Quantitative proteome analysis identifies MAP2K6 as potential regulator of LIFR-induced radioresistance in nasopharyngeal carcinoma cells.

Using Tandem Mass Tags (TMT) labeling and LC-MS/MS analysis of peptides from two cell lines (CNE2 and its radioresistant subclone CNE2-IR), we identified 754 proteins differentially expressed in CNE2-IR compared to CNE2. MAP2K6 was identified as a candidate radioresistance-related protein kinase. In vitro functional analysis revealed that over-expression of MAP2K6 significantly enhanced cell survival and colony formation following irradiation in NPC cells. Further, knockdown of MAP2K6 in radioresistant NPC cells led to decreased colony formation and increased apoptotic cells following irradiation. However, the effect of MAP2K6 in regulating the radioresistance in NPC cells did not seem to depend on p38/MAPK activity. Importantly, MAP2K6 might be required for leukemia inhibitory factor receptor (LIFR)-regulated radioresistance, as the expression levels of MAP2K6 affected LIFR/p70S6K signaling activation in NPC cells. Further, MAP2K6 kinase activity is required to activate LIFR/p70S6K signaling and to confer pro-survival effect on NPC cells. In conclusion, MAP2K6 might be an important regulator of LIFR-induced radioresistance in NPC.