Expression of 3beta-hydroxysteroid dehydrogenase type I and type VI isoforms in the mouse testis during development.

Six isoforms of the enzyme 3beta-hydroxysteroid dehydrogenase (3betaHSD) have been identified in the mouse, each the product of a distinct gene. Two of these isoforms (type I and type VI) are detectable in the adult testis but changes in their expression during development are unknown. In this study we have examined changes in testicular expression and localization of mRNA encoding the type I and type VI isoforms of 3betaHSD. Total 3betaHSD (type I plus type VI) mRNA was measured by reverse transcription-polymerase chain reaction and showed a peak of expression at day 5 after birth followed by a decline and then a further rise after day 10 that continued up to adulthood. When each isoform was measured individually it was clear that the type I isoform was expressed at all ages from embryonic day 13 to adulthood. In contrast, the type VI isoform was only expressed at significant levels during fetal life on embryonic day 13 and then not again until after day 10 postnatally. Expression of the type VI isoform mRNA increased markedly after day 10 so that by adulthood it was the predominant 3betaHSD isoform present in the testis. Closer examination of the timing of type VI expression showed that the isoform mRNA was first detectable at a significant level on day 11. In-situ hybridization confirmed that the type I isoform is the only one expressed in the fetal/neonatal animal and showed that expression was limited to the interstitial tissue. In the adult, both type I and type VI expression was within the interstitial tissue. The timing of 3betaHSD type VI mRNA expression suggests, strongly, that this isoform is expressed only by adult-type Leydig cells in the mouse testis and that this development starts shortly before day 11. The limited expression of the type VI isoform means that it will be a useful marker in studies of adult Leydig cell development.

Sequence of mouse 17beta-hydroxysteroid dehydrogenase type 3 cDNA and tissue distribution of the type 1 and type 3 isoform mRNAs.

The enzyme 17beta-hydroxysteroid dehydrogenase (17betaHSD) interconverts 17-ketosteroids and 17beta-hydroxysteroids. Five isoforms of the enzyme have been identified in the human, two of which (types 1 and 3) have been shown to catalyse the reduction reaction preferentially. The cDNA encoding mouse 17betaHSD type 3 was isolated from testis cDNA using the RACE technique and primers based on the human sequence. The mouse protein is 305 amino acids in length which is five short of the human protein with four of these amino acids missing at the N-terminus. The predicted amino acid sequence is 72.5% identical and 94.8% similar to the human sequence. Tissue distribution of mRNA encoding both types 1 and 3 17betaHSD was studied using reverse transcription and the polymerase chain reaction (RT-PCR). Highest levels of type 1 mRNA were found in the ovary whereas highest levels of type 3 were in the testis. All other tissues tested contained mRNA encoding both isoforms of the enzyme although levels were markedly lower than in the gonads.