Decreased TGFβ signaling and increased COX2 expression in high risk women with increased mammographic breast density

Wei Tse Yang; Michael T. Lewis; Kenneth R Hess; Helen Wong; Anna Tsimelzon; Nese Karadag; Michelina Cairo; Caimaio Wei; Funda Meric-Bernstam; Powel Brown; Banu Arun; Gabriel N. Hortobagyi; Aysegul Sahin; Jenny C. Chang

doi:10.1007/s10549-009-0350-0

Decreased TGFβ signaling and increased COX2 expression in high risk women with increased mammographic breast density

Wei Tse Yang, Michael T. Lewis, Kenneth R Hess, Helen Wong, Anna Tsimelzon, Nese Karadag, Michelina Cairo, Caimaio Wei, Funda Meric-Bernstam, Powel Brown, Banu Arun, Gabriel N. Hortobagyi, Aysegul Sahin, Jenny C. Chang

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48 Scopus citations

Abstract

High mammographic density is associated with a increased risk of breast cancer. We hypothesized that specific pathways exist that are associated with increased mammographic density, and may therefore be used to identify potential targets for chemoprevention. Histologically confirmed normal breast tissue was collected from women undergoing breast surgery who had available demographic data and mammograms for review. Women with low versus high mammographic breast density were compared. Differentially expressed genes using Affymetrix HG U133Plus2 chips were identified in dense versus non-dense tissue. Immunohistochemical analysis (IHC) of estrogen receptor, progesterone receptor, Ki67, and COX2 expression was performed. About 66 women were identified, 28 (42%) had high, and 38 (58%) had low mammographic density. About 73 genes had differential expression between normal breast tissue with high and low mammographic density (P < 0.001, fold change ≥1.5with a low false discovery rate (<10%). Network and canonical pathway analysis indicated decreased TGFβ signaling (TGFBR2, SOS, SMAD3, CD44 and TNFRSF11B) in dense breast tissue relative to non-dense breast. By IHC, only COX2 expression in the stroma was statistically significant on multivariate analysis. TGFβ ligands are currently the only growth factors known to prevent mammary epithelial cell proliferation. TGFβ signaling has been reported to be inhibited by COX-2, and these molecules are highly differentially expressed in individuals at high risk of developing breast cancer. These results strongly suggest that COX2 inhibition should be investigated for breast cancer prevention despite possible increase in cardiovascular risk.

Original language	English (US)
Pages (from-to)	305-314
Number of pages	10
Journal	Breast Cancer Research and Treatment
Volume	119
Issue number	2
DOIs	https://doi.org/10.1007/s10549-009-0350-0
State	Published - Jan 2010

Keywords

COX2 Inhibitors
Chemoprevention
Mammographic density
TGF-beta

ASJC Scopus subject areas

Oncology
Cancer Research

MD Anderson CCSG core facilities

Advanced Technology Genomics Core
Biostatistics Resource Group

Access to Document

10.1007/s10549-009-0350-0

Cite this

Yang, W. T., Lewis, M. T., Hess, K. R., Wong, H., Tsimelzon, A., Karadag, N., Cairo, M., Wei, C., Meric-Bernstam, F., Brown, P., Arun, B., Hortobagyi, G. N., Sahin, A., & Chang, J. C. (2010). Decreased TGFβ signaling and increased COX2 expression in high risk women with increased mammographic breast density. Breast Cancer Research and Treatment, 119(2), 305-314. https://doi.org/10.1007/s10549-009-0350-0

Yang, WT, Lewis, MT, Hess, KR, Wong, H, Tsimelzon, A, Karadag, N, Cairo, M, Wei, C, Meric-Bernstam, F, Brown, P, Arun, B, Hortobagyi, GN, Sahin, A & Chang, JC 2010, 'Decreased TGFβ signaling and increased COX2 expression in high risk women with increased mammographic breast density', Breast Cancer Research and Treatment, vol. 119, no. 2, pp. 305-314. https://doi.org/10.1007/s10549-009-0350-0

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title = "Decreased TGFβ signaling and increased COX2 expression in high risk women with increased mammographic breast density",

abstract = "High mammographic density is associated with a increased risk of breast cancer. We hypothesized that specific pathways exist that are associated with increased mammographic density, and may therefore be used to identify potential targets for chemoprevention. Histologically confirmed normal breast tissue was collected from women undergoing breast surgery who had available demographic data and mammograms for review. Women with low versus high mammographic breast density were compared. Differentially expressed genes using Affymetrix HG U133Plus2 chips were identified in dense versus non-dense tissue. Immunohistochemical analysis (IHC) of estrogen receptor, progesterone receptor, Ki67, and COX2 expression was performed. About 66 women were identified, 28 (42%) had high, and 38 (58%) had low mammographic density. About 73 genes had differential expression between normal breast tissue with high and low mammographic density (P < 0.001, fold change ≥1.5with a low false discovery rate (<10%). Network and canonical pathway analysis indicated decreased TGFβ signaling (TGFBR2, SOS, SMAD3, CD44 and TNFRSF11B) in dense breast tissue relative to non-dense breast. By IHC, only COX2 expression in the stroma was statistically significant on multivariate analysis. TGFβ ligands are currently the only growth factors known to prevent mammary epithelial cell proliferation. TGFβ signaling has been reported to be inhibited by COX-2, and these molecules are highly differentially expressed in individuals at high risk of developing breast cancer. These results strongly suggest that COX2 inhibition should be investigated for breast cancer prevention despite possible increase in cardiovascular risk.",

keywords = "COX2 Inhibitors, Chemoprevention, Mammographic density, TGF-beta",

author = "Yang, {Wei Tse} and Lewis, {Michael T.} and Hess, {Kenneth R} and Helen Wong and Anna Tsimelzon and Nese Karadag and Michelina Cairo and Caimaio Wei and Funda Meric-Bernstam and Powel Brown and Banu Arun and Hortobagyi, {Gabriel N.} and Aysegul Sahin and Chang, {Jenny C.}",

note = "Funding Information: Acknowledgments This study was funded by P50CA116199 grant from the National Cancer Institute (GNH, with a career development award to WTY). This study was supported in part by the Breast Cancer Research Foundation (JCC), the Emma Jacobs Clinical Breast Cancer Fund (JCC), the NCI Breast Cancer SPORE P50 CA50183 (JCC, MTL),1 R01 CA112305-01 from the National Cancer Institute (JCC), P30 CA125123 from the National Institute of Health (JCC).",

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doi = "10.1007/s10549-009-0350-0",

language = "English (US)",

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AU - Yang, Wei Tse

AU - Lewis, Michael T.

AU - Hess, Kenneth R

AU - Wong, Helen

AU - Tsimelzon, Anna

AU - Karadag, Nese

AU - Cairo, Michelina

AU - Wei, Caimaio

AU - Meric-Bernstam, Funda

AU - Brown, Powel

AU - Arun, Banu

AU - Hortobagyi, Gabriel N.

AU - Sahin, Aysegul

AU - Chang, Jenny C.

N1 - Funding Information: Acknowledgments This study was funded by P50CA116199 grant from the National Cancer Institute (GNH, with a career development award to WTY). This study was supported in part by the Breast Cancer Research Foundation (JCC), the Emma Jacobs Clinical Breast Cancer Fund (JCC), the NCI Breast Cancer SPORE P50 CA50183 (JCC, MTL),1 R01 CA112305-01 from the National Cancer Institute (JCC), P30 CA125123 from the National Institute of Health (JCC).

PY - 2010/1

Y1 - 2010/1

N2 - High mammographic density is associated with a increased risk of breast cancer. We hypothesized that specific pathways exist that are associated with increased mammographic density, and may therefore be used to identify potential targets for chemoprevention. Histologically confirmed normal breast tissue was collected from women undergoing breast surgery who had available demographic data and mammograms for review. Women with low versus high mammographic breast density were compared. Differentially expressed genes using Affymetrix HG U133Plus2 chips were identified in dense versus non-dense tissue. Immunohistochemical analysis (IHC) of estrogen receptor, progesterone receptor, Ki67, and COX2 expression was performed. About 66 women were identified, 28 (42%) had high, and 38 (58%) had low mammographic density. About 73 genes had differential expression between normal breast tissue with high and low mammographic density (P < 0.001, fold change ≥1.5with a low false discovery rate (<10%). Network and canonical pathway analysis indicated decreased TGFβ signaling (TGFBR2, SOS, SMAD3, CD44 and TNFRSF11B) in dense breast tissue relative to non-dense breast. By IHC, only COX2 expression in the stroma was statistically significant on multivariate analysis. TGFβ ligands are currently the only growth factors known to prevent mammary epithelial cell proliferation. TGFβ signaling has been reported to be inhibited by COX-2, and these molecules are highly differentially expressed in individuals at high risk of developing breast cancer. These results strongly suggest that COX2 inhibition should be investigated for breast cancer prevention despite possible increase in cardiovascular risk.

AB - High mammographic density is associated with a increased risk of breast cancer. We hypothesized that specific pathways exist that are associated with increased mammographic density, and may therefore be used to identify potential targets for chemoprevention. Histologically confirmed normal breast tissue was collected from women undergoing breast surgery who had available demographic data and mammograms for review. Women with low versus high mammographic breast density were compared. Differentially expressed genes using Affymetrix HG U133Plus2 chips were identified in dense versus non-dense tissue. Immunohistochemical analysis (IHC) of estrogen receptor, progesterone receptor, Ki67, and COX2 expression was performed. About 66 women were identified, 28 (42%) had high, and 38 (58%) had low mammographic density. About 73 genes had differential expression between normal breast tissue with high and low mammographic density (P < 0.001, fold change ≥1.5with a low false discovery rate (<10%). Network and canonical pathway analysis indicated decreased TGFβ signaling (TGFBR2, SOS, SMAD3, CD44 and TNFRSF11B) in dense breast tissue relative to non-dense breast. By IHC, only COX2 expression in the stroma was statistically significant on multivariate analysis. TGFβ ligands are currently the only growth factors known to prevent mammary epithelial cell proliferation. TGFβ signaling has been reported to be inhibited by COX-2, and these molecules are highly differentially expressed in individuals at high risk of developing breast cancer. These results strongly suggest that COX2 inhibition should be investigated for breast cancer prevention despite possible increase in cardiovascular risk.

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Decreased TGFβ signaling and increased COX2 expression in high risk women with increased mammographic breast density

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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