Varying brain insulin concentrations differentially regulate the fetal brain insulin receptor.

ABSTRACT

We investigated the downregulating effect of varying states (physiologic and pharmacologic) of systemic and intracranial hyperinsulinism on the 28 to 30 day fetal rabbit brain insulin receptor. Alloxan-induced maternal diabetes (n = 5) produced mild fetal hyperinsulinemia (D) (plasma insulin concentrations = 59.80 +/- 8.10 microU/ml, control = 26.25 +/- 3.70; p less than 0.01), whereas systemic administration (IMI) of 1.0 U (n = 4) and 2.0 U (n = 4) of insulin to the fetus resulted in moderate (103.13 +/- 34.63 microU/ml) and severe (288.3 +/- 51 microU/ml) fetal hyperinsulinemia respectively. All three states of systemic hyperinsulinemia neither altered the fetal brain insulin content nor the brain insulin receptor number and affinity. 0.01 U (n = 4) of intracranial insulin administration (ICI) increased the brain insulin content four-fold (p less than 0.01) but did not alter the brain insulin receptor number or affinity. 0.1 (n = 5) and 2.0 U (n = 7) of intracranial insulin increased the brain insulin content to supraphysiologic concentrations (p less than 0.01) and decreased the fetal brain insulin receptor number (p less than 0.01), the affinity remaining constant. We conclude that 1) regardless of the ability of insulin to cross the blood brain barrier, the downregulation of the brain insulin receptor is insulin dose-dependent and 2) the downregulation of the fetal brain insulin receptor is not a physiologic but a pharmacologic effect of insulin.