Fibroblasts isolated from common sites of breast cancer metastasis enhance cancer cell growth rates and invasiveness in an interleukin-6-dependent manner

Common sites of breast cancer metastasis include the lung, liver, and bone, and of these secondary metastatic sites, estrogen receptor alpha (ERalpha)-positive breast cancer often favors bone. Within secondary organs, cancer cells would predictably encounter tissue-specific fibroblasts or their solu...

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Veröffentlicht in:	Cancer research (Chicago, Ill.) Ill.), 2008-11, Vol.68 (21), p.9087-9095
Hauptverfasser:	Studebaker, Adam W, Storci, Gianluca, Werbeck, Jillian L, Sansone, Pasquale, Sasser, A Kate, Tavolari, Simona, Huang, Tim, Chan, Michael W Y, Marini, Frank C, Rosol, Thomas J, Bonafé, Massimiliano, Hall, Brett M
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Sprache:	eng
Schlagworte:	Breast Neoplasms - metabolism Breast Neoplasms - pathology Cell Division - physiology Cell Line, Tumor Culture Media, Conditioned Fibroblasts - cytology Humans Immunoprecipitation Interleukin-6 - physiology Neoplasm Invasiveness Neoplasm Metastasis Phosphorylation RNA Interference STAT3 Transcription Factor - metabolism
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creator	Studebaker, Adam W Storci, Gianluca Werbeck, Jillian L Sansone, Pasquale Sasser, A Kate Tavolari, Simona Huang, Tim Chan, Michael W Y Marini, Frank C Rosol, Thomas J Bonafé, Massimiliano Hall, Brett M
description	Common sites of breast cancer metastasis include the lung, liver, and bone, and of these secondary metastatic sites, estrogen receptor alpha (ERalpha)-positive breast cancer often favors bone. Within secondary organs, cancer cells would predictably encounter tissue-specific fibroblasts or their soluble factors, yet our understanding of how tissue-specific fibroblasts directly affect cancer cell growth rates and survival remains largely unknown. Therefore, we tested the hypothesis that mesenchymal fibroblasts isolated from common sites of breast cancer metastasis provide a more favorable microenvironment with respect to tumor growth rates. We found a direct correlation between the ability of breast, lung, and bone fibroblasts to enhance ERalpha-positive breast cancer cell growth and the level of soluble interleukin-6 (IL-6) produced by each organ-specific fibroblast, and fibroblast-mediated growth enhancement was inhibited by the removal or inhibition of IL-6. Interestingly, mice coinjected with MCF-7 breast tumor cells and senescent skin fibroblasts, which secrete IL-6, developed tumors, whereas mice coinjected with presenescent skin fibroblasts that produce little to no IL-6 failed to form xenograft tumors. We subsequently determined that IL-6 promoted growth and invasion of breast cancer cells through signal transducer and activator of transcription 3-dependent up-regulation of Notch-3, Jagged-1, and carbonic anhydrase IX. These data suggest that tissue-specific fibroblasts and the factors they produce can promote breast cancer disease progression and may represent attractive targets for development of new therapeutics.
doi_str_mv	10.1158/0008-5472.CAN-08-0400
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Within secondary organs, cancer cells would predictably encounter tissue-specific fibroblasts or their soluble factors, yet our understanding of how tissue-specific fibroblasts directly affect cancer cell growth rates and survival remains largely unknown. Therefore, we tested the hypothesis that mesenchymal fibroblasts isolated from common sites of breast cancer metastasis provide a more favorable microenvironment with respect to tumor growth rates. We found a direct correlation between the ability of breast, lung, and bone fibroblasts to enhance ERalpha-positive breast cancer cell growth and the level of soluble interleukin-6 (IL-6) produced by each organ-specific fibroblast, and fibroblast-mediated growth enhancement was inhibited by the removal or inhibition of IL-6. Interestingly, mice coinjected with MCF-7 breast tumor cells and senescent skin fibroblasts, which secrete IL-6, developed tumors, whereas mice coinjected with presenescent skin fibroblasts that produce little to no IL-6 failed to form xenograft tumors. We subsequently determined that IL-6 promoted growth and invasion of breast cancer cells through signal transducer and activator of transcription 3-dependent up-regulation of Notch-3, Jagged-1, and carbonic anhydrase IX. 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Interestingly, mice coinjected with MCF-7 breast tumor cells and senescent skin fibroblasts, which secrete IL-6, developed tumors, whereas mice coinjected with presenescent skin fibroblasts that produce little to no IL-6 failed to form xenograft tumors. We subsequently determined that IL-6 promoted growth and invasion of breast cancer cells through signal transducer and activator of transcription 3-dependent up-regulation of Notch-3, Jagged-1, and carbonic anhydrase IX. 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subjects	Breast Neoplasms - metabolism Breast Neoplasms - pathology Cell Division - physiology Cell Line, Tumor Culture Media, Conditioned Fibroblasts - cytology Humans Immunoprecipitation Interleukin-6 - physiology Neoplasm Invasiveness Neoplasm Metastasis Phosphorylation RNA Interference STAT3 Transcription Factor - metabolism
title	Fibroblasts isolated from common sites of breast cancer metastasis enhance cancer cell growth rates and invasiveness in an interleukin-6-dependent manner
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