Androgens are pivotal regulators of prostate cell growth, differentiation and function, and their actions are believed to be involved in prostate cancer development. The androgen-signaling pathway in the prostate gland is therefore one of the possible sites of intervention in prostate cancer prevention efforts. The central element of androgen signaling in the cell is the androgen receptor (AR), a member of the superfamily of nuclear receptors. Binding of androgen to its ligand-binding domain transforms the receptor to an active transcription factor that regulates gene expression by interacting with specific regulatory elements in the promoters of genes. In addition to this genomic action, the AR also interacts with other signaling pathways through protein-protein interaction, for example with AP-1 or Ets transcription factors. It is not only the action of androgenic hormones, but also the interactions with growth factor and protein kinase A-signaling pathways that can induce activation of AR. Moreover, these ligand-independent activators act synergistically together with low concentrations of androgens. The effects of long-term androgen deprivation on androgen signaling have been investigated in the LNCaP cell culture system. Long-term culture in a steroid-free medium results in a subline showing a hyperreactive AR characterized by increased AR expression and enhanced AR transcriptional activity in an environment with low levels of androgen hormones. It is not yet clear if similar changes also occur in normal or premalignant prostate epithelial cells and are thus relevant for prevention trials which interfere with androgen hormone signaling.