A syndrome is described whose features, suggestive of primary mineralcorticoid excess, included hypertension, hypokalemia, low PRA, and responsiveness to spironolactone. Aldosterone levels were subnormal but as yet there has been no evidence of overproduction of other mineralocorticoids by chemical analysis or by bioassay of plasma and urinary extracts. The steroidal abnormalities that were observed involved peripheral matabolism rather than secretion. One patient exhibited a transient delay in reduction of the 3-keto group in the A ring, and both patients exhibited a decrease in the metabolism of cortisol to biologically inactive cortisone. This was shown by the marked decrease in the excretion of urinary metabolites bearing an 11-keto group and a decrease in the oxidation of 11 alpha-[3H]cortisol to tritiated water. The defect appeared not to be a deficiency of the 11 beta-oxidoreductase system itself, since the reverse reaction of conversion of cortisone to cortisol proceeded normally, but, rater, an alteration in the equilibrium position of 11 beta-oxidoreduction in favor of the reduced form. This was also expressed by a prolongation of the half-time of disappearance of cortisol. The decrease in the MCR permitted the maintenance of normal cortisol plasma levels and normal glucocorticoid function at a diminished rate of secretion. The decreased rate of conversion of cortisol to cortisone serves as a biochemical marker of this hypertensive syndrome.
The response of two rat cell lines, Fao and MH1C1, and one human cell line, HepG2, to the peroxisome proliferator ciprofibrate, was studied. Using a fluorometric assay for palmitoyl-CoA oxidase, the dose- and time-dependent increase of this enzymatic activity was determined. From the lowest concentration (100 microM) stimulation is evident in the two rat cell lines. In the Fao line, the activity was stimulated reaching a seven-fold increase over the control level at 250 microM after 72 h of treatment. In the MH1C1 line, the maximum stimulation, four- to five-fold, was obtained at 250 and 500 microM after 72 h. In the HepG2 cell line, activity increased two-fold at 250 microM after 72 h reaching a three-fold increase at 1000 microM after 48 h. Ciprofibrate was more toxic to Fao cells than to MH1C1 and HepG2 cells which is also the order of the acyl-CoA oxidase stimulation by ciprofibrate. These preliminary results suggest that the two rat cell lines are appropriate for investigating the induction of peroxisomal beta-oxidation enzymes and the expression of their genes. The HepG2 cell line is a complementary model for the study of interspecies differences in the response to peroxisomal proliferators and of the peroxisomal functions implied in the lipid metabolism of human liver.
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