Abstract

e14521 Background: The CD73/adenosine pathway, which converts extracellular ATP to adenosine, is emerging as a promising target for immunotherapy in various cancers. In the tumor microenvironment, hypoxia triggers upregulation of adenosine-activating molecules, including CD73, a membrane-anchored enzyme expressed on cancer cells. CD73 induces the expression of PD-1 and CTLA4, and all of this leads to immunosuppression. Therefore, we focused utilizing near-infrared photoimmunotherapy (NIR-PIT) to kill CD73-expressing cells and alleviate immunosuppression. NIR-PIT is an innovative cancer treatment approach which involves irradiating NIR light after the administrated antibody-photosensitizer conjugate binds to the target cells. Methods: In vitro, anti-CD73 antibody-IR700 conjugate was prepared and added to the CMT167 and LLC cell lines, which were irradiated with NIR light under a microscope. In vivo, a mouse model was established using the CMT167 cell line. The mice were divided into 6 groups: 1) NIR-PIT group against CD73; 2) anti-PD-1 antibody group; 3) combined treatment group of 1) and 2); 4) control group; 5) anti-CD73 antibody-IR700 conjugate group; and 6) near-infrared light irradiation group. Tumor volume and survival rate were compared among these groups. Additionally, after 2 weeks of treatment, tumors in the four groups 1) to 4) above were pathologically evaluated using two different AI-equipped software programs. Results: Microscope observation revealed that NIR-PIT induced immunogenic cell death of CD73-positive mouse lung cancer cell lines in vitro. In vivo, the effect of NIR-PIT on this mouse model was also demonstrated. Although previous studies have shown the efficacy of treatment with anti-CD73 antibodies, the present study compared the CD73-IR700 conjugate group to the NIR-PIT to CD73 group, and the latter group showed better therapeutic outcomes. Additionally, the combined treatment group displayed the highest anti-tumor efficacy in terms of survival and tumor volume. Pathological evaluation of the tumor interior showed a significant increase in tumor-infiltrating lymphocytes compared to the other groups. Additionally, the percentage of tumor cells was significantly reduced, while the percentage of stroma, including fibrous tissue, was significantly increased. In line with other studies that have already reported the additive effect of combination therapy with anti-CD73 antibodies and immune checkpoint inhibitors, the present study showed that the combination therapy resulted in further activation of immune cells and enhanced the therapeutic effect. Conclusions: CD73 represents a promising target for NIR-PIT, with potential for enhanced effectiveness when used in combination with immune checkpoint inhibitors.

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