Patient-derived organoids as a potential tool for clinical decision in advanced gallbladder cancer.

Abstract

e16717 Background: Human gallbladder cancer research lacks in vitro models that can recapitulate the pathophysiology of the original tumor and normal epithelia. Organoids cultures emulate the tumor heterogeneity and have been successively used as translational models to evaluate clinical response to anticancer drug. Here, we established and characterized patients derived organoids culture (PDOs) from human gallbladder cancer patients. Methods: Fresh tissues obtained from gallbladder cancer patients who underwent cholecystectomy were digested with Collagenase/Dispase, filtered and then suspension cells were mixed with Matrigel (1:1) for organoids establishment. Cultures were maintained at 37°C and 5% CO2. The organoids were characterized through histopathology evaluation, immunohistochemistry, and ultra-deed targeted sequencing (TruSeq protocol, Illumina, TSACP; 25 genes). In addition, we evaluated the response of organoids to gemcitabine, cisplatin and Fluorouracil (5-FU), using the CellTiter-Glo 3D luminescence assay. Results: We have successfully established PDOs cultures from six patients with gallbladder adenocarcinoma with a 60% efficiency (6/10). The PDOs recapitulated the histological features and maintained the expression of CK19, Ki67, P53 as compared with the epithelia of primary tumors. Moreover, the PDOs maintained the mutational status of major driver genes, including TP53 and PIK3CA. Finally, tumor organoids showed differential response to standard chemotherapy treatment. GBC-PDO2 and GBC-PDO4 showed high resistant to gemcitabine (IC50 > 10μM), which suggests that the personalized treatment is necessary for generate better response. Conclusions: the established gallbladder tumor organoids exhibited similar histological and genomic features in relation to their original epithelia. PDOs can be considered a valuable tool for future research aimed to understand gallbladder cancer biology and for developing personalized-medicine approaches for advanced gallbladder cancer patients. (Funding Source: FONDECYT #1171463, FONDECYT #1170893 and Fondef IT16I10051).