Abstract
Progesterone increases urinary sodium excretion at least in part by competition for renal mineralocorticoid receptors. In contrast, synthetic progestagens do not increase sodium excretion or even cause a slight sodium retention. We therefore compared the ability of progesterone and 12 progesterone like compounds to displace [3H]aldosterone from binding at cytoplasmic mineralocorticoid receptors in rat kidney. All synthetic progesteronelike steroids were less active than progesterone in competing with [3H]aldosterone for the receptor binding: progesterone 100%, 11 beta-OH progesterone 50%, 17 alpha OH-progesterone 24% and 16 alpha-methyl-progesterone 3%. Derivates of 17 alpha OH-progesterone (medrogestone 5%, dydrogestone 4%, medroxy progesterone-acetate 2% and chlormadinone-acetate 0.5%) were more potent than 19-nor-testosterone derivates: ethisterone 1%, norethisterone less than 1%, norethindrone less than 1%, norethyl-nodrel less than 1%, and ethynodiol-diacetate less than 1%. The decreased affinity of synthetic progestins for mineralocorticoid receptors explains in part the lack of natriuretic activity of these compounds.
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