Abstract
The results of prior in vitro studies indicated that spironolactone (SL) caused far greater degradation of cytochromes P-450 in the outer (zona glomerulosa plus zona fasciculata) than inner (zona reticularis) zone of the guinea pig adrenal cortex and selectively decreased microsomal 17 alpha-hydroxylase activity. Studies were done to determine if the effects of SL in vivo were similarly zone and/or enzyme selective. Administration of high doses of SL (100 mg/kg) to guinea pigs altered the gross appearance of the adrenal glands and caused declines in 17 alpha- and 21-hydroxylase activities in both inner and outer zone microsomal preparations. The losses in enzyme activities were accompanied by decreases in microsomal cytochrome P-450, cytochrome b5 and heme concentrations, and in mitochondrial P-450 levels in both zones. Microsomal P-450(17 alpha) apoprotein levels were also decreased in both zones. A lower dose (25 mg/kg) of SL did not affect adrenal morphology, but decreased microsomal P-450 levels in both zones. Neither mitochondrial P-450 nor microsomal b5 concentrations were affected in either zone. 17 alpha-Hydroxylase activities and P-450(17 alpha) apoprotein concentrations in both zones were decreased by the lower dose of SL, but 21-hydroxylase activity declined in the inner zone only. The results indicate that very high doses of SL have a variety of nonspecific effects on the adrenals which may be the consequence of drug toxicity. Nontoxic doses exert more selective effects on microsomal cytochromes P-450 in both adrenal zones, more closely mimicking the in vitro actions of the drug.
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