MPTP potentiates 3-nitropropionic acid-induced striatal damage in mice: reference to striatonigral degeneration

Striatonigral degeneration (SND) is a parkinsonian disorder due to the combined degeneration of dopaminergic neurons in the substantia nigra pars compacta (SNc) and striatal output neurons. The aims of this study were to explore (1) the behavioral and histopathological consequences of combined MPTP plus 3-nitropropionic acid (3-NP) intoxication in C57/B16 mice and (2) its ability to reproduce the neuropathological hallmarks of SND. 3-NP was administered i.p. every 12 h (total dose = 450 mg/kg in 9 days) and MPTP i.p. at 10 mg/(kg day) (total dose = 90 mg/kg in 9 days). Four groups of mice (n = 10) were compared: control, 3-NP alone, MPTP alone, MPTP + 3-NP. Mice intoxicated with 3-NP and MPTP + 3-NP developed motor symptoms, including hindlimb dystonia and clasping, truncal dystonia and impaired balance adjustments. The severity of motor disorder was worse and lasted longer in MPTP + 3-NP-treated mice compared to 3-NP alone, MPTP alone and controls. 3-NP and MPTP + 3-NP-treated mice also displayed altered gait patterns, impaired motor performance on the pole test, rotarod and traversing a beam tasks and activity parameters. Several of these sensorimotor deficits were also more severe and lasted longer in MPTP + 3-NP-treated mice. Histology demonstrated increased neuronal loss along with astrocytic activation (glial fibrillary acid protein, GFAP) and a higher incidence of circumscribed striatal lateral lesions in MPTP + 3-NP-treated mice compared to 3-NP. Neuronal loss and astrocytic activation were increased in the lateral part of the striatum in 3-NP-intoxicated mice while observed both in the medial and lateral part in MPTP + 3-NP-intoxicated mice. There was also a significant loss of SNc dopaminergic neurons and striatal terminals, similar to that in MPTP-treated mice. Altogether, these results suggest that MPTP potentiates striatal damage and behavioral impairments induced by 3-NP intoxication in mice and constitutes a useful model of the motor disorder and its histopathological correlates in SND. (C) 2003 Elsevier Inc. All rights reserved.