Targeting AKT/mTOR and ERK MAPK signaling inhibits hormone-refractory prostate cancer in a preclinical mouse model
Carolyn Waugh Kinkade, Mireia Castillo-Martin, Anna Puzio-Kuter, Jun Yan, Thomas H. Foster, Hui Gao, Yvonne Sun, Xuesong Ouyang, William L. Gerald, Carlos Cordon-Cardo, Cory Abate-Shen
Carolyn Waugh Kinkade, Mireia Castillo-Martin, Anna Puzio-Kuter, Jun Yan, Thomas H. Foster, Hui Gao, Yvonne Sun, Xuesong Ouyang, William L. Gerald, Carlos Cordon-Cardo, Cory Abate-Shen
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Research Article

Targeting AKT/mTOR and ERK MAPK signaling inhibits hormone-refractory prostate cancer in a preclinical mouse model

Abstract

The AKT/mammalian target of rapamycin (AKT/mTOR) and ERK MAPK signaling pathways have been shown to cooperate in prostate cancer progression and the transition to androgen-independent disease. We have now tested the effects of combinatorial inhibition of these pathways on prostate tumorigenicity by performing preclinical studies using a genetically engineered mouse model of prostate cancer. We report here that combination therapy using rapamycin, an inhibitor of mTOR, and PD0325901, an inhibitor of MAPK kinase 1 (MEK; the kinase directly upstream of ERK), inhibited cell growth in cultured prostate cancer cell lines and tumor growth particularly for androgen-independent prostate tumors in the mouse model. We further showed that such inhibition leads to inhibition of proliferation and upregulated expression of the apoptotic regulator Bcl-2–interacting mediator of cell death (Bim). Furthermore, analyses of human prostate cancer tissue microarrays demonstrated that AKT/mTOR and ERK MAPK signaling pathways are often coordinately deregulated during prostate cancer progression in humans. We therefore propose that combination therapy targeting AKT/mTOR and ERK MAPK signaling pathways may be an effective treatment for patients with advanced prostate cancer, in particular those with hormone-refractory disease.

Authors

Carolyn Waugh Kinkade, Mireia Castillo-Martin, Anna Puzio-Kuter, Jun Yan, Thomas H. Foster, Hui Gao, Yvonne Sun, Xuesong Ouyang, William L. Gerald, Carlos Cordon-Cardo, Cory Abate-Shen

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Figure 2

Rapamycin and PD0325901 display strong synergism in cell culture.

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Rapamycin and PD0325901 display strong synergism in cell culture. (A–D) ...
(AD) Analyses of IC50 plots for the single agents (A and B) and the combination agents (C and D). (E) Graphic representation of the CI for rapamycin and PD0325901. These data are shown for CASP 1.1 cells; similar results were obtained for CASP 2.1 cells (not shown). Note that CI values were well below 0.1, indicating strong synergism of the drugs. (F and G) Bim is upregulated in response to drug treatment. CASP 1.1 or CASP 2.1 cells were transfected with a control or Bim siRNAi, followed by treatment with vehicle or the indicated compounds in the medium for 48 hours. (F) Western blot analyses done on whole cell extracts using the indicated antibodies or a control for protein loading (Ponceau S staining). (G) Results of MTT assays, indicating the enhanced cell survival in the drug-treated cells following treatment with Bim siRNAi. The P values compare the control (siCont) and the Bim siRNAi (siBim) in each group. Data are expressed as mean ± SEM.