260 Background: Advances in technology of genomic sequencing have revealed the mutational landscape of pancreatic cancer. However, little is known with regard to molecular mechanisms underlying clinical diversity in “unresectable” advanced pancreatic cancer. Methods: We performed whole-exome sequencing using frozen cancer tissues prospectively obtained by EUS-FNA from primary tumors before chemotherapy in patients with metastatic or locally advanced pancreatic cancer (n = 35). All patients had pathological confirmation (adenocarcinoma, n = 34; carcinoma, n = 1). Somatic alterations in the cancer genome were compared with clinical outcomes. Results: Seventeen patients had metastatic disease and 18 had locally advanced disease. Thirty-four patients received chemotherapy with or without radiotherapy and one patient was treated with supportive care alone because of rapidly progressive disease. With a median follow-up time of 60.6 months (range 41.9–94.0) for censored cases, the median survival for all patients was 10.8 months. Nine patients survived more than 2 years ( > 6 years, n = 2; > 3 years, n = 3; > 2 years, n = 4), while 11 patients died within 4 months. We show mutational landscape of unresectable advanced pancreatic cancer and identified somatic mutations in known cancer related genes including KRAS (89%), TP53 (71%), SMAD4 (20%), CDKN2A (17%) and ARID1A (14%). We found that ARID1A mutation was mutually exclusive with TP53 mutation except for one tumor and had a significant correlation with survival outcomes. Among 9 patients who survived more than 2 years, 5 patients (56%) had ARID1A somatic mutation, whereas none (0%) had mutations in the remaining 26 patients who died within 2 years ( P = 0.0004). The median overall survival was 47.7 months for 5 patients with ARID1A-mutated tumors and 8.9 months for 30 patients with ARID1A wild-type tumors ( P = 0.0101). Conclusions: This is the first study to perform whole-exome sequencing in unresectable pancreatic cancer patients including very long-term survivors. We found that ARID1A mutations were associated with longer survival.