AI Article Synopsis
- Reactive oxygen species (ROS), like hydrogen peroxide (H2O2), play a crucial role in cellular signaling by affecting various proteins, particularly those with critical cysteine residues, leading to a general understanding of ROS signaling as broad and nonspecific.
- New findings indicate that H2O2 signaling behaves more like a formal signal transduction cascade with organized hierarchical events, involving key players such as the mitochondrial respiratory chain, tyrosine-protein kinases Lyn and SYK (Syk).
- This signaling process is consistent across different cell types and organisms, suggesting that the mechanisms involving H2O2 and its effects on Lyn and Syk are essential for regulating a variety of cellular functions, making it an ancient and widely conserved
Article Abstract
Reactive oxygen species (ROS) such as hydrogen peroxide (H2O2) govern cellular homeostasis by inducing signaling. H2O2 modulates the activity of phosphatases and many other signaling molecules through oxidation of critical cysteine residues, which led to the notion that initiation of ROS signaling is broad and nonspecific, and thus fundamentally distinct from other signaling pathways. Here, we report that H2O2 signaling bears hallmarks of a regular signal transduction cascade. It is controlled by hierarchical signaling events resulting in a focused response as the results place the mitochondrial respiratory chain upstream of tyrosine-protein kinase Lyn, Lyn upstream of tyrosine-protein kinase SYK (Syk), and Syk upstream of numerous targets involved in signaling, transcription, translation, metabolism, and cell cycle regulation. The active mediators of H2O2 signaling colocalize as H2O2 induces mitochondria-associated Lyn and Syk phosphorylation, and a pool of Lyn and Syk reside in the mitochondrial intermembrane space. Finally, the same intermediaries control the signaling response in tissues and species responsive to H2O2 as the respiratory chain, Lyn, and Syk were similarly required for H2O2 signaling in mouse B cells, fibroblasts, and chicken DT40 B cells. Consistent with a broad role, the Syk pathway is coexpressed across tissues, is of early metazoan origin, and displays evidence of evolutionary constraint in the human. These results suggest that H2O2 signaling is under control of a signal transduction pathway that links the respiratory chain to the mitochondrial intermembrane space-localized, ubiquitous, and ancient Syk pathway in hematopoietic and nonhematopoietic cells.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4620870 | PMC |
| http://dx.doi.org/10.1073/pnas.1517932112 | DOI Listing |
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