Biphasic 19-nor-deoxycorticosterone excretion after adrenal enucleation is associated with altered adrenal mitochondrial cytochrome P450 11 beta-, 18-, and 19-hydroxylase activities.

After adrenal enucleation (AE) rats avidly retain sodium (early phase), but after 7-10 days they lose this sodium avidity (late phase). Although increased production of a mineralocorticoid, 19-nor-deoxycorticosterone (19-Nor-DOC), has been implicated, 19-Nor-DOC levels during the early and late phases of AE have not been systematically measured. Furthermore it is not known why 19-Nor-DOC production should increase during a time when production of 11 beta- and 18-hydroxylated corticosteroids are decreased in AE. The purpose of this study was to examine the 11 beta, 18-, and 19-hydroxylase pathways in the early and late phases of AE. The results demonstrate increased urinary 19-Nor-DOC and decreased 18-OH-DOC and corticosterone excretion in the early phase of AE at a time when adrenal mitochondrial 11 beta- and 18-hydroxylase activities were decreased but 19-hydroxylase activity was unchanged. During the late phase of AE, urinary 19-Nor-DOC had decreased and 18-OH-DOC and corticosterone had increased to levels indistinguishable from those in sham controls. This reduction in 19-Nor-DOC was associated with a decrease in 19-hydroxylase activity in AE. Since the 11 beta, 18-, and 19-hydroxylases have a common substrate (DOC), it is possible that differential flux of DOC through these pathways could account for the changes in steroid production in AE. These data suggest that the increased 19-Nor-DOC excretion in AE may be due to alterations in enzyme activity leading to a shunting of DOC into the 19-Nor-DOC pathway. In addition, the synchronicity of 19-Nor-DOC with sodium excretion suggests that it has an important role in the pathogenesis of the sodium retention in AE.