Structure-specific amyloid precipitation in biofluids.
Margarida RodriguesP BhattacharjeeA BrinkmalmD T DoC M PearsonSuman DeAleks PonjavicJuan A VarelaK KulenkampffIsabelle BaudrexelD EminFrancesco Simone RuggeriJ E LeeA R CarrTuomas P J KnowlesH ZetterbergThomas N SnaddonSonia GandhiSteven F LeeDavid KlenermanPublished in: Nature chemistry (2022)
The composition of soluble toxic protein aggregates formed in vivo is currently unknown in neurodegenerative diseases, due to their ultra-low concentration in human biofluids and their high degree of heterogeneity. Here we report a method to capture amyloid-containing aggregates in human biofluids in an unbiased way, a process we name amyloid precipitation. We use a structure-specific chemical dimer, a Y-shaped, bio-inspired small molecule with two capture groups, for amyloid precipitation to increase affinity. Our capture molecule for amyloid precipitation (CAP-1) consists of a derivative of Pittsburgh Compound B (dimer) to target the cross β-sheets of amyloids and a biotin moiety for surface immobilization. By coupling CAP-1 to magnetic beads, we demonstrate that we can target the amyloid structure of all protein aggregates present in human cerebrospinal fluid, isolate them for analysis and then characterize them using single-molecule fluorescence imaging and mass spectrometry. Amyloid precipitation enables unbiased determination of the molecular composition and structural features of the in vivo aggregates formed in neurodegenerative diseases.
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