Enhancement of Intermittent Androgen Ablation Therapy by Finasteride Administration in Animal Models

Abstract

One critically important problem in prostate cancer research is to find new approaches to slow down the transition of prostate cancer from an androgen-dependent state to a lethal androgen-refractory state. Intermittent androgen ablation therapy may slow down the development of androgen refractory tumors because intermittent recovery of androgens can induce differentiation of prostatic epithelial cells, However, the advantage of inducing differentiation of prostate cancer cells by intermittent recovery of androgens is compromised by the disadvantage of androgenic induction of prostate cancer cell proliferation The biologically most active androgen is dihydrotestosterone (DHT), which is converted from testosterone (T) by 5a-reductase, Our recent studies showed that T is more potent than DHT in enhancing differentiation but weaker in stimulating proliferation, which led to our hypothesis that intermittent androgen ablation therapy can be enhanced by finasteride, an inhibitor of T to DHT conversion, To test our hypothesis in animal models, it is necessary to deliver exogenous T at physiologic levels and finasteride over a long period of time, We have worked out conditions to deliver T and finasteride in nude mice, which will allow us to test our hypothesis.

Document Details

Document Type

Technical Report

Publication Date

Feb 01, 2003

Accession Number

ADA414795

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