posted on 2014-10-03, 00:00authored byNoor O. Baqader, Marko Radulovic, Mark Crawford, Kai Stoeber, Jasminka Godovac-Zimmermann
We have used a subcellular spatial
razor approach based on LC–MS/MS-based
proteomics with SILAC isotope labeling to determine changes in protein
abundances in the nuclear and cytoplasmic compartments of human IMR90
fibroblasts subjected to mild oxidative stress. We show that response
to mild tert-butyl hydrogen peroxide treatment includes
redistribution between the nucleus and cytoplasm of numerous proteins
not previously associated with oxidative stress. The 121 proteins
with the most significant changes encompass proteins with known functions
in a wide variety of subcellular locations and of cellular functional
processes (transcription, signal transduction, autophagy, iron metabolism,
TCA cycle, ATP synthesis) and are consistent with functional networks
that are spatially dispersed across the cell. Both nuclear respiratory
factor 2 and the proline regulatory axis appear to contribute to the
cellular metabolic response. Proteins involved in iron metabolism
or with iron/heme as a cofactor as well as mitochondrial proteins
are prominent in the response. Evidence suggesting that nuclear import/export
and vesicle-mediated protein transport contribute to the cellular
response was obtained. We suggest that measurements of global changes
in total cellular protein abundances need to be complemented with
measurements of the dynamic subcellular spatial redistribution of
proteins to obtain comprehensive pictures of cellular function.