Abstract
Identifying therapeutic targets for signet ring cell carcinoma (SRCC) of the colon and rectum is a clinical challenge because of the lack of patient-derived organoids (PDO) or patient-derived xenografts (PDX). To address this unmet need, we present a robust method for establishing PDO and PDX models. We demonstrate that these models identify novel therapeutic strategies targeting therapy resistance and peritoneal metastasis.
We derived nine PDO and PDX models from patients with colorectal SRCC. Detailed histopathologic characterization confirmed the fidelity of these models to the original tumors. Drug sensitivity assays were conducted in vitro and in vivo to assess the therapeutic efficacy and impact on peritoneal metastasis. An RNA sequencing analysis was performed to identify critical pathways contributing to therapy resistance and metastatic progression.
We successfully developed and characterized PDO and PDX models from nine patients with SRCC. The SRCC PDO and PDX models exhibited histopathologic features consistent with those of the original tumors, including high mucin content and eccentric nuclei. They demonstrated increased sensitivity to FOLFIRI combined with paclitaxel or vincristine, reducing peritoneal metastasis. RNA sequencing analysis revealed the upregulation of autophagy genes in SRCC. Treatment with chloroquine alone resulted in decreased tumor growth and peritoneal metastasis.
Our study establishes PDO and PDX models as robust platforms for studying SRCC and identifying potential therapeutic strategies. Combining FOLFIRI with paclitaxel/vincristine or chloroquine alone inhibits tumor growth and prevents peritoneal metastasis, showing promise for clinical translation. These findings suggest that combining FOLFIRI with intraperitoneal paclitaxel warrants further investigation in phase I clinical trials for patients with SRCC.
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