Afficher la couverture 'Virtual histology of Alzheimer’s Disease: Biometal entrapment within amyloid-β plaques allows for detection via X-ray phase-contrast imaging. Histologie virtuelle de la maladie d'Alzheimer: pourquoi les plaques β-amyloïdes sont-elles visibles en imagerie X par contraste de phase? | Chourrout, Matthieu' en grand format
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Virtual histology of Alzheimer’s Disease: Biometal entrapment within amyloid-β plaques allows for detection via X-ray phase-contrast imaging. Histologie virtuelle de la maladie d'Alzheimer: pourquoi les plaques β-amyloïdes sont-elles visibles en imagerie X par contraste de phase?

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Chourrout, Matthieu | Sandt, Christophe | Weitkamp, Timm | Dučić, Tanja | Meyronet, David | Baron, Thierry | Klohs, Jan | Rama, Nicolas | Boutin, Hervé | Singh, Shifali | Olivier, Cécile | Wiart, Marlène | Brun, Emmanuel | Bohic, Sylvain | Chauveau, Fabien

Edité par CCSD ; Elsevier -

Accepted manuscript (author version after peer review). International audience. Amyloid-β (Aβ) plaques from Alzheimer’s Disease (AD) can be visualized ex vivo in label-free brain samples using synchrotron X-ray phase-contrast tomography (XPCT). However, for XPCT to be useful as a screening method for amyloid pathology, it is essential to understand which factors drive the detection of Aβ plaques. The current study was designed to test the hypothesis that Aβ-related contrast in XPCT could be caused by the Aβ fibrils and/or by metals trapped in the plaques. Fibrillar and elemental compositions of Aβ plaques were probed in brain samples from different types of AD patients and AD models to establish a relationship between XPCT contrast and Aβ plaque characteristics. XPCT, micro-Fourier-Transform Infrared spectroscopy and micro-X-Ray Fluorescence spectroscopy were conducted on human samples (one genetic and one sporadic case) and on four transgenic rodent strains (mouse: APPPS1, ArcAβ, J20; rat: TgF344). Aβ plaques from the genetic AD patient were visible using XPCT, and had higher β–sheet content and higher metal levels than the sporadic AD patient, which remained undetected by XPCT. Aβ plaques in J20 mice and TgF344 rats appeared hyperdense on XPCT images, while they were hypodense with an hyperdense core in the case of APPPS1 and ArcAβ mice. In all four transgenic strains, β-sheet content was similar, while metal levels were highly variable: J20 (zinc and iron) and TgF344 (copper) strains showed greater metal accumulation than APPPS1 and ArcAβ mice. Hence, a hyperdense contrast formation of Aβ plaques in XPCT images was associated with biometal entrapment within plaques.

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