Bile acids produced by gut microbiota activate TGR5 to promote colorectal liver metastasis progression by inducing MDSCs infiltration in liver

Abstract

Background: CRLM (Colorectal liver metastasis), a prevalent form of distant metastasis in colorectal cancer, is a leading cause of mortality in affected patients. Despite advancements in immunotherapy for colorectal cancer, clinical benefits in CRLM patients remain limited. The immunosuppressive liver microenvironment plays a pivotal role in facilitating metastatic colonization and disease progression.

Methods: We performed fecal metabolomics in ABX (antibiotic-treated) mice and single-cell RNA sequencing on hepatic tissues from four cohorts: CRC (colorectal cancer) , CRLM, LCA-fed CRC, and LCA-fed CRLM mice, to delineate intergroup immune heterogeneity. Cellular and molecular profiling across groups was conducted via Luminex multiplex assays, flow cytometry, and immunofluorescence. Integrated multi-omics analyses elucidated LCA-driven pathways modulating metastatic progression RESULTS: We demonstrated that LCA (lithocholic acid), a gut microbiota-derived metabolite, activates TGR5 in hepatic CAFs (cancer-associated fibroblasts) to upregulate CCL3 secretion. Elevated CCL3 levels subsequently recruit MDSCs (myeloid-derived suppressor cells) into metastatic niches. While MDSCs primarily suppress T-cell activation, we identified a paradoxical role of MDSC-derived CCL2 in attenuating immunosuppression via CCR2 signaling, suggesting a compensatory pro-inflammatory axis within the tumor microenvironment CONCLUSIONS: These findings suggest new immunotherapeutic strategies for the treatment of CRLM.

Keywords: Bile acids; CAFs; CRLM; MDSCs.