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Dysfunction of astrocytes in the senescence-accelerated mice SAMP8 reduces their neuroprotective capacity

AuthorsGarcía-Matas, Silvia ; Camins, Antoni; Pallàs, Mercè; Sanfeliu, Coral ; Cristòfol, Rosa
Glutamate uptake
Oxidative stress
Senescence-accelerated mice
Tau protein
Issue Date24-Jul-2008
CitationAging Cell 7(5): 630–640 (2008)
AbstractEarly onset increases in oxidative stress and tau pathology are present in the brain of senescence-accelerated mice prone (SAMP8). Astrocytes play an essential role, both in determining the brain's susceptibility to oxidative damage and in protecting neurons. In this study, we examine changes in tau phosphorylation, oxidative stress and glutamate uptake in primary cultures of cortical astrocytes from neonatal SAMP8 mice and senescence-accelerated-resistant mice (SAMR1). We demonstrated an enhancement of abnormally phosphorylated tau in Ser199 and Ser396 in SAMP8 astrocytes compared with that of SAMR1 control mice. Gsk3β and Cdk5 kinase activity, which regulate tau phosphorylation, was also increased in SAMP8 astrocytes. Inhibition of Gsk3β by lithium or Cdk5 by roscovitine reduced tau phosphorylation at Ser396. Moreover, we detected an increase in radical superoxide generation, which may be responsible for the corresponding increase in lipoperoxidation and protein oxidation. We also observed a reduced mitochondrial membrane potential in SAMP8 mouse astrocytes. Glutamate uptake in astrocytes is a critical neuroprotective mechanism. SAMP8 astrocytes showed a decreased glutamate uptake compared with those of SAMR1 controls. Interestingly, survival of SAMP8 or SAMR1 neurons cocultured with SAMP8 astrocytes was significantly reduced. Our results indicate that alterations in astrocyte cultures from SAMP8 mice are similar to those detected in whole brains of SAMP8 mice at 1–5 months. Moreover, our findings suggest that this in vitro preparation is suitable for studying the molecular and cellular processes underlying early aging in this murine model. In addition, our study supports the contention that astrocytes play a key role in neurodegeneration during the aging process.
Publisher version (URL)http://dx.doi.org/10.1111/j.1474-9726.2008.00410.x
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