Aim: In mineralocorticoid target cells 11-beta-hydroxysteroid dehydrogenase type 2 (11betaHSD2) converts glucocorticoids into non-active metabolites thereby protecting the mineralocorticoid receptor (MR) from stimulation by glucocorticoids. In nephrotic syndrome, a decreased activity of 11betaHSD2 has been suggested to allow glucocorticoids to stimulate MR, thereby contributing to sodium retention. We tested this hypothesis in the puromycin aminonucleoside model of nephrotic syndrome in rats.
Methods: Complete sodium and potassium intakes and excretions (faeces and urine) were measured in rats in metabolic cages. RNase protection assay of mRNA and Western blotting of protein were used to estimate renocortical expression of 11betaHSD2 and of the MR downstream effector serum and glucocorticoid induced kinase (SGK). In an intervention series, dexamethasone was given [10 microg (100 g bw)(-1)] to suppress endogenous glucocorticoids in the proteinuric stage during active sodium retention.
Results: Nephrotic rats developed proteinuria, positive sodium balance, decreased plasma aldosterone concentration, and decreased urinary Na(+)/K(+) ratio. 11betaHSD2 mRNA expression was down-regulated but protein expression was unchanged. SGK mRNA and phosphorylated SGK protein were up-regulated while total SGK protein expression was unchanged. Dexamethasone treatment, which suppressed plasma corticosterone concentration, did not correct sodium balance or fluid retention in nephrotic rats.
Conclusion: Our results do not support the hypothesis that stimulation of the MR by endogenous glucocorticoids induces sodium and fluid retention in experimental nephrotic syndrome in rats.