T-cell exclusion by tumors is one of the major obstacles for cancer immunotherapies. In colorectal cancer liver metastasis (CRC-LM) patients, effector T-cells are mainly found in the invasive margin and not in the tumor epithelium. Such T-cell exclusion might hinder an effective antitumor immune response and could account for therapy failures with immune checkpoint inhibitors, which is observed in the majority of CRC-LM patients. As T-cell infiltration and distribution are difficult to detect in patients, little is known about detailed immunotherapy effects on tumor-infiltrating lymphocytes (TIL). Therefore, we established a fully human tissue-based ex vivo cell migration analysis model to monitor T-cell infiltration and positioning in the authentic tumor microenvironment of CRC-LM patients. In brief, we isolated T-cells from fresh resected CRC-LM patient tissue samples, labeled the cells with a fluorescent dye and returned the labeled T-cells to the tissues, which were cultured for a certain time period. Besides autologous T-cells, several tissue samples were treated with non-autologous labeled T-cells isolated from a healthy donor. After tissue processing, immunostaining and cell quantification, we observed that remigration of the labeled autologous and donor T-cells into the tissues was significantly associated with numbers of endogenous TIL. The labeled autologous and donor T-cells showed a similar distribution pattern to endogenous TIL with highest densities in the invasive margin of patient tissues. No relevant changes in tumor cell numbers or apoptosis protein concentrations could be observed by both treatments. Furthermore, quantification of the chemokines CXCL9, CXCL10 and CCL5 showed significant associations with labeled autologous and donor T-cell infiltration. Interestingly, treatment with a PD1 inhibitor did not support infiltration of exogenous or endogenous T-cells into the tumor epithelium. Our findings highlight that infiltrating T-cells in CRC-LM are always positioned into the invasive margin independently of the T-cell´s origin. Especially microenvironmental factors such as CXCL9, CXCL10 and CCL5 seem to be involved in this process, preventing T-cell contact with the tumor epithelium, which could also not be abrogated by immune checkpoint inhibition. The similar infiltration and distribution pattern of T-cells in the ex vivo and in vivo settings highlights the functionality and reliability of the human tissue-based cell migration analysis model, emphasizing its use for studying therapy effects on TIL in CRC-LM patient tissues.

Citation Format: Anna Berthel, Meggy Suarez-Carmona, Jakob N. Kather, Rodrigo Rojas-Moraleda, Pornpimol Chaorentong, Nektarios A. Valous, Fee Klupp, Martin Schneider, Alexis Ulrich, Markus Buechler, Inka Zoernig, Dirk Jaeger, Niels Halama. A fully human tissue-based ex vivo cell migration analysis model to study T-cell infiltration and distribution in colorectal cancer liver metastases [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr A171.