Abstract

Abstract The American Cancer Society estimates that over 200,000 new cases of invasive breast cancer and over 40,000 deaths are expected among women in United States each year. Despite advances in chemotherapy and hormonal treatment, at the present time, metastatic breast cancer remains an incurable disease. Although a large number of chemotherapeutic agents have been developed that are able to cause the regression of metastatic breast cancers, these tumors almost always recur following chemotherapy treatment. It is possible that breast cancer stem cells or breast cancer initiating cells are responsible for the drug-resistance, metastasis, and recurrence of cancer. Constitutive activation of Signal Transducers and Activators of Transcription 3 (STAT3) signaling is frequently detected in many types of cancers, including breast cancer, and has emerged as an attractive molecular target for cancer treatment. However, whether or not STAT3 is activated in breast cancer stem cells and what role STAT3 signaling plays in cancer stem cells is still unknown. If STAT3 is activated in breast cancer stem cells, targeting STAT3 may offer a promising opportunity to eliminate breast cancer stem cells and prevent the recurrence of cancer. We examined STAT3 activation in breast cancer stem cells, which are characterized by an aldehyde dehydrogenase (ALDH)-positive subpopulation. Interestingly, we observed that the ALDH-positive subpopulation of breast cancer cells expressed higher levels of phosphorylated STAT3, an active form of STAT3, as compared to the ALDH-negative subpopulation and un-separated breast cancer cells, suggesting that STAT3 is activated in breast cancer stem cells. We also demonstrated that a novel STAT3 inhibitor, LLL12, inhibited STAT3 phosphorylation, cell viability, STAT3 downstream target gene expression, and induced apoptosis in breast cancer stem cells. In addition, the STAT3 inhibitors Stattic and LLL12 reduced ALDH-positive subpopulation and inhibited their tumorsphere forming capacity. Furthermore, in our pilot study in a mouse tumor model using breast cancer stem cells, we demonstrated that LLL12 can suppress tumor growth in vivo. This is the first report to demonstrate that persistent STAT3 phosphorylation is expressed in breast cancer stem cells and that this subpopulation of breast cancer stem cells is sensitive to STAT3 inhibitors. Our results suggest that STAT3 is a novel therapeutic target in breast cancer stem cells and inhibition of activated STAT3 in cancer stem cells may offer a more effective treatment for breast cancer. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):A54.

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