Transcription factor ATF3 links host adaptive response to breast cancer metastasis

Chris C. Wolford; Stephen J. McConoughey; Swati P. Jalgaonkar; Marino Leon; Anand S. Merchant; Johnna L. Dominick; Xin Yin; Yiseok Chang; Erik J. Zmuda; Sandra A. O'Toole; Ewan K.A. Millar; Stephanie L. Roller; Charles L. Shapiro; Michael C. Ostrowski; Robert L. Sutherland; Tsonwin Hai

doi:10.1172/JCI64410

Transcription factor ATF3 links host adaptive response to breast cancer metastasis

Chris C. Wolford, Stephen J. McConoughey, Swati P. Jalgaonkar, Marino Leon, Anand S. Merchant, Johnna L. Dominick, Xin Yin, Yiseok Chang, Erik J. Zmuda, Sandra A. O'Toole, Ewan K.A. Millar, Stephanie L. Roller, Charles L. Shapiro, Michael C. Ostrowski, Robert L. Sutherland, Tsonwin Hai

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106 Scopus citations

Abstract

Host response to cancer signals has emerged as a key factor in cancer development; however, the underlying molecular mechanism is not well understood. In this report, we demonstrate that activating transcription factor 3 (ATF3), a hub of the cellular adaptive response network, plays an important role in host cells to enhance breast cancer metastasis. Immunohistochemical analysis of patient tumor samples revealed that expression of ATF3 in stromal mononuclear cells, but not cancer epithelial cells, is correlated with worse clinical outcomes and is an independent predictor for breast cancer death. This finding was corroborated by data from mouse models showing less efficient breast cancer metastasis in Atf3-deficient mice than in WT mice. Further, mice with myeloid cell-selective KO of Atf3 showed fewer lung metastases, indicating that host ATF3 facilitates metastasis, at least in part, by its function in macrophage/myeloid cells. Gene profiling analyses of macrophages from mouse tumors identified an ATF3-regulated gene signature that could distinguish human tumor stroma from distant stroma and could predict clinical outcomes, lending credence to our mouse models. In conclusion, we identified ATF3 as a regulator in myeloid cells that enhances breast cancer metastasis and has predictive value for clinical outcomes.

Original language	English
Pages (from-to)	2893-2906
Number of pages	14
Journal	Journal of Clinical Investigation
Volume	123
Issue number	7
DOIs	https://doi.org/10.1172/JCI64410
State	Published - 1 Jul 2013
Externally published	Yes

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Wolford, C. C., McConoughey, S. J., Jalgaonkar, S. P., Leon, M., Merchant, A. S., Dominick, J. L., Yin, X., Chang, Y., Zmuda, E. J., O'Toole, S. A., Millar, E. K. A., Roller, S. L., Shapiro, C. L., Ostrowski, M. C., Sutherland, R. L., & Hai, T. (2013). Transcription factor ATF3 links host adaptive response to breast cancer metastasis. Journal of Clinical Investigation, 123(7), 2893-2906. https://doi.org/10.1172/JCI64410

@article{8bddfc7e665948acab0a8e7564f34cba,

title = "Transcription factor ATF3 links host adaptive response to breast cancer metastasis",

abstract = "Host response to cancer signals has emerged as a key factor in cancer development; however, the underlying molecular mechanism is not well understood. In this report, we demonstrate that activating transcription factor 3 (ATF3), a hub of the cellular adaptive response network, plays an important role in host cells to enhance breast cancer metastasis. Immunohistochemical analysis of patient tumor samples revealed that expression of ATF3 in stromal mononuclear cells, but not cancer epithelial cells, is correlated with worse clinical outcomes and is an independent predictor for breast cancer death. This finding was corroborated by data from mouse models showing less efficient breast cancer metastasis in Atf3-deficient mice than in WT mice. Further, mice with myeloid cell-selective KO of Atf3 showed fewer lung metastases, indicating that host ATF3 facilitates metastasis, at least in part, by its function in macrophage/myeloid cells. Gene profiling analyses of macrophages from mouse tumors identified an ATF3-regulated gene signature that could distinguish human tumor stroma from distant stroma and could predict clinical outcomes, lending credence to our mouse models. In conclusion, we identified ATF3 as a regulator in myeloid cells that enhances breast cancer metastasis and has predictive value for clinical outcomes.",

author = "Wolford, \{Chris C.\} and McConoughey, \{Stephen J.\} and Jalgaonkar, \{Swati P.\} and Marino Leon and Merchant, \{Anand S.\} and Dominick, \{Johnna L.\} and Xin Yin and Yiseok Chang and Zmuda, \{Erik J.\} and O'Toole, \{Sandra A.\} and Millar, \{Ewan K.A.\} and Roller, \{Stephanie L.\} and Shapiro, \{Charles L.\} and Ostrowski, \{Michael C.\} and Sutherland, \{Robert L.\} and Tsonwin Hai",

year = "2013",

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doi = "10.1172/JCI64410",

language = "English",

volume = "123",

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journal = "Journal of Clinical Investigation",

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Wolford, CC, McConoughey, SJ, Jalgaonkar, SP, Leon, M, Merchant, AS, Dominick, JL, Yin, X, Chang, Y, Zmuda, EJ, O'Toole, SA, Millar, EKA, Roller, SL, Shapiro, CL, Ostrowski, MC, Sutherland, RL & Hai, T 2013, 'Transcription factor ATF3 links host adaptive response to breast cancer metastasis', Journal of Clinical Investigation, vol. 123, no. 7, pp. 2893-2906. https://doi.org/10.1172/JCI64410

TY - JOUR

T1 - Transcription factor ATF3 links host adaptive response to breast cancer metastasis

AU - Wolford, Chris C.

AU - McConoughey, Stephen J.

AU - Jalgaonkar, Swati P.

AU - Leon, Marino

AU - Merchant, Anand S.

AU - Dominick, Johnna L.

AU - Yin, Xin

AU - Chang, Yiseok

AU - Zmuda, Erik J.

AU - O'Toole, Sandra A.

AU - Millar, Ewan K.A.

AU - Roller, Stephanie L.

AU - Shapiro, Charles L.

AU - Ostrowski, Michael C.

AU - Sutherland, Robert L.

AU - Hai, Tsonwin

PY - 2013/7/1

Y1 - 2013/7/1

N2 - Host response to cancer signals has emerged as a key factor in cancer development; however, the underlying molecular mechanism is not well understood. In this report, we demonstrate that activating transcription factor 3 (ATF3), a hub of the cellular adaptive response network, plays an important role in host cells to enhance breast cancer metastasis. Immunohistochemical analysis of patient tumor samples revealed that expression of ATF3 in stromal mononuclear cells, but not cancer epithelial cells, is correlated with worse clinical outcomes and is an independent predictor for breast cancer death. This finding was corroborated by data from mouse models showing less efficient breast cancer metastasis in Atf3-deficient mice than in WT mice. Further, mice with myeloid cell-selective KO of Atf3 showed fewer lung metastases, indicating that host ATF3 facilitates metastasis, at least in part, by its function in macrophage/myeloid cells. Gene profiling analyses of macrophages from mouse tumors identified an ATF3-regulated gene signature that could distinguish human tumor stroma from distant stroma and could predict clinical outcomes, lending credence to our mouse models. In conclusion, we identified ATF3 as a regulator in myeloid cells that enhances breast cancer metastasis and has predictive value for clinical outcomes.

AB - Host response to cancer signals has emerged as a key factor in cancer development; however, the underlying molecular mechanism is not well understood. In this report, we demonstrate that activating transcription factor 3 (ATF3), a hub of the cellular adaptive response network, plays an important role in host cells to enhance breast cancer metastasis. Immunohistochemical analysis of patient tumor samples revealed that expression of ATF3 in stromal mononuclear cells, but not cancer epithelial cells, is correlated with worse clinical outcomes and is an independent predictor for breast cancer death. This finding was corroborated by data from mouse models showing less efficient breast cancer metastasis in Atf3-deficient mice than in WT mice. Further, mice with myeloid cell-selective KO of Atf3 showed fewer lung metastases, indicating that host ATF3 facilitates metastasis, at least in part, by its function in macrophage/myeloid cells. Gene profiling analyses of macrophages from mouse tumors identified an ATF3-regulated gene signature that could distinguish human tumor stroma from distant stroma and could predict clinical outcomes, lending credence to our mouse models. In conclusion, we identified ATF3 as a regulator in myeloid cells that enhances breast cancer metastasis and has predictive value for clinical outcomes.

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DO - 10.1172/JCI64410

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SN - 0021-9738

VL - 123

SP - 2893

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JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

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Transcription factor ATF3 links host adaptive response to breast cancer metastasis

Abstract

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