Abstract
The cold and menthol receptor TRPM8 is highly expressed in prostate and prostate cancer (PC). Recently, we identified that TRPM8 is as an ionotropic testosterone receptor. The TRPM8 mRNA is expressed in early prostate tumors with high androgen levels, while anti-androgen therapy greatly reduces its expression. Here, from the chromatin-immunoprecipitation (ChIP) analysis, we found that an androgen response element (ARE) mediates androgen regulation of trpm8. Furthermore, using immunofluorescence, calcium-imaging and planar lipid bilayers, we identified that TRPM8 channel is functionally regulated by androgens in the prostate. Although TRPM8 mRNA is expressed at high levels, we found that the TRPM8 protein undergoes ubiquitination and degradation in PC cells. The mass-spectrometry analysis of TRPM8, immunoprecipitated from LNCaP cells identified ubiquitin-like modifier-activating enzyme 1 (UBA1). PYR-41, a potent inhibitor of initial enzyme in the ubiquitination cascade, UBA1, increased TRPM8 activity on the plasma membrane (PM) of LNCaP cells. Furthermore, PYR-41-mediated PMTRPM8 activity was accompanied by enhanced activation of p53 and Caspase-9. Interestingly, we found that the trpm8 promoter possesses putative binding sites for p53 and that the overexpression of p53 increased the TRPM8 mRNA levels. In addition to the genomic regulation of TRPM8 by AR and p53, our findings indicate that the testosterone-induced PMTRPM8 activity elicits Ca2+ uptake, subsequently causing apoptotic cell death. These findings support the strategy of rescuing PMTRPM8 expression as a new therapeutic application through the regulation of PC cell growth and proliferation.
Highlights
prostate cancer (PC) is one of the most common malignancies and the second leading cause of cancer-related death in American men [1]
PYR-41-mediated PMTRPM8 activity was accompanied by enhanced activation of p53 and Caspase-9
We found that the levels of TRPM8 were abundant in LNCaP, RWPE1 and RWPE2 cells, when compared to androgen-unresponsive DU145 and PC3 cells
Summary
PC is one of the most common malignancies and the second leading cause of cancer-related death in American men [1]. The majority of PC is androgen-dependent and responds to androgen-deprivation therapies, which consists of reducing endogenous androgen levels or directly blocking AR activity, causing massive apoptotic cell death [3, 4]. Some cancer cells escape these therapies and relapse with androgenindependent PC that are incurable [5, 6]. This shift from an androgen-responsive characteristic towards a hormoneindependent tumor growth is not well understood [7, 8]. There is a clinical need to identify a target with anti-tumor activity effective both, during anti-androgen therapy and anti-androgen resistance
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