Dissecting genetic requirements of human breast tumorigenesis in a tissue transgenic model of human breast cancer in mice

Min Wu; Lina Jung; Adrian B. Cooper; Christina Fleet; Lihao Chen; Lyne Breault; Kimberly Clark; Zuhua Cai; Sylvie Vincent; Steve Bottega; Qiong Shen; Andrea Richardson; Marcus Bosenburg; Stephen P. Naber; Ronald A. DePinho; Charlotte Kuperwasser; Murray O. Robinson

doi:10.1073/pnas.0811785106

Dissecting genetic requirements of human breast tumorigenesis in a tissue transgenic model of human breast cancer in mice

Min Wu, Lina Jung, Adrian B. Cooper, Christina Fleet, Lihao Chen, Lyne Breault, Kimberly Clark, Zuhua Cai, Sylvie Vincent, Steve Bottega, Qiong Shen, Andrea Richardson, Marcus Bosenburg, Stephen P. Naber, Ronald A. DePinho, Charlotte Kuperwasser, Murray O. Robinson

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

49 Scopus citations

Abstract

Breast cancer development is a complex pathobiological process involving sequential genetic alterations in normal epithelial cells that results in uncontrolled growth in a permissive microenvironment. Accordingly, physiologically relevant models of human breast cancer that recapitulate these events are needed to study cancer biology and evaluate therapeutic agents. Here, we report the generation and utilization of the human breast cancer in mouse (HIM) model, which is composed of genetically engineered primary human breast epithelial organoids and activated human breast stromal cells. By using this approach, we have defined key genetic events required to drive the development of human preneoplastic lesions as well as invasive adenocarcinomas that are histologically similar to those in patients. Tumor development in the HIM model proceeds through defined histological stages of hyperplasia, DCIS to invasive carcinoma. Moreover, HIM tumors display characteristic responses to targeted therapies, such as HER2 inhibitors, further validating the utility of these models in preclinical compound testing. The HIM model is an experimentally tractable human in vivo system that holds great potential for advancing our basic understanding of cancer biology and for the discovery and testing of targeted therapies.

Original language	English (US)
Pages (from-to)	7022-7027
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	106
Issue number	17
DOIs	https://doi.org/10.1073/pnas.0811785106
State	Published - Apr 28 2009
Externally published	Yes

Keywords

Cancer model
Human in mouse
Tissue reconstitution

ASJC Scopus subject areas

General

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10.1073/pnas.0811785106

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Wu, M., Jung, L., Cooper, A. B., Fleet, C., Chen, L., Breault, L., Clark, K., Cai, Z., Vincent, S., Bottega, S., Shen, Q., Richardson, A., Bosenburg, M., Naber, S. P., DePinho, R. A., Kuperwasser, C., & Robinson, M. O. (2009). Dissecting genetic requirements of human breast tumorigenesis in a tissue transgenic model of human breast cancer in mice. Proceedings of the National Academy of Sciences of the United States of America, 106(17), 7022-7027. https://doi.org/10.1073/pnas.0811785106

Wu, M, Jung, L, Cooper, AB, Fleet, C, Chen, L, Breault, L, Clark, K, Cai, Z, Vincent, S, Bottega, S, Shen, Q, Richardson, A, Bosenburg, M, Naber, SP, DePinho, RA, Kuperwasser, C & Robinson, MO 2009, 'Dissecting genetic requirements of human breast tumorigenesis in a tissue transgenic model of human breast cancer in mice', Proceedings of the National Academy of Sciences of the United States of America, vol. 106, no. 17, pp. 7022-7027. https://doi.org/10.1073/pnas.0811785106

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abstract = "Breast cancer development is a complex pathobiological process involving sequential genetic alterations in normal epithelial cells that results in uncontrolled growth in a permissive microenvironment. Accordingly, physiologically relevant models of human breast cancer that recapitulate these events are needed to study cancer biology and evaluate therapeutic agents. Here, we report the generation and utilization of the human breast cancer in mouse (HIM) model, which is composed of genetically engineered primary human breast epithelial organoids and activated human breast stromal cells. By using this approach, we have defined key genetic events required to drive the development of human preneoplastic lesions as well as invasive adenocarcinomas that are histologically similar to those in patients. Tumor development in the HIM model proceeds through defined histological stages of hyperplasia, DCIS to invasive carcinoma. Moreover, HIM tumors display characteristic responses to targeted therapies, such as HER2 inhibitors, further validating the utility of these models in preclinical compound testing. The HIM model is an experimentally tractable human in vivo system that holds great potential for advancing our basic understanding of cancer biology and for the discovery and testing of targeted therapies.",

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AB - Breast cancer development is a complex pathobiological process involving sequential genetic alterations in normal epithelial cells that results in uncontrolled growth in a permissive microenvironment. Accordingly, physiologically relevant models of human breast cancer that recapitulate these events are needed to study cancer biology and evaluate therapeutic agents. Here, we report the generation and utilization of the human breast cancer in mouse (HIM) model, which is composed of genetically engineered primary human breast epithelial organoids and activated human breast stromal cells. By using this approach, we have defined key genetic events required to drive the development of human preneoplastic lesions as well as invasive adenocarcinomas that are histologically similar to those in patients. Tumor development in the HIM model proceeds through defined histological stages of hyperplasia, DCIS to invasive carcinoma. Moreover, HIM tumors display characteristic responses to targeted therapies, such as HER2 inhibitors, further validating the utility of these models in preclinical compound testing. The HIM model is an experimentally tractable human in vivo system that holds great potential for advancing our basic understanding of cancer biology and for the discovery and testing of targeted therapies.

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Dissecting genetic requirements of human breast tumorigenesis in a tissue transgenic model of human breast cancer in mice

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