Cell type and subcellular compartment specific APEX2 proximity labeling proteomics in the mouse brain

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Abstract

The vertebrate brain consists of diverse neuronal types, classified by distinct anatomy and function, along with divergent transcriptomes and proteomes. Defining the cell type-specific neuroproteome is important for understanding the development and functional organization of neural circuits. This task remains challenging in complex tissue, due to suboptimal protein isolation techniques that often result in loss of cell-type specific information and incomplete capture of subcellular compartments. Here, we develop a genetically targeted proximity labeling approach to identify cell-type specific subcellular proteome in the mouse brain. Using adeno- associated viral transduction, we express subcellular-localized APEX2 to map the proteome of the nucleus, cytosol, and cell membrane of Drd1 receptor-positive striatal neurons. We show that each APEX2 construct can differentially and rapidly biotinylate proteins in situ across various subcellular compartments, confirmed by imaging, electron microscopy, and mass spectrometry. This method enables flexible, cell-type specific quantitative profiling of subcellular proteome in the mouse brain.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00