DOI: 10.1177/15353508261464127 ISSN: 1535-3508
Carrier-Free Ce6&SR717 Nanomedicine Enables Abscopal Photoimmunotherapy via cGAS-STING Activation in Breast Cancer
Xin Peng, Yi Sun, Yudong Guan, Tong Su, Xu Yang, Yanqiu Zhang, Youzhi Qi, Xiaoli Mai, Xuzhi Shi, Yongkang Dai, Guang Li, Yunmeng Bai, Pu Zhang, Xiaoyan Xin
Potent STING agonists are among the most promising strategies for reversing immunosuppression in “cold” tumors, but
in vivo
antitumor efficacy is frequently limited by dose-limiting systemic toxicity and inadequate tumor selectivity. To achieve localized STING activation and robust systemic immunity, we combined STING agonism with photodynamic therapy (PDT), creating a carrier-free nanoplatform (Ce6&SR717 NPs) through self-assembly of SR717 (STING agonist) and Ce6 (chlorin e6, photosensitizer). This excipient-free design achieves maximum drug loading, alleviates carrier-related safety issues, and realizes the spatiotemporally synchronized activation of PDT-induced immunogenic cell death and STING signaling through irradiation, which establishes an auto-amplifying cycle of on-site antigen release and systemic immune priming. In the murine breast cancer model, Ce6&SR717 NPs plus laser irradiation dramatically increased CD8
+
T-cell infiltration within the tumor, triggered strong systemic antitumor immunity, and suppressed both primary and distant tumors. Collectively, these results identify Ce6&SR717 NPs as a safe and efficient modality for synergistic photo-immunotherapy of immunologically cold tumors.