Abstract
Androgen signaling via the androgen receptor (AR) is involved in normal prostate development and prostate cancer progression. In addition to androgen binding, a variety of protein kinases, including cyclic AMP-dependent protein kinase A (PKA), can activate the AR. Although hormone deprivation, especially that of androgen, continues to be an important strategy for treating prostate cancer patients, the disease ultimately progresses to castration-resistant prostate cancer (CRPC), despite a continuous hormone-deprived environment. To date, it remains unclear which pathways in this progression are active and targetable. Here, we performed a proteomic analysis of VCaP cells stimulated with androgen or forskolin to identify proteins specific for androgen-induced and androgen-bypassing signaling, respectively. Patterns of differentially expressed proteins were quantified, and eight proteins showing significant changes in expression were identified. Functional information, including a Gene Ontology analysis, revealed that most of these proteins are involved in metabolic processes and are associated with cancer. The mRNA and protein expression of selected proteins was validated, and functional correlations of identified proteins with signaling in VCaP cells were assessed by measuring metabolites related to each enzyme. These analyses offered new clues regarding effector molecules involved in prostate cancer development, insights that are supported by the demonstration of increased expression levels of the eight identified proteins in prostate cancer patients and assessments of the progression-free interval. Taken together, our findings show that aberrant levels of eight proteins reflect molecular changes that are significantly regulated by androgen and/or PKA signaling pathways, suggesting possible molecular mechanisms of CRPC.
Highlights
Prostate cancer is the most common cancer and the second leading cause of cancer death among men
Differential expression has been determined in prostate cancer cells stimulated with androgen-induced or protein kinase A (PKA)-induced androgen receptor (AR) signaling by treating cells with DHT or FSK, respectively [33,34,35]
Expressed proteins between proteomes obtained from control cells and DHT- or FSK-treated cells were assessed by performing a spot-by-spot analysis of the intensity of each protein spot in 2DE gels
Summary
Prostate cancer is the most common cancer and the second leading cause of cancer death among men. Between 1973 and 2013, prostate cancer incidence rates increased in all parts of the world [1]. 70–80% of prostate cancer cases can be completely cured through surgery and castration therapy. Hormone (androgen) deprivation is an important approach for treating prostate cancer patients. After 6 to 36 months of androgen-deprivation therapy (ADT), prostate cancer recurs in 20% of cases and develops into intractable castration-resistant prostate cancer (CRPC) [2,3], implying the involvement of other androgen-independent signaling pathways in CRPC progression. Studies undertaken to understand the mechanism of CRPC development have indicated the active involvement of the androgen axis in CRPC growth [3,4,5,6]. Research reported that intratumoral androgens are synthesized in situ and that their metabolism contributes
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