly
Gong Zhang
Fuyou Wang
Teppei Yamada
Ananthan Sadagopan
Jane Cheng
Cristina R. Ferrone
Andrew S. Liss
Kim C. Honselmann
Gregory R. Wojtkiewicz
Soldano Ferrone
Xinhui Wang
author_sort Zhenyang Liu
title A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
title_short A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
title_full A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
title_fullStr A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
title_full_unstemmed A fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
title_sort fast, simple, and cost-effective method of expanding patient-derived xenograft mouse models of pancreatic ductal adenocarcinoma
publisher BMC
series Journal of Translational Medicine
issn 1479-5876
publishDate 2020-06-01
description Abstract Background Patient-derived xenograft (PDX) mouse models of cancer have been recognized as better mouse models that recapitulate the characteristics of original malignancies including preserved tumor heterogeneity, lineage hierarchy, and tumor microenvironment. However, common challenges of PDX models are the significant time required for tumor expansion, reduced tumor take rates, and higher costs. Here, we describe a fast, simple, and cost-effective method of expanding PDX of pancreatic ductal adenocarcinoma (PDAC) in mice. Methods We used two established frozen PDAC PDX tissues (derived from two different patients) and implanted them subcutaneously into SCID mice. After tissues reached 10–20 mm in diameter, we performed survival surgery on each mouse to harvest 90–95% of subcutaneous PDX (incomplete resection), allowing the remaining 5–10% of PDX to continue growing in the same mouse. Results We expanded three consecutive passages (P1, P2, and P3) of PDX in the same mouse. Comparing the times required for in vivo expansion, P2 and P3 (expanded through incomplete resection) grew 26-60% faster than P1. Moreover, such expanded PDX tissues were successfully implanted orthotopically into mouse pancreases. Within 20 weeks using only 14 mice, we generated sufficient PDX tissue for future implantation of 200 mice. Our histology study confirmed that the morphologies of cancer cells and stromal structures were similar across all three passages of subcutaneous PDX and the orthotopic PDX and were reflective of the original patient tumors. Conclusions Taking advantage of incomplete resection of tumors associated with high local recurrence, we established a fast method of PDAC PDX expansion in mice.
topic PDX expansion
Subcutaneous PDX mouse model
Orthotopic PDX mouse model
PDAC PDX
url http://link.springer.com/article/10.1186/s12967-020-02414-9
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