We report here that glyceraldehyde-3-phosphate dehydrogenase (GAPDH) interacts in vitro and in vivo with the protein SET. This interaction is performed through the acidic domain of SET located at the carboxy terminal region. On analysing the functional relevance of SET-GAPDH interaction, we observed that GAPDH reverses in a dose-dependent manner, the inhibition of cyclin Bcdk1 activity produced by SET. Similarly to SET, GAPDH associates with cyclin B, suggesting that the regulation of cyclin B-cdk1 activity might be mediated not only by the interaction of GAPDH with SET but also with cyclin B. To analyse the putative role of GAPDH on cell cycle progression, HCT116 cells were transfected with a GAPDH expression vector. Results indicate that overexpression of GAPDH does not affect the timing of DNA replication but induces an increase in the number of mitosis, an advancement of the peak of cyclin B-cdk1 activity and an acceleration of cell cycle progression. All these results suggest that GAPDH might be involved in cell cycle regulation by modulating cyclin B-cdk1 activity.
Proteins bound to a glutathione-S-transferase-p21Cip1 affinity column were separated by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis and identified using tandem mass spectrometry. Capillary liquid chromatography coupled to microelectrospray tandem mass spectrometry (capLC-microESI MS/MS) in an ion trap allowed identification of the proteins present in the gel bands. Of eleven bands analyzed, fifty-three proteins were identified. More than one hundred tryptic peptides were detected on-line, automatically fragmented and used for protein characterization in databases. Samples were also analyzed by off-line nanospray and matrix-assisted laser desorption/ionization mass spectrometry. CapLC-microESI MS/MS was the most efficient technique for the analysis of these protein mixtures.
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