Assessing protein changes in the cerebral vasculature of brain disorders may increase our understanding of disease pathogenesis and facilitate diagnostic and therapeutic intervention. By combining perfusion of mice with a charged reactive biotin derivative and subsequent quantification of the biotinylated proteins, the proteome accessible from the vasculature in an APPPS1 transgenic mouse model of cerebral β-amyloidosis was identified and compared to that in non-transgenic control mice. Our results provide proof-of-concept of this technology for the identification of new targets for antibody-based therapy or pharmacodelivery, and for neuroimaging in neurodegenerative diseases.
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