Glycogen is mobilized during the disposal of peroxides by cultured astroglial cells from rat brain.

Regeneration of reduced nicotinamide adenine dinucleotide phosphate (NADPH) is essential for the activity of glutathione redox cycling during cellular peroxide detoxification. In order to test for a function of astroglial glycogen to serve as endogenous precursor for glucose-6-phosphate, the substrate for the regeneration of NADPH by the pentose phosphate pathway, the content of glycogen in astroglia-rich primary cultures derived from the brains of newborn rats was determined after application of peroxides. In the presence of hydrogen peroxide or cumene hydroperoxide in concentrations of 200 μM glycogen was mobilized with a half-life of 16 min in incubation medium containing 20 mM glucose, whereas in the absence of peroxides the glycogen content decreased more slowly with a half-life of 42 min. After 30 min of incubation with or without peroxides 30 and 73%, respectively, of the initial glycogen content was found. The degree of glycogen mobilization was reduced by lowering the initial concentration of the peroxides. These results demonstrate that in astroglial cells (i) glucosyl residues of glycogen are mobilized after application of peroxides despite the presence of exogenous glucose, and (ii) that the demand for glucose-6-phosphate as substrate for NADPH regeneration via the pentose phosphate pathway can, at least partially, be met by mobilization of glycogen.