Early and longitudinal microglial activation but not fibrillar amyloid accumulation predict cognitive outcome in PS2APP mice

Early and longitudinal microglial activation but not fibrillar amyloid accumulation predict cognitive outcome in PS2APP mice

Objectives: Microglial activation is one hallmark in the pathophysiology of neurodegenerative diseases. However, results are still inconclusive whether neuroinflammation has beneficial or detrimental effects on cognitive outcome. 18kDa translocator protein (TSPO) PET imaging now facilitates to monit...

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Veröffentlicht in:The Journal of nuclear medicine (1978) 2018-05, Vol.59, p.341
Hauptverfasser: Brendel, Matthias, Focke, Carola, Deussing, Maximilian, Zott, Benedikt, Blume, Tanja, Shi, Yuan, Beyer, Leonie, Kleinberger, Gernot, Lindner, Simon, Gildehaus, Franz-Josef, Bartenstein, Peter, Haass, Christian, Herms, Jochen, Adelsberger, Helmuth, Rominger, Axel
Format: Artikel
Sprache:eng
Schlagworte:
Activation
Age
Amygdala
Amyloidosis
Brain
Clusters
Cognitive ability
Cognitive development
Correlation analysis
Fluorine isotopes
Forebrain
Hippocampus
Immunohistochemistry
In vivo methods and tests
Inflammation
Learning
Medical imaging
Mice
Neurodegeneration
Neurodegenerative diseases
Neuroimaging
Neurological diseases
Neurons
Positron emission
Positron emission tomography
Proteins
Radioisotopes
Rodents
Spatial discrimination learning
Tomography
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Zusammenfassung:Objectives: Microglial activation is one hallmark in the pathophysiology of neurodegenerative diseases. However, results are still inconclusive whether neuroinflammation has beneficial or detrimental effects on cognitive outcome. 18kDa translocator protein (TSPO) PET imaging now facilitates to monitor regional alterations of microglial activity in vivo. Therefore, we objected to correlate serial measures of TSPO and amyloid PET with the terminal cognitive assessment in the PS2APP amyloid mouse model. Methods: N=10 PS2APP (TG) mice and N=7 C57Bl/6 (WT) mice were imaged from 8 to 13 months of age by TSPO PET (F-18-GE180; 8, 9.5, 11.5, 13 months) and amyloid PET (F-18-Florbetaben; 8, 13 months). Morris water maze (MWM) was performed at 13.5 months of age. Z-score differences were obtained voxel-wise for TG mice versus WT mice at each time-point. Z-score images of serial PET were summed to an area under the curve (AUC) map for each individual TG mouse. Baseline and AUC maps of TSPO activation and amyloidosis were correlated voxel-wise with findings of cognitive testing deriving from MWM. The entire forebrain and brain regions associated with spatial learning were likewise evaluated to investigate general effects. Immunohistochemical and biochemical validation experiments were performed at study termination. Results: TG mice indicated a distinct poorer performance in MWM when compared to WT at 13 months of age (distance: +436%, p < 0.01 / time-to-platform +244%, p < 0.001). A better cognitive outcome was associated with higher TSPO activation at baseline in the forebrain (R = 0.71, p < 0.05) and even stronger in brain areas involved in spatial learning (R = 0.82, p < 0.01). Peak clusters of the amygdala and entorhinal cortices showed a very strong association between the baseline TSPO signal and terminal MWM performance (R = 0.95, p < 0.001). Higher longitudinal TSPO activation by AUC maps tended to correlate with a better clinical outcome in the forebrain (R = 0.45, p=n.s.), and in brain areas involved in spatial learning (R = 0.60, p=n.s.). Peak clusters of longitudinal TSPO activation in hippocampal areas were significantly associated with terminal MWM performance (R = 0.68, p
ISSN:0161-5505
1535-5667