Late-onset Alzheimer's disease (AD) is the most common form of AD appearing after 65 years of age. To date, however, there are no non-genetically manipulated rodent models that develop a similar sporadic onset of AD with age-related amyloid-beta (Abeta) deposition. Although the senescence accelerated mouse prone 8 (SAMP8) mice have been proposed as a model of AD, the presence of Abeta deposits remains controversial. In this study, we describe the time course of Abeta deposition in SAMP8 mice as well as in control SAMR1 and ICR-CD1 strains of mice. From as early as 6 months onward, SAMP8 mice show Abeta deposition in the hippocampus that increase in number and extent with age. These deposits are comprised of by clustered granules that contain Abeta{42}, Abeta{40}, and other Abeta protein precursor fragments. By marked contrast, control mice show only low numbers of Abeta clusters that do not develop until 15 months of age. The demonstration that SAMP8 mice present with amyloid deposits in their hippocampus makes this animal model a useful tool to understand the mechanisms involved in Abeta deposition in AD.
The senescence accelerated mouse-prone 8 (SAMP8) strain of mice is an experimental model of accelerated senescence that has also been proposed as a model of Alzheimer's disease as it shares several features with this dementia. We have recently reported amyloid-β (Aβ) granules in the hippocampus of SAMP8 mice, which contain Aβ42 and Aβ40 peptides and other amyloid-β protein precursor fragments. These granules appear clustered mainly in the stratum radiatum of the CA1 region and increase in number and size with age. Here we performed several studies to examine whether the Aβ granules in the hippocampus of SAMP8 mice contain other proteins characteristic of neuropathological aggregates, such as tau, MAP2, and α-synuclein. Moreover, we examined whether the Aβ granules in the hippocampus correspond to heparan sulphate proteoglycan (HSPG) positive granules previously described in this animal model. The results showed that Aβ granules correspond to the HSPG granular structures, being syndecan-2, a protein involved in the remodeling of dendritic spines, the type of HSPG found. Tau and MAP2, but not α-synuclein depositions, were also found in Aβ aggregates. Granules do not appear to have an astrocytic origin, since although some Aβ clusters are associated with astrocyte processes, most clusters are not. On the other hand, the presence of tau, MAP2, and NeuN in Aβ granules suggests a neuronal origin. As the components identified in Aβ granules are characteristic of the aggregates present in some neurodegenerative diseases, the SAMP8 model seems to be appropriate for the study of the processes involved in these pathologies.
This study was undertaken to investigate the potential role of cell cycle re-entry in an experimental model of Huntington's disease and in human brain samples. We found that after treatment of rats with the mitochondrial neurotoxin 3-nitropropionic acid, the expression of cell cycle markers of G1 phase measured by immunohistochemistry was induced in the striatal brain region. Furthermore, we detected an increase in the nuclear and also cytoplasmatic E2F-1 expression, suggesting that this protein could activate the apoptotic cascade in rat brain. Western blot analysis of post-mortem brain samples from patients also showed an increase in the expression of E2F-1 and cyclin D1 in comparison with control samples. These results indicate that cell cycle re-entry is activated in Huntington's disease and may contribute to the neurodegenerative process.
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