Up-regulation, Modification, and Translocation of S100A6 Induced by Exposure to Ionizing Radiation Revealed by Proteomics Profiling

The cellular response to genotoxic stress is a complex cascade of events including altered protein expression, interactions, modifications, and relocalization, leading to cell cycle arrest and DNA repair or to apoptosis. p53 protein has a central role in this process, and p53 status is an important...

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Bibliographic Details
Published in:Molecular & cellular proteomics 2007-12, Vol.6 (12), p.2122-2131
Main Authors: Orre, Lukas M., Pernemalm, Maria, Lengqvist, Johan, Lewensohn, Rolf, Lehtiö, Janne
Format: Article
Language:English
Subjects:
Blotting, Western
Cell Cycle Proteins - metabolism
Cell Line, Tumor
Electrophoresis, Polyacrylamide Gel
Humans
Lung Neoplasms - metabolism
Lung Neoplasms - pathology
Mass Spectrometry
Protein Processing, Post-Translational
Protein Transport
Proteomics
Radiation, Ionizing
S100 Calcium Binding Protein A6
S100 Proteins - metabolism
Up-Regulation
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Summary:The cellular response to genotoxic stress is a complex cascade of events including altered protein expression, interactions, modifications, and relocalization, leading to cell cycle arrest and DNA repair or to apoptosis. p53 protein has a central role in this process, and p53 status is an important factor in the response of a tumor to genotoxic anticancer therapy. We studied p53-related changes postexposure to ionizing radiation using top-down mass spectrometry. Initially two cell lines were compared, HCT116 p53 wild type (wt) and p53−/−, in a time course study postirradiation. In the p53 wt cell line a striking increase of a 10.2-kDa protein was detected, and this protein was identified with MS/MS analysis as S100A6. Further MS profiling led to detection of two post-translationally modified variants of S100A6, namely glutathionylated and cysteinylated forms. In p53 wt cells, a specific shift from glutathionylated to cysteinylated S100A6 occurred postirradiation. The p53 dependence of this specific change in protein level and modification pattern of S100A6 postirradiation was confirmed in a panel of four lung cancer cell lines (H23, U1810, H69, and A549) with different p53 status and using small interfering RNA against p53. Interestingly the closely related S100 family protein S100A4 showed the same changes in modification pattern post-ionizing radiation in the p53 wt lung cancer cell line, and S100A4 also showed p53-dependent expression. Using confocal microscopy, relocalization of S100A6 from nucleus to cytosol and a colocalization with tropomyosin in stress fibers was detected in A549 cells postirradiation. This relocalization coincided with the change in S100A6 modification pattern. Based on these results, we suggest that S100A6 and S100A4 are regulated via redox modifications in vivo and that these proteins are involved in the cellular response to genotoxic stress.
ISSN:1535-9476
1535-9484
DOI:10.1074/mcp.M700202-MCP200