A novel whole cancer cell vaccine based on modified β-glucan elicits robust anti-tumor immunity.

: Although autologous whole tumour cells provide broad-spectrum antigens for personalised cancer vaccines, their weak immunogenicity necessitates adjuvant co-delivery systems. : We developed a conjugate adjuvant (G-PL) by coupling modified yeast β-glucan with poly-D-lysine. Electron microscopy confirmed its binding to GL261 cell membranes. The adjuvant-cell complex (ICC@G-PL) was constructed by coating irradiated tumour cells with G-PL. We evaluated the recruitment/activation of dendritic cells (DCs), lymph node priming, tumour-specific immunity, and therapeutic efficacy in glioblastoma, colon cancer, and melanoma models. Dectin-1-mediated Th17 induction was analysed via Western blotting and flow cytometry. : G-PL (≤ 500 μg/mL) rapidly adhered to cell membranes without cytotoxicity. , it enhanced DC uptake of tumour components, maturation, and non-pathogenic Th17 differentiation. , ICC@G-PL recruited DCs at injection sites, activated draining lymph nodes, and elevated plasma levels of IL-12, TNF-α, and IFN-γ. The vaccine prolonged survival in both therapeutic and preventive models, increasing intratumoral CD8/CD4 T cell ratios, M1 macrophages, and neutrophils. Dectin-1 downregulation in DCs correlated with Th17-driven anti-tumour responses. : G-PL, a novel β-glucan-based adjuvant, enables rapid construction of autologous whole-cell vaccines. This strategy enhances tumour-specific immunity and reprogrammes the tumour microenvironment, offering a universal platform for personalised cancer immunotherapy.