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The Proteomic Landscape of Cysteine Oxidation That Underpins Retinoic Acid-Induced Neuronal Differentiation

Katrin Brenig, Leonie Grube, Markus Schwarzländer, Karl Köhrer, Kai Stühler, Gereon Poschmann

2020Journal of Proteome Research23 citationsDOI

Abstract

The initial phases of neuronal differentiation are key to neuronal function. A particularly informative model to study these initial phases are retinoic acid-stimulated SH-SY5Y cells. Although these progressions are associated with redox-sensitive processes, it is largely undefined how the cellular proteome underpins redox dynamics and the management of reactive oxygen species. Here, we map the global cysteine-based redox landscape of SH-SY5Y cells using quantitative redox proteomics. We find evidence that redox alterations occurred early in differentiation and affect the expression of neuronal marker proteins and the extension of neurites. The spatiotemporal analysis of reactive oxygen species suggests a NOX2-dependent peak in cytoplasmic superoxide anions/hydrogen peroxide generation 2 h after retinoic acid stimulation. At the same time point, 241 out of 275 proteins with an altered cysteine redox state are reversibly oxidized in response to retinoic acid. Our analyses pinpoint redox alterations of proteins involved in the retinoic acid homeostasis and cytoskeletal dynamics.

Topics & Concepts

Retinoic acidReactive oxygen speciesProteomeCell biologyProteomicsNeuriteRedoxChemistryCysteineBiochemistryBiologyEnzymeIn vitroGeneOrganic chemistryRetinoids in leukemia and cellular processesRedox biology and oxidative stressS100 Proteins and Annexins
The Proteomic Landscape of Cysteine Oxidation That Underpins Retinoic Acid-Induced Neuronal Differentiation | Litcius