Abstract
BACKGROUND: The immunomodulatory roles of cancer-associated fibroblasts (CAFs) in gastric cancer have been increasingly recognized. This study aimed to identify specific CAF subpopulations and to elucidate the mechanisms underlying their immunosuppressive effects. METHODS: We developed a single-cell RNA sequencing (scRNA-seq) protocol to enrich CAFs and matched normal fibroblasts (NFs) from stomach tissues. Bioinformatics analyses, along with in vitro and in vivo experiments, were performed to functionally validate a distinct CAF subset. RESULTS: We profiled 8,322 high-quality fibroblasts from nine patient-matched tumor and adjacent normal tissue pairs. A unique CAF subset, CD146(+) CAFs, was identified. CD146(+) CAFs were significantly enriched in the tumor microenvironment and associated with poor survival and M2-like macrophage infiltration. Tumor cells promoted CD146(+) CAFs expansion via JAG1-NOTCH3 and LGALS3-CD146 signaling. Mechanistically, NOTCH3 acted as a master regulator in CD146(+) CAFs. Tumor cell-derived JAG1 engaged NOTCH3 on CD146(+) CAFs, which triggered PI3K/AKT-mediated CD146 transcription and enhanced COL4A1 secretion. Functionally, CD146(+) CAF-derived COL4A1 bound macrophage CD44/IL7R to drive macrophage M2-like polarization, thereby suppressing CD8(+) T-cell function. Therapeutic blockade of CD146 or COL4A1 in vivo impaired M2 polarization, reinvigorated CD8(+) T-cell activity, and restrained tumor growth. CONCLUSIONS: Our findings underscore the pivotal role of CD146(+) CAFs in shaping an immunosuppressive microenvironment and highlight CD146(+) CAFs and COL4A1 as promising candidates for targeted therapy in gastric cancer.