Forty-five patient-derived xenografts capture the clinical and biological heterogeneity of Wilms tumor

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作者
Andrew J. Murphy
Xiang Chen
Emilia M. Pinto
Justin S. Williams
Michael R. Clay
Stanley B. Pounds
Xueyuan Cao
Lei Shi
Tong Lin
Geoffrey Neale
Christopher L. Morton
Mary A. Woolard
Heather L. Mulder
Hyea Jin Gil
Jerold E. Rehg
Catherine A. Billups
Matthew L. Harlow
Jeffrey S. Dome
Peter J. Houghton
John Easton
Jinghui Zhang
Rani E. George
Gerard P. Zambetti
Andrew M. Davidoff
机构
[1] St. Jude Children’s Research Hospital,Department of Surgery
[2] University of Tennessee Health Science Center,Division of Pediatric Surgery, Department of Surgery
[3] St. Jude Children’s Research Hospital,Department of Computational Biology
[4] St. Jude Children’s Research Hospital,Department of Pathology
[5] St. Jude Children’s Research Hospital,Department of Biostatistics
[6] University of Tennessee Health Science Center,College of Nursing
[7] St. Jude Children’s Research Hospital,Hartwell Center for Bioinformatics and Biotechnology
[8] Harvard Medical School,Department of Pediatric Hematology and Oncology, Dana
[9] Children’s National Medical Center,Farber Cancer Institute and Boston Children’s Hospital
[10] University of Texas Health Science Center,Division of Oncology
来源
Nature Communications | / 10卷
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摘要
The lack of model systems has limited the preclinical discovery and testing of therapies for Wilms tumor (WT) patients who have poor outcomes. Herein, we establish 45 heterotopic WT patient-derived xenografts (WTPDX) in CB17 scid-/- mice that capture the biological heterogeneity of Wilms tumor (WT). Among these 45 total WTPDX, 6 from patients with diffuse anaplastic tumors, 9 from patients who experienced disease relapse, and 13 from patients with bilateral disease are included. Early passage WTPDX show evidence of clonal selection, clonal evolution and enrichment of blastemal gene expression. Favorable histology WTPDX are sensitive, whereas unfavorable histology WTPDX are resistant to conventional chemotherapy with vincristine, actinomycin-D, and doxorubicin given singly or in combination. This WTPDX library is a unique scientific resource that retains the spectrum of biological heterogeneity present in WT and provides an essential tool to test targeted therapies for WT patient groups with poor outcomes.
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