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Single Component Organic Photosensitizer with NIR‐I Emission Realizing Type‐I Photodynamic and GSH‐Depletion Caused Ferroptosis Synergistic Theranostics

Laiping Fang, Mingda Han, Yuan Zhang, Yue Song, Botong Liu, Minmin Cai, Mengpei Jiang, Liyun Hu, Ran Zheng, Xin Lian, Fei Yan, Keke Huang, Shouhua Feng

2023Advanced Healthcare Materials18 citationsDOIOpen Access PDF

Abstract

Abstract Phototheranostic agents have thrived as prominent tools for tumor luminescence imaging and therapies. Herein, a series of organic photosensitizers (PSs) with donor‐acceptors (D‐A) are elaborately designed and synthesized. In particular, PPR‐2CN exhibits stable near infrared‐I (NIR‐I) emission, excellent free radicals generation and phototoxicity. Experimental analysis and calculations imply that a small singlet‐triplet energy gap (Δ E S1−T1 ) and large spin‐orbit coupling (SOC) constant boost the intersystem crossing (ISC), leading to type‐I photodynamic therapy (PDT). Additionally, the specific glutamate (Glu) and glutathione (GSH) consumption abilities of PPR‐2CN inhibit the intracellular biosynthesis of GSH, resulting in redox dyshomeostasis and GSH‐depletion causing ferroptosis. This work first realizes that single component organic PS could be simultaneously used as a type‐I photodynamic agent and metal‐free ferroptosis inducer for NIR‐I imaging‐guided multimodal synergistic therapy.

Topics & Concepts

Photodynamic therapyPhotosensitizerGlutathioneSinglet oxygenIntersystem crossingPhototoxicityPhotochemistryChemistryMaterials scienceBiophysicsSinglet stateIn vitroBiochemistryOxygenExcited stateEnzymeOrganic chemistryBiologyPhysicsNuclear physicsNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsSulfur Compounds in Biology
Single Component Organic Photosensitizer with NIR‐I Emission Realizing Type‐I Photodynamic and GSH‐Depletion Caused Ferroptosis Synergistic Theranostics | Litcius