Publications by authors named "R V Sorg"
Dendritic cells (DCs) are critical players at the intersection of innate and adaptive immunity, making them ideal candidates for anticancer vaccine development. DC-based immunotherapies typically involve isolating patient-derived DCs, pulsing them with tumor-associated antigens (TAAs) or tumor-specific antigens (TSAs), and utilizing maturation cocktails to ensure their effective activation. These matured DCs are then reinfused to elicit tumor-specific T-cell responses.
View Article and Find Full Text PDFDendritic cell vaccination is a form of active immunotherapy that aims to exploit the crucial role of DC in the initiation of T-cell responses. Numerous vaccination trials have been conducted targeting various tumor entities, including glioblastoma, the most frequent and aggressive malignant brain tumor in adults. They have demonstrated feasibility and safety and suggest improved survival, associated with induction of anti-tumoral immunity.
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- * Research suggests that dendritic cell (DC) vaccines can trigger a beneficial type I interferon response, but preclinical trials show these vaccines don't work well in T cell-depleted environments.
- * Combining DC vaccines with PD-L1 blockade can effectively reduce tumor growth by targeting immunosuppressive macrophages, suggesting a need for comprehensive strategies in treating T cell-depleted tumors.
Clinically relevant immunological biomarkers that discriminate between diverse hypofunctional states of tumor-associated CD8 T cells remain disputed. Using multiomics analysis of CD8 T cell features across multiple patient cohorts and tumor types, we identified tumor niche-dependent exhausted and other types of hypofunctional CD8 T cell states. CD8 T cells in "supportive" niches, like melanoma or lung cancer, exhibited features of tumor reactivity-driven exhaustion (CD8 T).
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