Lysosomal malfunction accompanies alpha-synuclein aggregation in a progressive mouse model of Parkinson's disease.

We have detected granular and filamentous inclusions that are alpha-synuclein- and ubiquitin-immunoreactive in the cytoplasm of dopaminergic and cortical neurons of C57/black mice treated chronically with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and probenecid. The immunoreactive aggregates only become evident several weeks after large-scale dopaminergic cell death and a downregulation of alpha-synuclein gene expression. Numerous lipofuscin granules accumulate alpha-synuclein in the nigral and limbic cortical neurons of treated mice. These data provide evidence that insoluble proteins, such as alpha-synuclein, build up as granular and filamentous inclusions in dopaminergic neurons that survive the initial toxic MPTP insult. They further suggest that defective protein degradation rather than altered gene expression underlies deposition of alpha-synuclein and that abundant lysosomal compartments are present to seal off the potentially toxic material.

Profound astrogenesis in the striatum of adult mice following nigrostriatal dopaminergic lesion by repeated MPTP administration.

Neural progenitor cells are present in the rodent brain throughout adulthood, and can proliferate and differentiate into new neurons and/or glia to repair injury. To explore the repair processes mediated by brain progenitor cells, a selective lesion of the nigrostriatal dopaminergic pathway was induced in young adult mice by repeated administration of the neurotoxin, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). A thymidine analog, bromodeoxyuridine (BrdU), was used as a tracer for DNA synthesis to label the dividing cells and their terminal progeny following injury. Three days after MPTP treatments (25 mg/kg, once daily for 5 days), an 8-fold increase in the number of BrdU-labeled newborn cells was observed in the dorsal striatum. A 5-fold increase was also seen in the substantia nigra (SN). Newborn cells in the striatum survived beyond 60 days after their birth whereas newborn cells in the SN survived for less than 31 days. The vast majority of newborn cells in the striatum differentiated into astroglia according to their radial morphology and co-expression with an astroglial marker, S100beta, within 10 days after birth. In contrast, most BrdU-positive cells in the SN failed to co-express S100beta. Little or none of BrdU-labeled cells in both the striatum and SN were found to co-localize with a neuronal marker, neuronal nuclear antigen, or tyrosine hydroxylase during the full course of survival days surveyed (3 to 60 days). Repeated MPTP also decreased dopamine content and uptake in the striatum, which showed a significant recovery 31 days after MPTP lesion. These results demonstrate a rapid and profound astrogenesis in the striatum of young adult mice in response to toxic dopaminergic insult. The lack of neurogenesis in the two affected brain areas indicates the relative importance of glial cell regeneration in repairing MPTP injury.

Mouse model of Parkinsonism: a comparison between subacute MPTP and chronic MPTP/probenecid treatment.

1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is widely used to induce an animal model of Parkinsonism. The conventional mouse model, which usually involves acute or subacute injections of MPTP, results in a significant but reversible loss of dopaminergic functions. We have developed an alternative mouse model, in which co-administration of MPTP with probenecid results in the chronic loss of striatal dopamine for at least 6 months after cessation of treatment. In the present study, we compare the neurochemical, morphological and behavioral changes that occur in this alternative, chronic model with those in the conventional, subacute model. In the chronic model, we demonstrate an almost 80% loss of striatal dopamine and dopamine uptake 6 months after withdrawal from treatment. The neurochemical signs match unbiased stereological measures that demonstrate gradual loss of substantia nigra neurons. Rotarod performance further substantiates these findings by showing a progressive decline in motor performance. Based on the comparisons made in this study in mice, the chronic MPTP/probenecid model shows considerable improvements over the conventional, subacute MPTP model. The sustained alterations in the nigrostriatal pathway resemble the cardinal signs of human Parkinson's disease and suggest that this chronic mouse model is potentially useful to study the pathophysiology and mechanisms of Parkinsonism. It should also prove useful for the development of neuroprotection strategies.

Identification of NIH-shifted metabolites of 1,3,7,8-tetrachlorodibenzo-p-dioxin in the rat by NMR comparison with synthesized isomers.

In the rat, 1,3,7,8-tetrachlorodibenzo-p-dioxin was oxidatively metabolized to the NIH-shifted products 2-hydroxy-1,4,7,8-tetrachlorodibenzo-p-dioxin and 3-hydroxy-1, 2,7,8-tetrachlorodibenzo-p-dioxin. The chlorine substitution patterns were determined by comparison with 1H NMR spectra of six synthesized isomers in CDCl3, CD3OD, and acetone-d6. Glucuronide and glucuronide-sulfate conjugates of the monohydroxy dioxins were identified in the bile by FAB-MS. The dominance of the NIH-shift products in the metabolism of tetrachlorodibenzo-p-dioxins indicates that the same isomers may be produced from differently substituted chlorinated dioxins.