SYSTEMIC 3-NITROPROPIONIC ACID - BEHAVIORAL DEFICITS AND STRIATAL DAMAGE IN ADULT-RATS

Previous animal studies have demonstrated that systemic administration of 3-nitropropionic acid (3-NP) leads to neuropathological changes similar to those seen in Huntington's disease (HD). Recently, we reported hypoactivity in 6- and 10-week old rats treated with systemic 3-NP (IF, 10 mg/kg/day) once every 4 days for 28 days. Although these behavioral results seem to differ from the observed hyperactivity in most excitotoxic models of HD, 3-NP may provide a better model of juvenile onset and advanced HD. In the present study, older rats were similarly treated with 3-NP to further characterize the reported age dependency of striatal neuronal death caused by 3-NP. Hypoactivity was observed in 14- and 28-week old rats with the latter demonstrating more profound features. The present study also provided the first direct evidence of a 3-NP effect an passive avoidance behavior. Experimental and control animals showed no significant difference in daytime acquisition and retention of a passive avoidance task. However, when the retention tests were conducted during the night time (in contrast to previous daytime tests), 3-NP-treated animals exhibited significant retention deficits. In addition, the neuropathological effects of 3-NP were determined by Nissl, AChE and NADPH-diaphorase histochemistry. Metabolic activity was studied using cytochrome oxidase activity as an index. Results revealed striatal glial infiltration, loss of intrinsic striatal cholinergic neurons, but some sparing of large AChE positive neurons, minimal damage of NADPH-diaphorase-containing neurons, and very slight, if any, alterations in cytochrome oxidase activity. In summary, the present results revealed that long-term systemic administration of 3-NP leads to a) an age-dependent hypoactivity, b) a contextual retention deficit in passive avoidance, and c) a selective destruction of striatal neuronal populations.