Distinct binding of amyloid imaging ligands to unique amyloid-ß deposited in the presubiculum of Alzheimer's disease.

Non-invasive determination of amyloid-ß peptide (Aß) deposition with radioligands serves for the early diagnosis and clarification of pathogenetic mechanisms of Alzheimer's disease (AD). The polymorphic binding site on multimeric Aß for current radioligands, however, is little understood. In this study, we investigated the binding of several radioligands including (11)C-Pittsburgh Compound B ((11)C-PiB), (3)H-AZD2184, and two recently developed compounds, (125)I-DRM106 and (125)I-DRK092, with unique presubicular Aß deposits lacking interaction with the commonly used amyloid dyes FSB. (11)C-PiB, (3)H-AZD2184, and (125)I-DRK092 showed overt binding to presubicular Aß deposits, while (125)I-DRM106 barely bound to these aggregates despite its strong binding in the hippocampal CA1 sector. Unlike neuritic plaques in the CA1, Aß lesions in the presubiculum were not accompanied by inflammatory gliosis enriched with 18-kDa translocator protein (TSPO). Thus, there are at least two different components in Aß aggregates providing distinct binding sites for the current amyloid radioligands, and one of these binding components is distinctly present in the presubicular Aß deposits. Amyloid radioligands lacking affinity for this component, such as (125)I-DRM106, may selectively capture Aß deposits tightly associated with TSPO neuroinflammation and neurodegeneration as exemplified by CA1 neuritic plaques. Hence, comparative autoradiographic assessments of radioligand binding in CA1 and presubiculum could serve for the development of an amyloid PET imaging agent visualizing neurotoxicity-related Aß pathologies. Non-invasive determination of amyloid-ß peptide (Aß) serves for the early diagnosis and clarification of pathogenetic mechanisms of Alzheimer's disease (AD). We found that there are at least two different amyloid components in hippocampal CA1 and presubiculum providing distinct binding sites for the current amyloid radioligands. Comparative analysis for radioligand binding in these two regions could serve for developing novel imaging agents selectively visualizing neurotoxicity-related Aß pathologies.