Amyloid-β (Aβ) plays a crucial role in Alzheimer's disease pathogenesis. Understanding how Aβ overexpression alters the proteome of individual brain cell types is essential but challenging due to the nature of brain tissue, which contains intermingled various cell types. The current methods for cell-type-specific proteomics either require genetic modifications or complex cell isolation, limiting their use. This study introduces a novel method, in situ cell-type-specific proteome analysis using antibody-mediated biotinylation (iCAB), which applies immunohistochemistry with biotin-tyramide to target cell-specific proteins directly in tissue. Applied to 5xFAD mice, iCAB enables us to identify ≈8000 cell-type-specific proteomes with significantly more differentially expressed proteins than traditional bulk proteome methods, pinpointing unique pathways such as mRNA processing, calcium regulation, and phagocytosis for neurons, astrocytes, and microglia, respectively. This study reports in-depth the cell-type-specific brain proteome landscape of the human Aβ overexpression mouse model for the first time using an innovative tool that is powerful, straightforward, and applicable to both animal models and human tissues, without the need for prior genetic alterations.
Keywords: biotinylation; biotin‐tyramides; brains; cell‐type‐specific proteomes; iCAB; immunohistochemistry; mass spectrometry.
© 2025 The Author(s). Advanced Science published by Wiley‐VCH GmbH.