Loss of cannabinoid CB(1) receptors in the basal ganglia in the late akinetic phase of rats with experimental Huntington's disease.

We have recently examined the status of the endocannabinoid transmission in the basal ganglia in Huntington's disease (HD) using a rat model generated by bilateral intrastriatal injections of 3-nitropropionic acid (3-NP). In these previous studies, we focused on the early phase of hyperactivity that occurs 1-2 weeks after the lesion, comparable to early grades of the human disease, while in the present study, we wanted to explore the late akinetic phase observed 3-4 weeks after the lesion (similar to advanced grades). First, we confirmed that 3-NP-lesioned rats exhibited a marked akinesia tested at 4 weeks post-lesion. We observed a marked reduction in ambulatory and exploratory activities and a trend towards a decrease in stereotypies, paralleled by a strong increase in the time spent in inactivity. There was also a profound reduction in GABA contents and glutamic acid decarboxylase activity, particularly in the caudate-putamen and the globus pallidus. Dopamine and DOPAC contents, as well as the activity of tyrosine hydroxylase, were also reduced, particularly in the caudate-putamen. mRNA levels for neuronal-specific enolase, proenkephalin and substance P were also dramatically reduced in the caudate-putamen, thus indicating a death of both the direct (striatonigral) and the indirect (striatopallidal) GABAergic projection pathways, which corresponded with a marked loss of CB(1) receptor-mRNA levels observed in both parts, lateral and medial, of the caudate-putamen. However, losses of CB(1) receptor binding were confined to the globus pallidus and the caudate-putamen, whereas there were no changes in the substantia nigra and the entopeduncular nucleus. Finally, we failed to reduce the marked akinesia found in these animals by administering SR141716A, a selective antagonist of CB(1) receptors, which had exhibited hyperlocomotor effects in previous studies with naive animals. In summary, behavioral and biochemical changes observed in rats intrastriatally lesioned with 3- NP were compatible with a profound degeneration of striatal efferent GABAergic neurons, similar to those occurring in advances stages of the human disease. As expected, a loss of CB(1) receptors was evident in the basal ganglia of these rats during the late akinetic stage of the disease. Further studies should demonstrate whether these receptors might be a target for a new therapy in HD, a disease with a poor pharmacological outcome.