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Proteomic profiling of centrosomes across multiple mammalian cell and tissue types by an affinity capture method

Sarah Carden, Elisa Vitiello, Ivan Rosa e Silva, James Holder, Valentina Quarantotti, Kamal Kishore, Valar Nila Roamio Franklin, Clive S. D’Santos, Takashi Ochi, M. van Breugel, Fanni Gergely

2023Developmental Cell27 citationsDOIOpen Access PDF

Abstract

Centrosomes are the major microtubule-organizing centers in animals and play fundamental roles in many cellular processes. Understanding how their composition varies across diverse cell types and how it is altered in disease are major unresolved questions, yet currently available centrosome isolation protocols are cumbersome and time-consuming, and they lack scalability. Here, we report the development of centrosome affinity capture (CAPture)-mass spectrometry (MS), a powerful one-step purification method to obtain high-resolution centrosome proteomes from mammalian cells. Utilizing a synthetic peptide derived from CCDC61 protein, CAPture specifically isolates intact centrosomes. Importantly, as a bead-based affinity method, it enables rapid sample processing and multiplexing unlike conventional approaches. Our study demonstrates the power of CAPture-MS to elucidate cell-type-dependent heterogeneity in centrosome composition, dissect hierarchical interactions, and identify previously unknown centrosome components. Overall, CAPture-MS represents a transformative tool to unveil temporal, regulatory, cell-type- and tissue-specific changes in centrosome proteomes in health and disease.

Topics & Concepts

CentrosomeBiologyProteomeMicrotubuleComputational biologyCell biologyCell typeCentrosome cycleCellBioinformaticsGeneticsCell cycleMicrotubule and mitosis dynamicsAdvanced Proteomics Techniques and ApplicationsMitochondrial Function and Pathology
Proteomic profiling of centrosomes across multiple mammalian cell and tissue types by an affinity capture method | Litcius