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FOXM1 mediates Dox resistance in breast cancer by enhancing DNA repair (2012)

Park, Y.-Y., Jung, S. Y., Jennings, N. B., Rodriguez-Aguayo, C., Peng, G., Lee, S.-R., Kim, S. B., Kim, K., Leem, S.-H., Lin, S.-Y., Lopez-Berestein, G., Sood, A. K., Lee, J.-S.

Oxford University Press

In: Carcinogenesis

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Publication Date: 2012-10-04

Description: Transcription factors are direct effectors of altered signaling pathways in cancer and frequently determine clinical outcomes in cancer patients. To uncover new transcription factors that would determine clinical outcomes in breast cancer, we systematically analyzed gene expression data from breast cancer patients. Our results revealed that Forkhead box protein M1 (FOXM1) is the top-ranked survival-associated transcription factor in patients with triple-negative breast cancer. Surprisingly, silencing FOXM1 expression led breast cancer cells to become more sensitive to doxorubicin (Dox). We found that FOXM1-dependent resistance to Dox is mediated by regulating DNA repair genes. We further demonstrated that NFB1 interacts with FOXM1 in the presence of Dox to protect breast cancer cells from DNA damage. Finally, silencing FOXM1 expression in breast cancer cells in a mouse xenograft model significantly sensitized the cells to Dox. Our systematic approaches identified an unexpected role of FOXM1 in Dox resistance by regulating DNA repair genes, and our findings provide mechanistic insights into how FOXM1 mediates resistance to Dox and evidence that FOXM1 may be a promising therapeutic target for sensitizing breast cancer cells to Dox.

Print ISSN: 0143-3334

Electronic ISSN: 1460-2180

Topics: Medicine

Published by Oxford University Press

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BRIT1 regulates p53 stability and functions as a tumor suppressor in breast cancer (2013)

Zhang, B., Wang, E., Dai, H., Hu, R., Liang, Y., Li, K., Wang, G., Peng, G., Lin, S.-Y.

Oxford University Press

In: Carcinogenesis

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Publication Date: 2013-10-01

Description: In humans, the gene encoding the BRCA1 C terminus-repeat inhibitor of human telomerase expression 1 (BRIT1) protein is located on chromosome 8p23.1, a region implicated in the development of several malignancies, including breast cancer. Previous studies by our group and others suggested that BRIT1 might function as a novel tumor suppressor. Thus, identifying the molecular mechanisms that underlie BRIT1’s tumor suppressive function is important to understand cancer etiology and to identify effective therapeutic strategies for BRIT1-deficient tumors. We thus investigated the role of BRIT1 as a tumor suppressor in breast cancer by using genetic approaches. We discovered that BRIT1 functions as a post-transcriptional regulator of p53 expression. BRIT1 regulates p53 protein stability through blocking murine double minute 2-mediated p53 ubiquitination. To fully demonstrate the role of BRIT1 as a tumor suppressor, we depleted BRIT1 in normal breast epithelial cells. We found that knockdown of BRIT1 caused the oncogenic transformation of normal mammary epithelial cells. Furthermore, ectopic expression of BRIT1 effectively suppressed breast cancer cell proliferation and colony formation in vitro and tumor growth in vivo . Taken together, our study provides new insights into the biological functions of BRIT1 as a tumor suppressor in human breast cancer.

Print ISSN: 0143-3334

Electronic ISSN: 1460-2180

Topics: Medicine

Published by Oxford University Press

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