The 18kDa translocator protein (TSPO) is up-regulated in glial cells in neurodegenerative diseases. In Alzheimer's disease (AD) animal models, TSPO is first overexpressed in astrocytes and then in microglia. However, the precise role of TSPO in the onset and progression of pathology and symptoms characteristic of the disease remains unknown. Here, we report that in the absence of TSPO in 3xTgAD mice the expected disease onset is significantly delayed and a reduction is seen in the hippocampal load of poorly and highly aggregated forms of Tau (-44% and -82%, respectively) and Aβ42 (-25% and -95%, respectively), at 9 months of age. In addition, the astrocyte reactivity was decreased in 3xTgAD.TSPO-/- mice with a reduction in the morphologic complexity and the size of astrocytes in the dorso-dorsal hippocampus and the hilus. Functionally, the absence of TSPO ameliorated the cognitive consequences of adeno-associated virus-induced Tau over-expression in the hippocampus. This suggests that TSPO plays an important role in the active disease progression of AD. TSPO-inhibiting drugs thus merit further exploration as to their potential to reduce the rate of neurodegenerative disease progression.
An increase in astrocyte reactivity has been described in Alzheimer’s disease and seems to be related to the presence of a pro-inflammatory environment. Reactive astrocytes show an increase in the density of the 18 kDa translocator protein (TSPO), but TSPO involvement in astrocyte functions remains poorly understood. The goal of this study was to better characterize the mechanisms leading to the increase in TSPO under inflammatory conditions and the associated consequences. For this purpose, the C6 astrocytic cell line was used in the presence of lipopolysaccharide (LPS) or TSPO overexpression mediated by the transfection of a plasmid encoding TSPO. The results show that nonlethal doses of LPS induced TSPO expression at mRNA and protein levels through a STAT3-dependent mechanism and increased the number of mitochondria per cell. LPS stimulated reactive oxygen species (ROS) production and decreased glucose consumption (quantified by the [18F]FDG uptake), and these effects were diminished by FEPPA, a TSPO antagonist. The transfection-mediated overexpression of TSPO induced ROS production, and this effect was blocked by FEPPA. In addition, a synergistic effect of overexpression of TSPO and LPS on ROS production was observed. These data show that the increase of TSPO in astrocytic cells is involved in the regulation of glucose metabolism and in the pro-inflammatory response. These data suggest that the overexpression of TSPO by astrocytes in Alzheimer’s disease would have rather deleterious effects by promoting the pro-inflammatory response.
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