Insulin stimulates macromolecular synthesis in cultured glial cells from rat brain

Abstract

The effect of insulin on macromolecular synthesis in glial cells cultured from brains of 1-day-old rats was studied to investigate the role of insulin in brain growth. Insulin caused a dose-dependent stimulation of protein synthesis (measured by [3H]valine incorporation into protein) that became significant by 7 nM insulin. Maximal stimulation of protein synthesis of 145% of control occurred with 18 nM insulin. Long-term protein synthesis was also stimulated to 136% of control by insulin in a dose-dependent manner after 6 days of insulin incubation. Insulin also stimulated net RNA and DNA synthesis (measured by [3H]uridine and [3H]thymidine incorporation into RNA or DNA, respectively) with significant stimulation by 2 nM insulin. Net RNA synthesis stimulation was maximal at 120% of control by 18 nM insulin. Plateau stimulation of DNA synthesis of 175% of control was reached by 200 nM insulin. The effects of insulin on glial protein and RNA synthesis appear to be mediated completely by the insulin receptor. Insulin, in physiological concentrations, stimulated glial DNA synthesis via its interaction with the insulin receptor (46% of total response). At supraphysiological concentrations insulin may have stimulated DNA synthesis via its cross-reactivity with the insulinlike growth factor I receptor (54% of total response). Thus insulin, at concentrations known to exist in the brain, stimulates the processes necessary for growth in the glial cell and is an important growth factor in the developing rat brain.