520 Background: We previously reported the updated results of the FIRIS study, reconfirming the non-inferiority of IRIS (irinotecan/S-1) to FOLFIRI with progression-free survival (PFS) as the primary endpoint (ASCO2011 #3562). Moreover, in patients who had received prior oxaliplatin-based chemotherapy, median OS was significantly longer in the IRIS group than in the FOLFIRI group (adjusted HR=0.755, 95% CI: 0.580–0.987). The aim of this retrospective study was to elucidate molecular mechanisms underlying the better survival in the IRIS group among patients who had previously received oxaliplatin. Methods: Irinotecan-naive mCRC patients (ECOG PS 0–1, adequate organ function, resectable liver metastases) were enrolled. Resected liver metastases were available for 17 patients who had received FOLFOX and 21 patients who had received no prior oxaliplatin-based chemotherapy. Using laser captured microdissection and real-time RT-PCR, we analyzed mRNA expression of excision repair cross complementing group 1 (ERCC1) and dihydropyrimidine dehydrogenase (DPD), factors related to drug resistance and metabolism. Results: Baseline factors (sex, age, histology) of the subjects were similar in the two groups. Expression levels of nucleotide excision repair pathway gene ERCC1 and pyrimidine catabolic pathway gene DPD differed significantly between the FOLFOX group and non-oxaliplatin group. Mean expression levels of ERCC1 and DPD were respectively 1.9 and 7.4 times higher in the FOLFOX group than in the non-oxaliplatin group (ERCC1: 1.58 vs. 0.85, P=0.0005; DPD: 0.580 vs. 0.078, P=0.01). Conclusions: Increased expression of ERCC1 and DPD after first-line oxaliplatin-based chemotherapy is probably related to chemosensitivity to subsequent therapy. Tumor heterogeneity and clonal selection of tumor cells resistant to oxaliplatin may also be involved.