Androgen receptor (AR) is a member of the nuclear receptor superfamily which acts as a ligand-dependent transcription factor (Beato, M., Herrlich, P., Schütz, 1989. Steroid hormone receptors: many actors in search of a plot. Cell 83, 851-857). It plays a pivotal role in sexual development and reproduction (Wilson, J.D., Griffin, J.E., George, F.W., Leshin, M., 1981. The role of gonadal steroids in sexual differentiation. Rec. Prog. Horm. Res. 37, 1-39; Jost, A., 1990. Hormonal control of the masculinization of the body. In: Baulieu, E.E., Kelly, D.A., (Eds.), Hormones, from Molecules to Disease. Chapman and Hall, New York and London, pp. 439-442.). Mutations in the AR sequence cause a number of physiological disorders, such as partial and complete androgen insensitivity syndromes, that lead to abnormal sexual development (Patterson, M.N., McPhaul, M.J., Hughes, I.A., 1994. Androgen insensitivity syndrome. Ballière's Clin. Endocrinol. Metab. 8, 379-404.). There are indications that AR may also have other functions. For example, structural alterations of the AR sequence have been implicated in prostate cancer (Visakorpi, T., Huytinen, E., Koivisto, P., Tanner, M., Keinänen, R., Palmberg, C., Palotie, A., Tammela, T., Isola, J., Kallioniemi, O.-P., 1995. In vivo amplification of the androgen receptor gene and progression of human prostate cancer. Nature Genet. 9, 401-406.) and in the development of spinal and bulbar muscular atrophy, a neurodegenerative disease (Kennedy, W.R., Alter, M., Sung, J.H., 1968. Progressive proximal spinal and bulbar muscular atrophy of late onset: a sex-linked recessive trait. Neurology 18, 671-680.). Here, we have investigated the spatial and temporal expression of AR during mouse organogenesis by in situ hybridisation. We demonstrate that AR transcripts occur in the developing external genitalia, pituitary, adrenals, kidneys and musculus levator ani, in addition to the known expression sites in the Wolffian ducts and its derivatives and during development of the mammary glands.
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