Expression of 17beta-hydroxysteroid dehydrogenase types 1, 2, 3 and 4 in the human temporal lobe.

Sex steroid hormones exert important biological effects on the brain. Moreover, an extensive sex steroid metabolism occurs in the brain. In sex steroid metabolism 17beta-hydroxysteroid dehydrogenases (17beta-HSDs) play essential roles in catalyzing the final steps in androgen and estrogen biosynthesis. Recently four types of human 17beta-HSDs and a pseudogene of the type 1 isoform were identified. To date, 17beta-HSD has not been extensively studied in the human brain. Therefore, we investigated the mRNA expression of the four isozymes of 17beta-HSD as well as the pseudogene of the type 1 isoform in the human temporal lobe to determine the predominant isoforms and, moreover, to elucidate the existence of possible sex and age differences. We studied biopsy materials from the temporal lobe of 34 women, 32 men and 10 children. Quantification of different mRNAs was achieved by competitive reverse transcription-PCR. 17beta-HSD 1, 17beta-HSD 3 and 17beta-HSD 4 were expressed in the human temporal lobe of children and adults, whereas 17beta-HSD 2 and the pseudogene of 17beta-HSD 1 were not expressed. In adults, 17beta-HSD 3 and 17beta-HSD 4 mRNA concentrations were significantly higher in the subcortical white matter (17beta-HSD 3: 14 591+/-3457 arbitrary units (aU), mean+/-s.e.m.; 17beta-HSD 4: 1201+/-212 aU) than in the cortex (17beta-HSD 3: 5428+/-1057 aU, P<0. 0002; 17beta-HSD 4: 675+/-74 aU, P<0.004). 17beta-HSD 1 concentrations did not differ significantly between the white matter (3860+/-1628 aU) and the cortex (2525+/-398 aU) of adults. In conclusion, the present study demonstrates the expression of 17beta-HSD 1, 3 and 4 mRNAs in the human temporal lobe. Together with CYP19AROM and 5alpha-reductase, known to be expressed in the human brain, the expression of 17beta-HSD 1, 3 and 4 mRNAs indicates the major importance of local steroid biosynthesis in the brain.