Credentialing preclinical pediatric xenograft models using gene expression and tissue microarray analysis

Craig C. Whiteford; Sven Bilke; Braden T. Greer; Qingrong Chen; Till A. Braunschweig; Nicola Cenacchi; Jun S. Wei; Malcolm A. Smith; Peter Houghton; Christopher Morton; C. Patrick Reynolds; Richard Lock; Richard Gorlick; Chand Khanna; Carol J. Thiele; Mikiko Takikita; Daniel Catchpoole; Stephen M. Hewitt; Javed Khan

doi:10.1158/0008-5472.CAN-06-0610

Credentialing preclinical pediatric xenograft models using gene expression and tissue microarray analysis

Craig C. Whiteford, Sven Bilke, Braden T. Greer, Qingrong Chen, Till A. Braunschweig, Nicola Cenacchi, Jun S. Wei, Malcolm A. Smith, Peter Houghton, Christopher Morton, C. Patrick Reynolds, Richard Lock, Richard Gorlick, Chand Khanna, Carol J. Thiele, Mikiko Takikita, Daniel Catchpoole, Stephen M. Hewitt, Javed Khan

Pediatrics

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

90 Scopus citations

Abstract

Human tumor xenografts have been used extensively for rapid screening of the efficacy of anticancer drugs for the past 35 years. The selection of appropriate xenograft models for drug testing has been largely empirical and has not incorporated a similarity to the tumor type of origin at the molecular level. This study is the first comprehensive analysis of the transcriptome of a large set of pediatric xenografts, which are currently used for preclinical drug testing. Suitable models representing the tumor type of origin were identified. It was found that the characteristic expression patterns of the primary tumors were maintained in the corresponding xenografts for the majority of samples. Because a prerequisite for developing rationally designed drugs is that the target is expressed at the protein level, we developed tissue arrays from these xenografts and corroborated that high mRNA levels yielded high protein levels for two tested genes. The web database and availability of tissue arrays will allow for the rapid confirmation of the expression of potential targets at both the mRNA and the protein level for molecularly targeted agents. The database will facilitate the identification of tumor markers predictive of response to tested agents as well as the discovery of new molecular targets.

Original language	English (US)
Pages (from-to)	32-40
Number of pages	9
Journal	Cancer research
Volume	67
Issue number	1
DOIs	https://doi.org/10.1158/0008-5472.CAN-06-0610
State	Published - Jan 1 2007

ASJC Scopus subject areas

Oncology
Cancer Research

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1158/0008-5472.CAN-06-0610

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Whiteford, C. C., Bilke, S., Greer, B. T., Chen, Q., Braunschweig, T. A., Cenacchi, N., Wei, J. S., Smith, M. A., Houghton, P., Morton, C., Reynolds, C. P., Lock, R., Gorlick, R., Khanna, C., Thiele, C. J., Takikita, M., Catchpoole, D., Hewitt, S. M., & Khan, J. (2007). Credentialing preclinical pediatric xenograft models using gene expression and tissue microarray analysis. Cancer research, 67(1), 32-40. https://doi.org/10.1158/0008-5472.CAN-06-0610

Whiteford, CC, Bilke, S, Greer, BT, Chen, Q, Braunschweig, TA, Cenacchi, N, Wei, JS, Smith, MA, Houghton, P, Morton, C, Reynolds, CP, Lock, R, Gorlick, R, Khanna, C, Thiele, CJ, Takikita, M, Catchpoole, D, Hewitt, SM & Khan, J 2007, 'Credentialing preclinical pediatric xenograft models using gene expression and tissue microarray analysis', Cancer research, vol. 67, no. 1, pp. 32-40. https://doi.org/10.1158/0008-5472.CAN-06-0610

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abstract = "Human tumor xenografts have been used extensively for rapid screening of the efficacy of anticancer drugs for the past 35 years. The selection of appropriate xenograft models for drug testing has been largely empirical and has not incorporated a similarity to the tumor type of origin at the molecular level. This study is the first comprehensive analysis of the transcriptome of a large set of pediatric xenografts, which are currently used for preclinical drug testing. Suitable models representing the tumor type of origin were identified. It was found that the characteristic expression patterns of the primary tumors were maintained in the corresponding xenografts for the majority of samples. Because a prerequisite for developing rationally designed drugs is that the target is expressed at the protein level, we developed tissue arrays from these xenografts and corroborated that high mRNA levels yielded high protein levels for two tested genes. The web database and availability of tissue arrays will allow for the rapid confirmation of the expression of potential targets at both the mRNA and the protein level for molecularly targeted agents. The database will facilitate the identification of tumor markers predictive of response to tested agents as well as the discovery of new molecular targets.",

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AU - Wei, Jun S.

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AU - Morton, Christopher

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AU - Gorlick, Richard

AU - Khanna, Chand

AU - Thiele, Carol J.

AU - Takikita, Mikiko

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AU - Hewitt, Stephen M.

AU - Khan, Javed

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Credentialing preclinical pediatric xenograft models using gene expression and tissue microarray analysis

Abstract

ASJC Scopus subject areas

UN SDGs

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