Abstract

Abstract Cancer Organoids are discrete multicellular structures that recapitulate tumor microanatomy (1). These reagents can be generated by extended culture of partially or fully dissociated tumor samples in three-dimensional matrices. By maintaining tumor and accessory cells in an appropriate context, they provide a biosimilar platform for studying disease pathogenesis and cellular pharmacology (2). Similarly, cancer organoid culture is useful for propagating slow growing tumors or those requiring heterotypic cell-cell interactions. Here, preliminary data will be presented regarding generation of organoids from diverse tumor types as part of the NCI patient-derived models (PDM) initiative. This initiative aims to develop a national repository of patient-derived cancer models (PDMs) consisting of clinically annotated patient-derived xenografts (PDXs) and patient-derived tumor cell cultures (PDCs) prepared from primary and metastatic tumors (3). A standardized panel of different organoid media formulations was constructed to optimize culture conditions for disease subsets. Using this approach, organoids were generated for colon, prostate, pancreatic, breast, melanoma, NSCLC, and bladder tumors. Although some samples were refractory to organoid generation, in several instances, samples that failed to generate 2D cultures thrived as organoids. A further finding was that direct implantation of organoid cultures was an efficient means of generating xenografts. Indeed, work will be presented detailing the exact number of organoids required to establish xenograft tumors. Protocols were developed for routine culture, passaging and long-term storage in liquid nitrogen. Similarly, organoids were amenable to characterization by FACS analysis, ICC/IHC and qRT-PCR to evaluate metrics such as tumor type, histological similarity with patient tumor, cell viability, percentage stroma and whether mouse cells persist in PDX-derived organoids. In summary, growth, expansion, analysis and storage of tumor organoids is feasible for a wide range of tumor types. Importantly, for certain samples, generation of cancer organoids appears to be a useful intermediary step for subsequent PDX model and 2D culture generation. Funded by NCI Contract No. HHSN261200800001E.

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