Authors: Xin-Sheng Deng, Shuiliang Wang, Anlong Deng, Bolin Liu, Susan M. Edgerton, Stuart E. Lind, Reema Wahdan-Alaswad and Ann D. Thor

Xin-Sheng Deng

Shuiliang Wang

Department of Pathology; University of Colorado Denver; Denver, CO USA

Anlong Deng

Department of Pediatrics and Barbara Davis Center for Childhood Diabetes; University of Colorado Denver; Denver, CO USA

Bolin Liu

Department of Pathology; University of Colorado Denver; Denver, CO USA

Susan M. Edgerton

Department of Pathology; University of Colorado Denver; Denver, CO USA

Stuart E. Lind

Departments of Medicine and Pathology; University of Colorado Denver; Denver, CO USA

Reema Wahdan-Alaswad

Department of Pathology; University of Colorado Denver; Denver, CO USA

Ann D. Thor

Corresponding author: ann.thor@ucdenver.edu
Department of Pathology; University of Colorado Denver; Denver, CO USA

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Abstract:

A distinct group of breast cancers, called “basal” or “triple-negative” (TN) cancers express both basal cytokeratins and the epidermal growth factor receptor, but fail to express estrogen receptors, progesterone receptors or HER2 and have stem-like or mesenchymal features. They are particularly aggressive, are frequently chemo-resistant, with p53 mutation, up-regulation of IL-6 and Stat3. Because TN cells are particularly sensitive to the anti-diabetic agent metformin, we hypothesized that it may target JAK2/Stat3 signaling. The effects of metformin upon Stat3 expression and activation were examined in four human TN cell lines. Metformin’s effects were also studied in sublines with forced over-expression of constitutively active (CA) Stat3, as well as lines with stable knockdown of Stat3. Metformin inhibited Stat3 activation (P-Stat3) at Tyr705 and Ser727 and downstream signaling in each of the four parental cell lines. CA-Stat3 transfection attenuated, whereas Stat3 knockdown enhanced, the effects of metformin upon growth inhibition and apoptosis induction. A Stat3 specific inhibitor acted synergistically with metformin in reducing cell growth and inducing apoptosis. An mTOR inhibitor showed no significant interaction with metformin. In summary, Stat3 is a critical regulator of metformin action in TN cancer cells, providing the potential for enhancing metformin’s efficacy in the clinical setting.