We have used in vitro techniques to study the metabolism of dexamethasone. Tissue slices, homogenates and microsomal fractions of various mammalian organs from rats and humans have been used. We focused particularly on the question of whether or not dexamethasone (Dexa) is oxidized at the C11-OH group by 11β-hydroxysteroid-dehydrogenase. High activities of this enzyme system for Dexa were localized in renal cortex and rectum. Material from both human and murine liver was ineffective. The main metabolite formed from Dexa in renal and intestinal systems was identified by different mass-spectrometric techniques including on line HPLC mass spectrometry as 11-dehydro-dexamethasone. This finding was corroborated by the observation that both corticosterone and glycyrrhetinic acid block the metabolic transformation of Dexa.
Immobilization of limbs of aged animals is associated with swift muscular damage and atrophy. We investigated the effect of rat growth hormone (rGH) on immobilized hindlimb muscles of 26-mo-old rats. Administration of rGH significantly reduced muscle weight loss and muscle protein oxidation caused by immobilization. Capillary blood volume, measured by photoplethysmography of the hindlimb, showed a 34% reduction in immobilized animals, which was eliminated by rGH. The activity of creatine phosphokinase in immobilized gastrocnemius muscle was significantly reduced by immobilization. This damage was diminished by rGH administration. Similarly, the increase in acid phosphatase activity in immobilized muscle was reduced after rGH treatment. Morphologically, marked muscle atrophy and fiber disorientation were observed in immobilized limbs. Therapy with rGH prevented some of these changes. These results indicate that administration of rGH may provide a useful means to attenuate the degenerative effects of limb immobilization of aged rats, as evident from physiological, biochemical, and morphological parameters.
IK and STF from male and female rats have been used to study in vitro the renal metabolism of B. in male rat tissue four lipid soluble metabolites (I-IV) have been found, I + II being more polar and III + IV being less polar than B. I and II have been identified as 11-dehydro-20-hydroxy-B and 20-hydroxy-B. The structure of III and IV remains to be determined. Renal tissue from female rats produced predominantly III indicating sexual variations of steroid metabolism in kidneys.--The literature has been reviewed which documents that the kidneys in addition to B metabolize A, cortisol, progesterone and other corticosteroids.
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