Atomic identification of fluorescent Q-dots on tau-positive fibrils in 3D-reconstructed pick bodies

Pick body disease, characterized by the presence of Pick bodies, is distinguished from neurofibrillary tangles in Alzheimer disease on the basis of their smooth, spherical shape. Quantum dots (QDs) are nanometer-scale, water-soluble fluorophores that are detectable both as a fluorescent signal by light microscopy and as electron-dense particles under electron microscopy. In this study, tau-positive Pick bodies were immunofluorescently labeled with QD nanocrystals composed of cadmium selenide for three-dimensional (3D) reconstruction and subsequently subjected to electron microscopic observation to identify QD immunolabeling on the same Pick body for comparison in detail. The identity of the QD nanocrystals, which label the tau-positive fibrils, was confirmed by the presence of both cadmium and selenium on these nanocrystals, demonstrated as parallel peaks corresponding to these atoms on energy-dispersive X-ray spot analysis under super-resolution scanning transmission electron microscopy. This confirmation of the specificity of the QD labeling through both its fluorescence and energy-dispersive X-ray spectra reinforces the reliability of the labeling. In addition, this exact comparison of the same structure by electron microscopy and 3D light microscopy demonstrates how its ultrastructural details are related to its surrounding structures on a 3D basis, providing further insights into how molecules woven into specific pathological ultrastructures are at work in situ.