Proteornic approach to substrates related to MAPK pathway in 293T cells

Abstract

Abundant evidence indicates that potential scaffold proteins and adaptor or linker molecules organize and specify various MAP kinase cascades. In the present study, proteomic methodologies were applied to screen these potential molecules in combination with cell morphology and cell cycle analysis. MEK1E, MKK3b, MKK5D and MKK7D were selected as representative MKKs of four main MAPK pathways. Our results showed that similar morphological transformation and G(2)/M cell cycle arrest were promoted by the over-expressed four kinases. Furthermore, global change in response to the over-expressed four kinases was characterized by differential proteomics. Eleven distinctly changed proteins were detected, in which four proteins (serine/threonine kinase 4, glutathione S-transferase p1-1, glycoprotein IX and soluble inorganic pyrophosphatase) were reported to be relative to MAPK pathways, while the other seven proteins may be new elements of substrates of the kinases. In our experiment, the expression of platelet glycoprotein IX precursor, glutathione S-transferase p1-1, peroxiredoxin 6, Ras-related protein Rab-34 and arginase 11, mitochondrial precursor was up-regulated, while the expression of serine/threonine kinase 4 (MST1) was down-regulated by the four kinases. These results suggest that these six proteins may be common targets of all the MAPK pathways in 293T cell line. Interestingly, the expression of splicing factor 313 subunit 4 and soluble inorganic pyrophosphatase (Ppase) was specifically up-regulated by MEK1E and MKK5D, and by MEK1E, MKK3b and MKK5D, respectively. The expression of methylglyoxalase was down-regulated by MEK1E and MKK7D. Furthermore, the expression of ADP-ribosylation factor-like protein I was up-regulated by MKK5D but down-regulated by MKK3b and MKK7D. These findings revealed the characteristic molecular responses to four MKKs. In conclusion, our study not only confirms that MST1, glutathione S-transferase p1-1, glycoprotein IX and soluble PPase belong to MAPK pathways, but also provides seven novel molecules for the further study of the pathways. (c) 2006 International Federation for Cell Biology. Published by Elsevier Ltd. All rights reserved.