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Direct cysteine sulfenylation drives activation of the Src kinase. | LitMetric

AI Article Synopsis

  • The Src kinase is important for cell biology and is regulated by structural changes from protein interactions and tyrosine phosphorylation, as well as redox-dependent mechanisms.
  • Recent findings highlight the role of specific cysteine residues (Cys-185 and Cys-277) in Src that undergo oxidative modifications, which are crucial for activating the kinase in response to signaling from NADPH oxidase.
  • The structural effects of these modifications can facilitate the activation of Src by promoting phosphorylation of key residues, leading to potential new treatments targeting Src in diseases where it is improperly activated.

Article Abstract

The Src kinase controls aspects of cell biology and its activity is regulated by intramolecular structural changes induced by protein interactions and tyrosine phosphorylation. Recent studies indicate that Src is additionally regulated by redox-dependent mechanisms, involving oxidative modification(s) of cysteines within the Src protein, although the nature and molecular-level impact of Src cysteine oxidation are unknown. Using a combination of biochemical and cell-based studies, we establish the critical importance of two Src cysteine residues, Cys-185 and Cys-277, as targets for HO-mediated sulfenylation (Cys-SOH) in redox-dependent kinase activation in response to NADPH oxidase-dependent signaling. Molecular dynamics and metadynamics simulations reveal the structural impact of sulfenylation of these cysteines, indicating that Cys-277-SOH enables solvent exposure of Tyr-416 to promote its (auto)phosphorylation, and that Cys-185-SOH destabilizes pTyr-527 binding to the SH2 domain. These redox-dependent Src activation mechanisms offer opportunities for development of Src-selective inhibitors in treatment of diseases where Src is aberrantly activated.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6207713PMC
http://dx.doi.org/10.1038/s41467-018-06790-1DOI Listing

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