Mechamism of PAUF in pancreatic cancer pathogenesis and progression / 中华肝胆外科杂志

Pancreatic adenocarcinoma up-regulated factor(PAUF),a newly discovered gene,is highly expressed in pancreatic cancer.PAUF promotes the metastasis and progression of pancreatic cancer through many ways,such as the activation of signal pathway (CXCR4,β-catenin,TPL2/MEK/ERK,FAK/Scr),increasing the adhesiveness of pancreatic cancer cells,promoting angiogenesis and vascular permeability.Simultaneously,CXCR4,β-catenin,TPL2/MEK/ERK and FAK/Scr are closely related with gemcitabine-resistance.Based on this theory,we infer that PAUF plays a role in gemcitabine-resistance of pancreatic cancer cells.So far,no related research has been done domestic and overseas.The research may find a clue for the mechanism of chemotherapy-resistance and provide a new target spot for the therapy of pancreatic cancer.

Pancreatic adenocarcinoma up-regulated factor (PAUF) enhances the expression of beta-catenin, leading to a rapid proliferation of pancreatic cells

It is not yet understood how the enhanced expression of pancreatic adenocarcinoma up-regulated factor (PAUF; a novel oncogene identified in our recent studies), contributes to the oncogenesis of pancreatic cells. We herein report that PAUF up-regulates the expression and transcriptional activity of beta-catenin while the suppression of PAUF by shRNA down-regulates beta-catenin. The induction of beta-catenin by PAUF is mediated by the activities of Akt and GSK-3beta, but inhibition of downstream ERK does not reduce beta-catenin expression. To test whether PAUF emulates either the Wnt3a-mediated or the protein kinase A-mediated signaling pathway for the stabilization of beta-catenin, we examined the phosphorylation status of beta-catenin in the presence of PAUF compared with that of beta-catenin during treatment with Wnt3a or dibutyryl cAMP, a cell permeable cyclic AMP analogue. PAUF expression induces phosphorylation at Ser-33/37/Thr-41 and Ser-675 of beta-catenin but no phosphorylation at Ser-45, indicating that a unique phosphorylation pattern of beta-catenin is caused by PAUF. Finally, the expression of PAUF up-regulates both cyclin-D1 and c-Jun, target genes of beta-catenin, leading to a rapid proliferation of pancreatic cells; conversely decreased PAUF expression (by shRNA) results in the reduced proliferation of pancreatic cells. Treatment with hexachlorophene (an inhibitor of beta-catenin) reduces the proliferation of pancreatic cells despite the presence of PAUF. Taken together, we propose that PAUF can up-regulate and stabilize beta-catenin via a novel pattern of phosphorylation, thereby contributing to the rapid proliferation of pancreatic cancer cells.

PAUF promotes adhesiveness of pancreatic cancer cells by modulating focal adhesion kinase

Pancreatic cancer is a notorious disease with a poor prognosis and low survival rates, which is due to limited advances in understanding of the molecular mechanism and inadequate development of effective treatment options over the decades. In previous studies, we demonstrated that a novel soluble protein named pancreatic adenocarcinoma up-regulated factor (PAUF) acts on tumor and immune cells and plays an important role in metastasis and progression of pancreatic cancer. Here we show that PAUF promotes adhesiveness of pancreatic cancer cells to various extracellular matrix (ECM). Our results further support a positive correlation of activation and expression of focal adhesion kinase (FAK), a key player in tumor cell metastasis and survival, with PAUF expression. PAUF-mediated adhesiveness was significantly attenuated upon blockade of the FAK pathway. Moreover, PAUF appeared to enhance resistance of pancreatic cancer cells to anoikis via modulation of FAK. Our results suggest that PAUF-mediated FAK activation plays an important role in pancreatic cancer progression.