Ciglitazone prevents and reverses dexamethasone-induced hyperglycemia in female viable yellow mice.

Hypercorticism has been observed in numerous obese and diabetic animal models. Adrenalectomy reduces adiposity, hyperglycemia, hyperinsulinemia, and insulin resistance in these animals. The effects of adrenalectomy can be reversed by glucocorticoid replacement. Male and female viable yellow mice share all phenotypic expressions caused by the viable yellow mutation except that males are hyperglycemic and most females are either normoglycemic or only mildly hyperglycemic. The mechanisms that protect female viable yellow mice from hyperglycemia are not known. Implantation of dexamethasone pellets induced hyperglycemia in female viable yellow mice but had no effect on blood glucose of male viable yellow mice and male and female normal mice. The duration of dexamethasone-induced hyperglycemia correlated to the time endogenous plasma corticosterone levels were suppressed. Plasma insulin levels rose in normal mice but only transiently in viable yellow mice. Ciglitazone prevented and reversed dexamethasone-induced hyperglycemia in female viable yellow mice. Since female viable yellow mice, similar to male viable yellow mice, are obese, hyperinsulinemic and insulin resistant, and since dexamethasone is known to cause insulin resistance, these data suggest that dexamethasone increased insulin resistance to a degree that the protective mechanism was overwhelmed and hyperglycemia was induced. Ciglitazone, a compound known to improve insulin sensitivity, may prevent and reverse dexamethasone-induced hyperglycemia by ameliorating the additional insulin resistance caused by dexamethasone. On a molecular level, since dexamethasone suppresses glucose transport, an insulin-sensitive process in many tissues, whereas ciglitazone and other thiazolidinediones facilitate glucose transport, it is possible that ciglitazone prevents and reverses dexamethasone-induced hyperglycemia by regulating the glucose transport systems in insulin-sensitive tissues.