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Journal of Translational Medicine
Published in: Journal of Translational Medicine 1/2012

Open Access 01-12-2012 | Research

Genomic characterization of explant tumorgraft models derived from fresh patient tumor tissue

Authors: David J Monsma, Noel R Monks, David M Cherba, Dawna Dylewski, Emily Eugster, Hailey Jahn, Sujata Srikanth, Stephanie B Scott, Patrick J Richardson, Robin E Everts, Aleksandr Ishkin, Yuri Nikolsky, James H Resau, Robert Sigler, Brian J Nickoloff, Craig P Webb

Published in: Journal of Translational Medicine | Issue 1/2012

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Abstract

Background

There is resurgence within drug and biomarker development communities for the use of primary tumorgraft models as improved predictors of patient tumor response to novel therapeutic strategies. Despite perceived advantages over cell line derived xenograft models, there is limited data comparing the genotype and phenotype of tumorgrafts to the donor patient tumor, limiting the determination of molecular relevance of the tumorgraft model. This report directly compares the genomic characteristics of patient tumors and the derived tumorgraft models, including gene expression, and oncogenic mutation status.

Methods

Fresh tumor tissues from 182 cancer patients were implanted subcutaneously into immune-compromised mice for the development of primary patient tumorgraft models. Histological assessment was performed on both patient tumors and the resulting tumorgraft models. Somatic mutations in key oncogenes and gene expression levels of resulting tumorgrafts were compared to the matched patient tumors using the OncoCarta (Sequenom, San Diego, CA) and human gene microarray (Affymetrix, Santa Clara, CA) platforms respectively. The genomic stability of the established tumorgrafts was assessed across serial in vivo generations in a representative subset of models. The genomes of patient tumors that formed tumorgrafts were compared to those that did not to identify the possible molecular basis to successful engraftment or rejection.

Results

Fresh tumor tissues from 182 cancer patients were implanted into immune-compromised mice with forty-nine tumorgraft models that have been successfully established, exhibiting strong histological and genomic fidelity to the originating patient tumors. Comparison of the transcriptomes and oncogenic mutations between the tumorgrafts and the matched patient tumors were found to be stable across four tumorgraft generations. Not only did the various tumors retain the differentiation pattern, but supporting stromal elements were preserved. Those genes down-regulated specifically in tumorgrafts were enriched in biological pathways involved in host immune response, consistent with the immune deficiency status of the host. Patient tumors that successfully formed tumorgrafts were enriched for cell signaling, cell cycle, and cytoskeleton pathways and exhibited evidence of reduced immunogenicity.

Conclusions

The preservation of the patient’s tumor genomic profile and tumor microenvironment supports the view that primary patient tumorgrafts provide a relevant model to support the translation of new therapeutic strategies and personalized medicine approaches in oncology.
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Metadata
Title
Genomic characterization of explant tumorgraft models derived from fresh patient tumor tissue
Authors
David J Monsma
Noel R Monks
David M Cherba
Dawna Dylewski
Emily Eugster
Hailey Jahn
Sujata Srikanth
Stephanie B Scott
Patrick J Richardson
Robin E Everts
Aleksandr Ishkin
Yuri Nikolsky
James H Resau
Robert Sigler
Brian J Nickoloff
Craig P Webb
Publication date
01-12-2012
Publisher
BioMed Central
Published in
Journal of Translational Medicine / Issue 1/2012
Electronic ISSN: 1479-5876
DOI
https://doi.org/10.1186/1479-5876-10-125

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