Fas (APO-1/CD95), a member of the tumor necrosis factor receptor (TNFR)/nerve growth factor receptor (NGFR) superfamily, is a cell-surface molecule that induces apoptosis upon activation. Fas-associated phosphatase-1 (FAP-1) is a 250-kDa protein tyrosine phosphatase (PTP) that is associated with the negative regulatory domain of Fas (C-terminal 15 amino acids). Human tumor cell lines become resistant to Fas-mediated apoptosis when transfected with FAP-1, indicating that FAP-1 functions as a negative regulator in Fas-mediated death signaling. However, the mechanisms by which FAP-1 inhibits apoptosis are still unclear. In order to determine how FAP-1 affects the signaling mediated by Fas, we set out to identify substrates of FAP-1. Toward this end, we prepared synthetic proteins with either the catalytic domain of FAP-1 (C-terminal 399 amino acids) or its inactive form (Cys24083Ser) fused to glutathione-S-transferase (GST). Using an in vitro dephosphorylation reaction, we found that FAP-1 dephosphorylates IkBa. Furthermore, a substrate trapping mutant was found to bind tyrosine-phosphorylated IkBa. Taken together, our data confirm that IkBa is a substrate of FAP-1.
Ewing sarcoma family tumors (ESFT) are highly aggressive and highly metastatic tumors caused by a chromosomal fusion between the Ewing sarcoma protein (EWS) with the transcription factor FLI-1. However, expression of the EWS/FLI-1 chimeric oncogene by itself is insufficient for carcinogenesis, suggesting that additional events are required. Here, we report the identification of the Akt substrate PRAS40 as an EWS target gene. EWS negatively regulates PRAS40 expression by binding the 3 0 untranslated region in PRAS40 mRNA. ESFT cell proliferation was suppressed by treatment with an Akt inhibitor, and ESFT cell proliferation and metastatic growth were suppressed by siRNA-mediated PRAS40 knockdown. Furthermore, PRAS40 knockdown was sufficient to reverse an increased cell proliferation elicited by EWS knockdown. In support of a pathologic role for PRAS40 elevation in EFST, we documented inverse protein levels of EWS and PRAS40 in ESFT cells. Together, our findings suggest that PRAS40 promotes the development of ESFT and might therefore represent a novel therapeutic target in this aggressive disease. Cancer Res; 72(5);
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