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Vol. 300, Issue 1, 245-256, January 2002
Department of Pharmaceutical Sciences, School of Pharmacy and
Pharmaceutical Sciences, State University of New York at Buffalo,
Buffalo, New York
An array of adverse steroid effects was examined on a whole body,
tissue, and molecular level. Groups of male adrenalectomized Wistar
rats were subcutaneously implanted with Alzet mini-pumps giving
zero-order release rates of 0, 0.1, and 0.3 mg/kg/h
methylprednisolone for 7 days. The rats were sacrificed at
various times during the 7-day infusion period. A two-compartment model
with a zero order input could adequately describe the kinetics of
methylprednisolone upon infusion. Blood lymphocyte counts dropped to a
minimum by 6 h and were well characterized by the cell trafficking
model. The time course of changes in body and organ (liver, spleen,
thymus, gastrocnemius muscle, and lungs) weights was described using
indirect response models. Markers of gene-mediated steroid effects
included hepatic cytosolic free receptor density, receptor mRNA,
tyrosine aminotransferase (TAT) mRNA, and TAT levels. Our
fifth-generation model of acute corticosteroid pharmacodynamics was
used to predict the time course of receptor/gene-mediated effects. An
excellent agreement between the expected and observed receptor dynamics suggested that receptor events and mRNA autoregulation are not altered
upon 7-day methylprednisolone dosing. However, the model indicated a
decoupling between the receptor and TAT dynamics with this infusion.
The strong tolerance seen in TAT mRNA induction could be partly
accounted for by receptor down-regulation. An amplification of
translation of TAT mRNA to TAT and/or a reduction in the enzyme
degradation rate could account for the observed exaggerated TAT
activity. Our results exemplify the importance of biological signal
transduction variables in controlling receptor/gene-mediated steroid
responses during chronic dosing.
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