ABSTRACT: BACKGROUND: Pancreatic ductal adenocarcinoma (PDAC) is unique for its high stromal components play important role for tumor progression and therapeutic resistance. However, relevant preclinical models that recapitulate these tumor microenvironment are lacking and how the differences in the microenvironment affect cancer cell behavior are poorly understood. Here, we investigated the effects of tumor microenvironment on cancer cells behavior and therapeutic response. METHODS: Previously established two behaviorally distinct patient-derived tumor xenografts (PDTX) models (moderate: PAC006 and poorly differentiated: PAC010) were re-implanted in Nude mice. Tumor volume, histology, immuno-histochemical, RNA sequencing and other molecular technique were used to characterize the models and study the effect of two classes of drugs (Gemcitabine (nucleoside analog) and Acriflavine (HIF-inhibitor)). RESULTS: -Models- The models recapitulated the histologic, genetic and biological characteristics of the corresponding primary tumors except the replacement of human stroma with mice stroma. The growth-rate of the tumors was significantly different between both models (cell doubling time, PAC006: 5.8 days vs PAC010: 3.6 days, p=0.005). Rapid tumor growth was associated with poor tumor differentiation that may reflect the ability of our PDTX models to mimic the cellular and non-cellular features of the parental tumor. At the molecular level, the poorly differentiated model showed increased Ki-67 staining and higher phosphorylation levels of AKT, ERK and NF-kB65. In addition, RT-qPCR, NGS and protein expression showed significant up-regulation of mesenchymal markers in tumor cells (e.g. VIM, SNAI2, HIF1A and TGF-β1) and growth factors and cytokines in mice stroma. RNA sequencing analysis from tumor cells and stroma demonstrated activation of pathways related to tumor progression and aggressiveness in PAC010 compared to PAC006. Gemcitabine treatment resulted in a shrinking of the tumor and reduction of proliferation in both models. Interestingly, gemcitabine treatment also significantly enhanced the expression of mesenchymal marker (e.g. VIM, SNAI2, SPARC, ZEB1), particularly in the well-moderately differentiated tumor model. Acriflavine had little effect on tumor growth in both models.