Abstract

AbstractBackgroundThe 4R tauopathies corticobasal degeneration (CBD) and progressive supranuclear palsy (PSP) are described as dementias with parkinsonian syndrome. Even if they are proven to represent clinically different entities, their complex neuropathology and common hallmarks often make the differential clinical diagnosis of CBD and PSP challenging. The highly entangled astrocytic and tau pathologies observed in these diseases are however displaying unique disparities which might unravel specific neuropathological profiles for each disease. The multi‐PET tracer approach applied in the present study in postmortem brain tissue might provide new mechanistic insights. We recently demonstrated that the second‐generation tau PET tracer, 3H‐PI2620 had a discriminative potential in CBD, PSP, and Alzheimer’s disease (AD) brains (Malarte et al. Mol. Psychiatry. 2022). To further understand the interaction between tau spatial distribution and its potential effects on astrocytic reactivity, we conducted a comparative multi‐tracer investigation in CBD, PSP, AD, and control brains using novel tau and astrocytic tracers. To gain a deeper insight into the relationship between tau, astrogliosis, and concomitant motor impairments, we also studied the interaction with the dopaminergic system.MethodWe performed autoradiography studies on large frozen hemispherical brain tissue of CBD, PSP, AD, and control cases using the tau PET tracer 3H‐PI2620, in comparison to astrocytic tracers (3H‐BU99008 and 3H‐Deprenyl) and dopaminergic tracers (3H‐Raclopride and 3H‐FE‐PE2I). We also analyzed the regional distribution of these tracers in small adjacent frozen brain sections of pathologically specific brain regions (globus pallidus, putamen, caudate, frontal cortex, medulla oblongata). We also performed saturation studies with 3H‐BU99008 and 3H‐Deprenyl on CBD and PSP brain homogenatesResultOur preliminary results are promising and suggest high astrogliosis measured by 3H‐BU99008 and 3H‐Deprenyl in large frozen autoradiography in CBD and PSP brains, and with different binding intensities in different brain regions comparable with regional 3H‐PI2620 binding. 3H‐BU99008 and 3H‐Deprenyl both highlighted two binding sites in the putamen of CBD cases, but only one site in PSP.ConclusionOngoing multi‐PET tracer studies targeting different pathological hallmarks of CBD and PSP tauopathies will improve differentiation and provide new knowledge regarding the spatial distribution of tau and its correlation with astrogliosis and the dopaminergic system in primary tauopathies.

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