Coevolution of prostate cancer and bone stroma in three-dimensional coculture: Implications for cancer growth and metastasis

Shian Ying Sung; Chia Ling Hsieh; Andrew Law; Haiyen E. Zhau; Sen Pathak; Asha S. Multani; Sharon Lim; Ilsa M. Coleman; Li Chin Wu; William D. Figg; William L. Dahut; Peter Nelson; Jae K. Lee; Mahul B. Amin; Robert Lyles; Peter A.J. Johnstone; Fray F. Marshall; Leland W.K. Chung

doi:10.1158/0008-5472.CAN-08-2492

Coevolution of prostate cancer and bone stroma in three-dimensional coculture: Implications for cancer growth and metastasis

Shian Ying Sung, Chia Ling Hsieh, Andrew Law, Haiyen E. Zhau, Sen Pathak, Asha S. Multani, Sharon Lim, Ilsa M. Coleman, Li Chin Wu, William D. Figg, William L. Dahut, Peter Nelson, Jae K. Lee, Mahul B. Amin, Robert Lyles, Peter A.J. Johnstone, Fray F. Marshall, Leland W.K. Chung

Genetics

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128 Scopus citations

Abstract

Human bone stromal cells, after three-dimensional coculture with human prostate cancer (PCa) cells in vitro, underwent permanent cytogenetic and gene expression changes with reactive oxygen species serving as mediators. The evolved stromal cells are highly inductive of human PCa growth in mice, and expressed increased levels of extracellular matrix (versican and tenascin) and chemokine (BDFN, CCL5, CXCL5, and CXCL16) genes. These genes were validated in clinical tissue and/or serum specimens and could be the predictors for invasive and bone metastatic PCa. These results, combined with our previous observations, support the concept of permanent genetic and behavioral changes of PCa epithelial cells after being either cocultured with prostate or bone stromal cells as three-dimensional prostate organoids or grown as tumor xenografts in mice. These observations collectively suggest coevolution of cancer and stromal cells occurred under three-dimensional growth condition, which ultimately accelerates cancer growth andmetastasis.

Original language	English (US)
Pages (from-to)	9996-10003
Number of pages	8
Journal	Cancer Research
Volume	68
Issue number	23
DOIs	https://doi.org/10.1158/0008-5472.CAN-08-2492
State	Published - Dec 1 2008

ASJC Scopus subject areas

Oncology
Cancer Research

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Sung, S. Y., Hsieh, C. L., Law, A., Zhau, H. E., Pathak, S., Multani, A. S., Lim, S., Coleman, I. M., Wu, L. C., Figg, W. D., Dahut, W. L., Nelson, P., Lee, J. K., Amin, M. B., Lyles, R., Johnstone, P. A. J., Marshall, F. F., & Chung, L. W. K. (2008). Coevolution of prostate cancer and bone stroma in three-dimensional coculture: Implications for cancer growth and metastasis. Cancer Research, 68(23), 9996-10003. https://doi.org/10.1158/0008-5472.CAN-08-2492

Sung, SY, Hsieh, CL, Law, A, Zhau, HE, Pathak, S, Multani, AS, Lim, S, Coleman, IM, Wu, LC, Figg, WD, Dahut, WL, Nelson, P, Lee, JK, Amin, MB, Lyles, R, Johnstone, PAJ, Marshall, FF & Chung, LWK 2008, 'Coevolution of prostate cancer and bone stroma in three-dimensional coculture: Implications for cancer growth and metastasis', Cancer Research, vol. 68, no. 23, pp. 9996-10003. https://doi.org/10.1158/0008-5472.CAN-08-2492

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abstract = "Human bone stromal cells, after three-dimensional coculture with human prostate cancer (PCa) cells in vitro, underwent permanent cytogenetic and gene expression changes with reactive oxygen species serving as mediators. The evolved stromal cells are highly inductive of human PCa growth in mice, and expressed increased levels of extracellular matrix (versican and tenascin) and chemokine (BDFN, CCL5, CXCL5, and CXCL16) genes. These genes were validated in clinical tissue and/or serum specimens and could be the predictors for invasive and bone metastatic PCa. These results, combined with our previous observations, support the concept of permanent genetic and behavioral changes of PCa epithelial cells after being either cocultured with prostate or bone stromal cells as three-dimensional prostate organoids or grown as tumor xenografts in mice. These observations collectively suggest coevolution of cancer and stromal cells occurred under three-dimensional growth condition, which ultimately accelerates cancer growth andmetastasis.",

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AU - Multani, Asha S.

AU - Lim, Sharon

AU - Coleman, Ilsa M.

AU - Wu, Li Chin

AU - Figg, William D.

AU - Dahut, William L.

AU - Nelson, Peter

AU - Lee, Jae K.

AU - Amin, Mahul B.

AU - Lyles, Robert

AU - Johnstone, Peter A.J.

AU - Marshall, Fray F.

AU - Chung, Leland W.K.

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N2 - Human bone stromal cells, after three-dimensional coculture with human prostate cancer (PCa) cells in vitro, underwent permanent cytogenetic and gene expression changes with reactive oxygen species serving as mediators. The evolved stromal cells are highly inductive of human PCa growth in mice, and expressed increased levels of extracellular matrix (versican and tenascin) and chemokine (BDFN, CCL5, CXCL5, and CXCL16) genes. These genes were validated in clinical tissue and/or serum specimens and could be the predictors for invasive and bone metastatic PCa. These results, combined with our previous observations, support the concept of permanent genetic and behavioral changes of PCa epithelial cells after being either cocultured with prostate or bone stromal cells as three-dimensional prostate organoids or grown as tumor xenografts in mice. These observations collectively suggest coevolution of cancer and stromal cells occurred under three-dimensional growth condition, which ultimately accelerates cancer growth andmetastasis.

AB - Human bone stromal cells, after three-dimensional coculture with human prostate cancer (PCa) cells in vitro, underwent permanent cytogenetic and gene expression changes with reactive oxygen species serving as mediators. The evolved stromal cells are highly inductive of human PCa growth in mice, and expressed increased levels of extracellular matrix (versican and tenascin) and chemokine (BDFN, CCL5, CXCL5, and CXCL16) genes. These genes were validated in clinical tissue and/or serum specimens and could be the predictors for invasive and bone metastatic PCa. These results, combined with our previous observations, support the concept of permanent genetic and behavioral changes of PCa epithelial cells after being either cocultured with prostate or bone stromal cells as three-dimensional prostate organoids or grown as tumor xenografts in mice. These observations collectively suggest coevolution of cancer and stromal cells occurred under three-dimensional growth condition, which ultimately accelerates cancer growth andmetastasis.

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Coevolution of prostate cancer and bone stroma in three-dimensional coculture: Implications for cancer growth and metastasis

Abstract

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