Abstract
We previously reported the selective loss of AKR1C2 and AKR1C1 in prostate cancers compared with their expression in paired benign tissues. We now report that dihydrotestosterone (DHT) levels are significantly greater in prostate cancer tumors compared with their paired benign tissues. Decreased catabolism seems to account for the increased DHT levels as expression of AKR1C2 and SRD5A2 was reduced in these tumors compared with their paired benign tissues. After 4 h of incubation with benign tissue samples, (3)H-DHT was predominantly catabolized to the 5alpha-androstane-3alpha,17beta-diol metabolite. Reduced capacity to metabolize DHT was observed in tumor samples from four of five freshly isolated pairs of tissue samples, which paralleled loss of AKR1C2 and AKR1C1 expression. LAPC-4 cells transiently transfected with AKR1C1 and AKR1C2, but not AKR1C3, were able to significantly inhibit a dose-dependent, DHT-stimulated proliferation, which was associated with a significant reduction in the concentration of DHT remaining in the media. R1881-stimulated proliferation was equivalent in all transfected cells, showing that metabolism of DHT was responsible for the inhibition of proliferation. PC-3 cells overexpressing AKR1C2 and, to a lesser extent, AKR1C1 were able to significantly inhibit DHT-dependent androgen receptor reporter activity, which was abrogated by increasing DHT levels. We speculate that selective loss of AKR1C2 in prostate cancer promotes clonal expansion of tumor cells by enhancement of androgen-dependent cellular proliferation by reducing DHT metabolism.
Highlights
Prostate cancer is the second leading cause of cancer-related deaths among men and has a major effect on the health of older Americans [1]
The clinical importance of this pathway was amply shown in a successful chemopreventive trial in which blocking the prostatic conversion of circulating testosterone to DHT by finasteride, a SRD5A2 inhibitor, led to a significant 24.8% reduction of the incidence of prostate cancer in those treated with the inhibitor compared with the control group [7]
Using prostate cancer cell lines, we have found that increased AKR1C2 or AKR1C1, but not AKR1C3, could inhibit DHT-stimulated growth and androgen receptor (AR)
Summary
Prostate cancer is the second leading cause of cancer-related deaths among men and has a major effect on the health of older Americans [1]. Androgens are essential for prostate cancer development, and their elimination and blockade remain the. All tissue procurements were done by the University of Southern California/Norris Comprehensive Cancer Center Translational Pathology Core Facility. Doi:10.1158/0008-5472.CAN-06-1593 cornerstone of medical management since Huggins first showed symptomatic response and regression of prostate cancer after androgen elimination [2, 3]. Dihydrotestosterone (DHT) is the key ligand for the androgen receptor (AR) in the prostate and is locally synthesized predominately from circulating testosterone by 5asteroid reductase type II The clinical importance of this pathway was amply shown in a successful chemopreventive trial in which blocking the prostatic conversion of circulating testosterone to DHT by finasteride, a SRD5A2 inhibitor, led to a significant 24.8% reduction of the incidence of prostate cancer in those treated with the inhibitor compared with the control group [7].
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