e16127 Background: Immunotherapy for deficient mismatch repair/microsatellite instability-high (dMMR/MSI-H) gastric/gastroesophageal junction (G/GEJ) adenocarcinoma lacks large-scale clinical evidence, especially in neoadjuvant therapy. Here, we used meta-analysis to investigate the efficacy and safety of different immunotherapy-based regimens in neoadjuvant treatment of G/GEJ cancer, and explored the relationship between effective regimens and tumor characteristics by online datasets. Methods: Following PRISMA guidelines, we searched databases and conference abstracts, including 23 clinical trials of neoadjuvant immune checkpoint inhibitors (ICIs)-based therapy for resectable dMMR/MSI-H G/GEJ cancer. We performed meta-analysis using STATA18 software. Tumor mutations were analyzed via TCGA somatic mutation data with maftools (R package), including TMB calculation and subclonal/CNV/MHC gene analysis. Tumor immune microenvironment was assessed using GEO scRNA-seq data via Cell Ranger/Seurat/Harmony processing, cell type annotation and MHC-I/II molecule analysis in tumor cells. Results: Meta-analysis showed ICIs-based therapies had significantly higher pathological complete response (pCR = 0.68) and major pathological response (MPR = 0.99) than chemotherapy alone(pCR = 0.08, MPR = 0.01). ICIs combined with chemotherapy achieved the best efficacy followed by dual ICIs, with tolerable adverse events. The R0 resection rate was approximately 100% for all regimens, while ICIs combined with chemotherapy demonstrated the highest downstaging rate. Asian populations benefited more from single-agent ICIs while Europeans had better responses to dual ICIs. Results by analyzing TCGA database revealed dMMR/MSI-H GC had higher tumor mutational burden, subclonal mutations, copy number variations and expression of MHC-I/II moleculars than dMMR/MSI-H colorectal cancer and microsatellite stability GC. Further, single-cell sequence analysis showed that the infiltration of CD8 + T and CD4 + T cells was higher in dMMR/MSI-H GC, indicating that dMMR/MSI-H GC possessed high tumor heterogeneity and immunogenicity. Conclusions: ICIs combined with chemotherapy is the optimal neoadjuvant regimen for dMMR/MSI-H G/GEJ cancer with manageable toxicity, followed by dual ICIs. Single-agent ICIs are more beneficial for Asians. Tumor heterogeneity may contribute to the superior efficacy of combination therapy, providing evidence for clinical regimen selection.
Yan et al. (Thu,) studied this question.
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