A mitochondria targeting Ir(III) complex triggers ferroptosis and autophagy for cancer therapy: A case of aggregation enhanced PDT strategy for metal complexes

自噬 光动力疗法 癌症治疗 线粒体 化学 癌症研究 癌症 金属 细胞生物学 医学 生物化学 生物 细胞凋亡 内科学 有机化学
作者
Panpan Wang,Hongbao Fang,Mengmeng Wang,Guandong Zhang,Na Xu,Yan Su,Hong‐Ke Liu,Zhi Su
出处
期刊:Chinese Chemical Letters [Elsevier BV]
卷期号:36 (1): 110099-110099 被引量:21
标识
DOI:10.1016/j.cclet.2024.110099
摘要

Metal complexes hold significant promise in tumor diagnosis and treatment. However, their potential applications in photodynamic therapy (PDT) are hindered by issues such as poor photostability, low yield of reactive oxygen species (ROS), and aggregation-induced ROS quenching. To address these challenges, we present a molecular self-assembly strategy utilizing aggregation-induced emission (AIE) conjugates for metal complexes. As a proof of concept, we synthesized a mitochondrial-targeting cyclometalated Ir(III) photosensitizer Ir-TPE. This approach significantly enhances the photodynamic effect while mitigating the dark toxicity associated with AIE groups. Ir-TPE readily self-assembles into nanoaggregates in aqueous solution, leading to a significant production of ROS upon light irradiation. Photoirradiated Ir-TPE triggers multiple modes of death by excessively accumulating ROS in the mitochondria, resulting in mitochondrial DNA damage. This damage can lead to ferroptosis and autophagy, two forms of cell death that are highly cytotoxic to cancer cells. The aggregation-enhanced photodynamic effect of Ir-TPE significantly enhances the production of ROS, leading to a more pronounced cytotoxic effect. In vitro and in vivo experiments demonstrate this aggregation-enhanced PDT approach achieves effective in situ tumor eradication. This study not only addresses the limitations of metal complexes in terms of low ROS production due to aggregation but also highlights the potential of this strategy for enhancing ROS production in PDT.
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