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Trp-tRNA synthetase bridges DNA-PKcs to PARP-1 to link IFN-款 and p53 signaling
Sajish, Mathew,Zhou, Quansheng,Kishi, Shuji,Valdez Jr, Delgado M,Kapoor, Mili,Guo, Min,Lee, Sunhee,Kim, Sunghoon,Yang, Xiang-Lei,Schimmel, Paul Nature Publishing Group, a division of Macmillan P 2012 NATURE CHEMICAL BIOLOGY Vol.8 No.6
Interferon-款 (IFN-款) engenders strong antiproliferative responses, in part through activation of p53. However, the long-known IFN-款??dependent upregulation of human Trp-tRNA synthetase (TrpRS), a cytoplasmic enzyme that activates tryptophan to form Trp-AMP in the first step of protein synthesis, is unexplained. Here we report a nuclear complex of TrpRS with the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs) and with poly(ADP-ribose) polymerase 1 (PARP-1), the major PARP in human cells. The IFN-款??dependent poly(ADP-ribosyl)ation of DNA-PKcs (which activates its kinase function) and concomitant activation of the tumor suppressor p53 were specifically prevented by Trp-SA, an analog of Trp-AMP that disrupted the TrpRS??DNA-PKcs??PARP-1 complex. The connection of TrpRS to p53 signaling in vivo was confirmed in a vertebrate system. These and further results suggest an unexpected evolutionary expansion of the protein synthesis apparatus to a nuclear role that links major signaling pathways.