Deprenyl induces GFAP immunoreactivity in the intact and injured dopaminergic nigrostriatal system but fails to counteract axotomy-induced degenerative changes

Abstract

There is increasing evidence of a trophic-like mechanism for some effects ascribed to deprenyl therapy in the central nervous system. For that, we studied the effect of chronic treatment with deprenyl in an animal model of Parkinson's disease induced by unilateral knife transection of the medial forebrain bundle (MFB) in adult rats. The experimental conditions included a 3-week pretreatment with deprenyl before stereotaxic transection of the MFB. Following surgery, deprenyl treatment was maintained for 3 weeks. Neurochemical and immunohistochemical procedures were used to study the dopaminergic system and reactive astrocytes in the nigrostriatal system. Deprenyl treatment failed to counteract the axotomy-induced degenerative changes of the nigrostriatal dopaminergic system. However, it was effective in increasing the density of reactive astrocytes in terms of glial fibrillary acidic protein (GFAP) immunoreactivity in the intact contralateral substantia nigra and also in further enhancing the axotomy-induced increase of GFAP immunolabeled astrocytes in the lesioned substantia nigra. This deprenyl-induced effect on GFAP immunoreactivity was confined to substantia nigra without effect in striatum. In addition, we found a medial to lateral gradient decrease in the distribution pattern of GFAP immunolabeled astrocytes. Axotomy increased the number of reactive astrocytes in either striatal area examined, but yet the preferential distribution pattern of reactive astrocytes in striatum was still evident.