Prostate tumorigenesis is coupled with an early metabolic switch in transformed prostate epithelial cells that effectively increases their mitochondrial bioenergetic capacity. The synthetic retinoid N-(4-hydroxyphenyl)retinamide (4HPR) inhibits prostate cancer development in vivo, and triggers reactive oxygen species (ROS)-dependent prostate cancer cell apoptosis in vitro. The possibility that 4HPR-induced ROS production is associated with mitochondrial bioenergetics and required for apoptosis induction in transformed prostate epithelial cells in vitro would advocate a prospective mechanistic basis for 4HPR-mediated prostate cancer chemoprevention in vivo. We investigated this tenet by comparing and contrasting 4HPR's effects on premalignant PWR-1E and malignant DU-145 human prostate epithelial cells. 4HPR promoted a dose- and/or time-dependent apoptosis induction in PWR-1E and DU-145 cells, which was preceded by and dependent on an increase in mitochondrial ROS production. In this regard, the PWR-1E cells were more sensitive than the DU-145 cells, and they consumed roughly twice as much oxygen as the DU-145 cells suggesting oxidative phosphorylation was higher in the premalignant cells. Interestingly, increasing the [Ca(2+)] in the culture medium of the PWR-1E cells attenuated their proliferation as well as their mitochondrial bioenergetic capacity and 4HPR's cytotoxic effects. Correspondingly, the respiration-deficient derivatives (i.e., rho(0) cells lacking mitochondrial DNA) of DU-145 cells were markedly resistant to 4HPR-induced ROS production and apoptosis. Together, these observations implied that the reduction of mitochondrial bioenergetics protected PWR-1E and DU-145 cells against the cytotoxic effects of 4HPR, and support the concept that oxidative phosphorylation is an essential determinant in 4HPR's apoptogenic signaling in transformed human prostate epithelial cells.
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| http://dx.doi.org/10.1007/s10495-009-0356-4 | DOI Listing |
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