Ar. Little et al., DECREASES IN BRAIN GLIAL FIBRILLARY ACIDIC PROTEIN (GFAP) ARE ASSOCIATED WITH INCREASED SERUM CORTICOSTERONE FOLLOWING INHALATION EXPOSURE TO TOLUENE, Neurotoxicology, 19(4-5), 1998, pp. 739-747
Toluene and other neurotoxicants can cause both increases and decrease
s in the concentration of GFAP in the brain. While increased GFAP conc
entration is widely regarded as evidence for reactive gliosis, toxican
t-induced decreases in GFAP have received less attention. In order to
identify conditions under which inhalation exposure to toluene results
in decreased GFAP concentration, rats were subjected to repeated inha
lation of toluene for up to 7 days. Adult male F344 rats received inha
lation exposure to air or to 1000 ppm toluene, 6 hr/day, for 3 or 7 da
ys. This toluene exposure replicated the previously-observed decreases
in GFAP in the thalamus. Serum Corticosterone was significantly eleva
ted in the same rats that exhibited decreases in brain GFAP concentrat
ion. These results show that decreases in brain GFAP might be a conseq
uence of disruption of the hypothalamic-pituitary-adrenal axis and/or
hormonal homeostasis. Changes in GFAP and in Cort were not accompanied
by a change in body weight. More research is needed to firmly establi
sh cause and effect between increased serum glucocorticoid levels and
GFAP decreases following toluene inhalation and to determine whether t
hese decreases indicate toxicity or adaptive changes. (C) 1998 Inter P
ress, Inc.