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Endogenous and exogeneous stimuli-triggered reactive oxygen species evoke long-lived carbon monoxide to fight against lung cancer

Yujia Fang, Jianjun Yang, Xiayi Liang, Jing Wu, Mengqing Xie, Kun Zhang, Chunxia Su

2024Journal of Nanobiotechnology14 citationsDOIOpen Access PDF

Abstract

Abstract Reactive oxygen species (ROS)-associated anticancer approaches usually suffer from two limitations, i.e., insufficient ROS level and short ROS half-life. Nevertheless, no report has synchronously addressed both concerns yet. Herein, a multichannel actions-enabled nanotherapeutic platform using hollow manganese dioxide (H-MnO 2 ) carriers to load chlorin e6 (Ce6) sonosensitizer and CO donor (e.g., Mn 2 (CO) 10 ) has been constructed to maximumly elevate ROS level and trigger cascade catalysis to produce CO. Therein, intratumoral H 2 O 2 and ultrasound as endogenous and exogeneous triggers stimulate H-MnO 2 and Ce6 to produce •OH and 1 O 2 , respectively. The further cascade reaction between ROS and Mn 2 (CO) 10 proceeds to release CO, converting short-lived ROS into long-lived CO. Contributed by them, such a maximumly-elevated ROS accumulation and long-lived CO release successfully suppresses the progression, recurrence and metastasis of lung cancer with a prolonged survival rate. More significantly, proteomic and genomic investigations uncover that the CO-induced activation of AKT signaling pathway, NRF-2 phosphorylation and HMOX-1 overexpression induce mitochondrial dysfunction to boost anti-tumor consequences. Thus, this cascade catalysis strategy can behave as a general means to enrich ROS and trigger CO release against refractory cancers. Graphic Abstract

Topics & Concepts

Carbon monoxideEndogenyOxygenReactive oxygen speciesChemistryLung cancerLungMedicineInternal medicineBiochemistryOrganic chemistryCatalysisHeme Oxygenase-1 and Carbon MonoxideNanoplatforms for cancer theranosticsExtracellular vesicles in disease