Novel insights into the PKCβ-dependent regulation of the oxidoreductase p66Shc
Autor: | Martina, Haller, Sana, Khalid, Leopold, Kremser, Friedrich, Fresser, Tobias, Furlan, Martin, Hermann, Julia, Guenther, Astrid, Drasche, Michael, Leitges, Marco, Giorgio, Gottfried, Baier, Herbert, Lindner, Jakob, Troppmair |
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Jazyk: | angličtina |
Rok vydání: | 2016 |
Předmět: |
Models
Molecular Src Homology 2 Domain-Containing Src Homology 2 Domain-Containing Transforming Protein 1 PKC cell death p66shc phosphorylation phosphotyrosine binding (PTB) domain reactive oxygen species (ROS) redox signaling 3T3 Cells Animals Cell Death Gene Deletion HEK293 Cells Humans Hydrogen Peroxide Mice Mitochondria Oxidative Stress Oxidoreductases Phosphorylation Point Mutation Protein Kinase C beta RNA Interference RNA Small Interfering Reactive Oxygen Species Serine Small Interfering Models Transforming Protein 1 Molecular RNA Signal Transduction |
Zdroj: | The Journal of Biological Chemistry |
Popis: | Dysfunctional mitochondria contribute to the development of many diseases and pathological conditions through the excessive production of reactive oxygen species (ROS), and, where studied, ablation of p66Shc (p66) was beneficial. p66 translocates to the mitochondria and oxidizes cytochrome c to yield H2O2, which in turn initiates cell death. PKCβ-mediated phosphorylation of serine 36 in p66 has been implicated as a key regulatory step preceding mitochondrial translocation, ROS production, and cell death, and PKCβ thus may provide a target for therapeutic intervention. We performed a reassessment of PKCβ regulation of the oxidoreductase activity of p66. Although our experiments did not substantiate Ser36 phosphorylation by PKCβ, they instead provided evidence for Ser139 and Ser213 as PKCβ phosphorylation sites regulating the pro-oxidant and pro-apoptotic function of p66. Mutation of another predicted PKCβ phosphorylation site also located in the phosphotyrosine binding domain, threonine 206, had no phenotype. Intriguingly, p66 with Thr206 and Ser213 mutated to glutamic acid showed a gain-of-function phenotype with significantly increased ROS production and cell death induction. Taken together, these data argue for a complex mechanism of PKCβ-dependent regulation of p66 activation involving Ser139 and a motif surrounding Ser213. |
Databáze: | OpenAIRE |
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