Photodynamic therapy (PDT), a regulatory approved cancer treatment, is reported to be capable of causing immunogenic apoptosis. The current data reveal PDT can cause the dysregulation of “eat me” and “don't eat me” signal by generating reactive oxygen species (ROS) -mediated endoplasmic reticulum (ER) stress. This dysregulation probably contribute to the increased uptake of PDT-killed Lewis lung carcinoma (LLC) cells by homologous dendritic cells (DCs), accompanied by phenotypic maturation (CD80high, CD86high, and CD40high) and functional stimulation (NOhigh, IL-10absent) of dendritic cells as well as subsequent T-cell responses. Morevover, C57BL/6 mice vaccinated with dendritic cells (DCs) pulsed with PDT-treated LLCs (PDT-DCs) or PDT-treated LLCs alone (PDT-LLCs) exhibited potent immunity against LLC tumors. In the current study, the PDT-induced immune response was characterized as a process related with the dysregulation of “eat me” signal and “don't eat me” signal, revealing the possibility for developing PDT into an antitumor vaccination strategy for personalized cancer immunotherapy.
Mast cells promote the development of colorectal cancer, and MC-derived HIF-1α plays an important role in regulating MC function. Our study reveals a novel role of MC-derived HIF-1α in the colorectal carcinoma microenvironment.
Background: Photodynamic therapy (PDT)-mediated vaccination has shown poor clinical outcomes in tumor treatment. Results: Tumor cells that escaped from PDT-mediated vaccination exhibited enhanced stem-like phenotypes and undermined immunogenicity, which were prevented by interfering TSP-1/CD47/SIRP-␣ signal axis. Conclusion: TSP-1/CD47/SIRP-␣ signal axis is associated with the malignant evolution of tumor cells upon tumor vaccination. Significance: This study provides new evidence for improving the clinical outcome of immunotherapy.
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