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Global organelle profiling reveals subcellular localization and remodeling at proteome scale

Marco Y. Hein, Duo Peng, Verina Todorova, Frank McCarthy, Kibeom Kim, Chad Liu, Laura Savy, Camille Januel, Rodrigo Baltazar-Nunez, Madhurya Sekhar, Shivanshi Vaid, Sophie Bax, Madhuri Vangipuram, James Burgess, Leila Njoya, Eileen Wang, Ivan E. Ivanov, Janie R. Byrum, Soorya Pradeep, Carlos G. Gonzalez, Yttria Aniseia, Joseph S. Creery, Aidan H. McMorrow, Sara Sunshine, Serena Yeung-Levy, Brian C. DeFelice, Shalin B. Mehta, Daniel N. Itzhak, Joshua E. Elias, Manuel D. Leonetti

2024Cell79 citationsDOIOpen Access PDF

Abstract

Defining the subcellular distribution of all human proteins and their remodeling across cellular states remains a central goal in cell biology. Here, we present a high-resolution strategy to map subcellular organization using organelle immunocapture coupled to mass spectrometry. We apply this workflow to a cell-wide collection of membranous and membraneless compartments. A graph-based analysis assigns the subcellular localization of over 7,600 proteins, defines spatial networks, and uncovers interconnections between cellular compartments. Our approach can be deployed to comprehensively profile proteome remodeling during cellular perturbation. By characterizing the cellular landscape following HCoV-OC43 viral infection, we discover that many proteins are regulated by changes in their spatial distribution rather than by changes in abundance. Our results establish that proteome-wide analysis of subcellular remodeling provides key insights for elucidating cellular responses, uncovering an essential role for ferroptosis in OC43 infection. Our dataset can be explored at organelles.czbiohub.org.

Topics & Concepts

BiologyOrganelleProteomeProfiling (computer programming)Subcellular localizationCell biologyComputational biologyProteomicsProtein subcellular localization predictionBioinformaticsGeneticsCytoplasmGeneOperating systemComputer scienceAdvanced Proteomics Techniques and ApplicationsBiotin and Related StudiesUbiquitin and proteasome pathways
Global organelle profiling reveals subcellular localization and remodeling at proteome scale | Litcius