Updated project metadata. The incidence for pancreatic ductal adenocarcinoma (PDAC) is rising which has a low survival rate. In cancer, Epithelial-to-Mesenchymal transition (EMT) contribute to an aggressive phenotype. Protein Phosphatase Type 2A (PP2A) are initially regarded as tumor suppressors, the connection with EMT in patients is uncertain. We investigated the relation of a ‘PP2A’ gene signature (en-compassing catalytic, structural and regulatory subunits; and endogenous PP2A inhibitors and activators) with EMT in PDAC patients. We could demonstrate a link between PDAC and EMT in four patient datasets using datamining, correlation study and gene set analysis. Furthermore, we identified a strong association of PP2A with EMT in advanced pancreatic cancer patients and in particular a significant upregulation of PP2A inhibitor genes in aggressive/EMT-high PDAC. In vitro, pharmacological inhibition of PP2A through Okadaic acid induced EMT in human pancreatic cells. Two different cell models were developed and their morphology, gene and protein expression determined. In the more advanced OA-induced EMT model (OA7G), statistical changes in proteins of natural PP2A-inhibitors was observed and this requires further investigations. Translationally, these observations indicate that PP2A could be a central factor in cancer and it is therefore attractive to test compounds that can target PP2A enzyme activity in PDAC.