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  2. Plumbagin improves the efficacy of androgen deprivation therapy in prostate cancer: A pre-clinical study

Plumbagin improves the efficacy of androgen deprivation therapy in prostate cancer: A pre-clinical study

  • Prostate. 2017 Dec;77(16):1550-1562. doi: 10.1002/pros.23428.
Parisa Abedinpour 1 Véronique T Baron 1 Adrian Chrastina 1 Gaelle Rondeau 1 Jennifer Pelayo 1 John Welsh 1 Per Borgström 1
Affiliations

Affiliation

  • 1 Vaccine Research Institute of San Diego (VRISD), San Diego Science Center, San Diego, California.
Abstract

Background: Plumbagin is a candidate drug for the treatment of prostate Cancer. Previous observations indicated that it may improve the efficacy of androgen deprivation therapy (ADT). This study evaluates the effectiveness of treatment with combinations of plumbagin and alternative strategies for ADT in mouse models of prostate Cancer to support its clinical use.

Methods: Plumbagin was administered per oral in a new sesame oil formulation. Standard toxicology studies were performed in rats. For tumor growth studies, mouse prostate Cancer cell spheroids were placed on top of grafted prostate tissue in a dorsal chamber and allowed to form tumors. Mice were separated in various treatment groups and tumor size was measured over time by intra-vital microscopy. Survival studies were done in mice after injection of prostate Cancer cells in the prostate of male Animals. Androgen Receptor (AR) levels were analyzed by Western blot from prostate Cancer cells treated with plumbagin.

Results: Plumbagin caused a decrease in AR levels in vitro. In mice, plumbagin at 1 mg/kg in sesame oil displayed low toxicity and caused a 50% tumor regression when combined with castration. The combination of plumbagin with various forms of chemical ADT including treatment with a GnRH Receptor Agonist, a GnRH Receptor antagonist, or CYP17A1 inhibitors, outperformed ADT alone, increasing mouse survival compared to the standard regimen of castration alone. In contrast, the combination of plumbagin with AR antagonists, such as bicalutamide and enzalutamide, showed no improvement over AR antagonists alone. Thus, plumbagin is effective in combination with drugs that prevent the synthesis of testosterone or its conversion to dihydrotestosterone, but not with drugs that bind to AR.

Conclusion: Plumbagin significantly improves the effect of ADT drugs currently used in the clinic, with few side effects in mice.

Keywords

androgen deprivation therapy; combination therapy; dorsal chamber model; intravital microscopy; plumbagin; prostate cancer.

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