Localisation and regulation of 17beta-hydroxysteroid dehydrogenase type 3 mRNA during development in the mouse testis.

The final step in the biosynthesis of testosterone is the reduction of androstenedione to testosterone catalysed by the enzyme 17beta-hydroxysteroid dehydrogenase (17betaHSD). Five isoforms of the enzyme have been identified in the mouse and the type 3 isoform has been shown to be the predominant reductive form present in the adult human and mouse testis. In this study the regulation of 17betaHSD type 3 isoform mRNA levels and the cellular localisation of the enzyme mRNA have been studied in the mouse testis. To examine regulation of 17betaHSD type 3 mRNA expression in the testis, mRNA levels were measured during development in normal mice and in mice lacking circulating gonadotrophins (hpg) or functional androgen receptors (Tfm). In these mutants testicular descent does not occur at the normal time (25 days) and control animals were, therefore, rendered cryptorchid at 19 days. In neonatal mice, it has been shown a peak of type 3 expression occurs around day 5 and this was found to be normal in all groups in the current study. In normal animals there was a marked increase in type 3 isoform expression between 25 and 30 days and this continued into adulthood. In cryptorchid animals the increase in type 3 mRNA levels after 25 days was less marked than in untreated controls and by 90 days was about 15% of normal animals. In Tfm mice, levels of 17betaHSD type 3 mRNA failed to show any increase around puberty (25 days) and in adult Tfm mice, levels were less than 1% of cryptorchid controls. In hpg mice, levels of type 3 mRNA increased slowly after puberty and were about 30% of cryptorchid controls by 90 days. Studies using in situ hybridisation showed that the type 3 isoform was expressed only in the interstitial tissue of the adult normal mouse testis. No specific hybridisation could be determined in adult hpg or Tfm testes. Results show that 17betaHSD type 3 is an interstitial enzyme in the testis and is, probably, localised in the Leydig cells. During neonatal development expression of 17betaHSD type 3 is independent of gonadotrophin action while the increase in type 3 expression at puberty is primarily dependent upon androgen action although testicular descent and gonadotrophins are also required.