101. Nucleus‐Targeted Organoiridium–Albumin Conjugate for Photodynamic Cancer Therapy
- Author
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Zhang, Pingyu, Huang, Huaiyi, Banerjee, Samya, Clarkson, Guy J., Ge, Chen, Imberti, Cinzia, and Sadler, Peter J.
- Subjects
Cell Nucleus ,Models, Molecular ,Photodynamic Therapy | Very Important Paper ,Photosensitizing Agents ,Dose-Response Relationship, Drug ,Molecular Structure ,Communication ,Optical Imaging ,Antineoplastic Agents ,Serum Albumin, Human ,photosensitizers ,Iridium ,Communications ,organoiridium ,body regions ,Structure-Activity Relationship ,photodynamic therapy ,Photochemotherapy ,A549 Cells ,Coordination Complexes ,embryonic structures ,Humans ,Drug Screening Assays, Antitumor ,albumin ,Cell Proliferation - Abstract
An organoiridium–albumin bioconjugate (Ir1‐HSA) was synthesized by reaction of a pendant maleimide ligand with human serum albumin. The phosphorescence of Ir1‐HSA was enhanced significantly compared to parent complex Ir1. The long phosphorescence lifetime and high 1O2 quantum yield of Ir1‐HSA are highly favorable properties for photodynamic therapy. Ir1‐HSA mainly accumulated in the nucleus of living cancer cells and showed remarkable photocytotoxicity against a range of cancer cell lines and tumor spheroids (light IC50; 0.8–5 μm, photo‐cytotoxicity index PI=40–60), while remaining non‐toxic to normal cells and normal cell spheroids, even after photo‐irradiation. This nucleus‐targeting organoiridium‐albumin is a strong candidate photosensitizer for anticancer photodynamic therapy.
- Published
- 2019