Rapid Increases in Glial Fibrillary Acidic Protein mRNA and Protein Levels in the Copper‐Deficient, Brindled Mouse

Abstract

The brindled mouse (Mobr/y) carries an X-linked mutation that produces severe copper deficiency. Affected males suffer profound deficits in oxidative metabolism. We have examined astrocyte pathology in Mobr/y during development and have found marked changes in the metabolism of glial fibrillary acidic protein (GFAP). Immunocytochemistry with anti-GFAP antisera revealed a marked increase in staining at postnatal day 12 (P12), compared to heterozygous female and unaffected male littermates, particularly in neocortex and thalamus. Septum, hypothalamus, and striatum showed little change. Western blot analysis revealed increased levels of GFAP in Mobr/y forebrain and cerebellum. Levels of GFAP mRNA were determined by Northern blotting with a mouse GFAP cDNA probe. At P10, mRNA levels were normal, but incresed to 8-10 times normal by P12. Levels at P15 remained similarly elevated. Thus, immunostaining and protein determinations correlate with mRNA elevations. Astrocytes can alter GFAP mRNA and protein levels over a relatively short time. Counts of neocortical cells did not reveal differences in cell numbers between Mobr/y and controls, indicating that the observed changes reflect increased cellular levels and not a large increase in the numbers of astrocytes.