ORIGINAL ARTICLE

Cell Research (2006):940-948
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Selenoprotein expression is regulated at multiple levels in prostate cells

Cheryl M Rebsch, Frank J Penna III, Paul R Copeland

Correspondence: Paul R Copeland Tel: +1-732-235-4670; Fax +1-732-235-5223; E-mail: paul.copeland@umdnj.edu Received 22 September 2006; revised 1 November 2006; accepted 3 November 2006

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Selenium supplementation in a population with low basal blood selenium levels has been reported to decrease the incidence of several cancers including prostate cancer. Based on the clinical findings, it is likely that the antioxidant function of one or more selenoproteins is responsible for the chemopreventive effect, although low molecular weight seleno-compounds have also been posited to selectively induce apoptosis in transformed cells. To address the effects of selenium supplementation on selenoprotein expression in prostate cells, we have undertaken an analysis of antioxidant selenoprotein expression as well as selenium toxicity in non-tumorigenic prostate epithelial cells (RWPE-1) and prostate cancer cells (LNCaP and PC-3). Our results show that two of the glutathione peroxidase family members (GPX1 and GPX4) are highly induced by supplemental selenium in prostate cancer cells but only slightly induced in RWPE-1 cells. In addition, GPX1 levels are dramatically lower in PC-3 cells as compared to RWPE-1 or LNCaP cells. GPX2 protein and mRNA, however, are only detectable in RWPE-1 cells. Of the three selenium compounds tested (sodium selenite, sodium selenate and selenomethionine), only sodium selenite shows toxicity in a physiological range of selenium concentrations. Notably and in contrast to previous studies, RWPE-1 cells were significantly more sensitive to selenite than either of the prostate cancer cell lines. These results demonstrate that selenoproteins and selenium metabolism are regulated at multiple levels in prostate cells.

Cell Research (2006) 16:940-948. doi: 10.1038/sj.cr.7310117; published online 12 December 2006

Keywords: prostate, selenium, selenoproteins, glutathione peroxidase, selenocysteine