Cuproptosis and Cuproptosis‐Based Synergistic Therapy for Cancer Treatment

Shen, Zhiyang; Qiu, Yu; Ding, Haizhen; Ren, Fangfang; Chen, Hongmin

doi:10.1002/cmdc.202400216

ChemMedChem

2024

DOI: 10.1002/cmdc.202400216

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Cuproptosis and Cuproptosis‐Based Synergistic Therapy for Cancer Treatment

Zhiyang Shen,

Yu Qiu,

Haizhen Ding

et al.

Abstract: Copper, as an essential trace nutrient for human, plays a crucial role in numerous cellular activities, and is vital for maintaining homeostasis in organisms. Deviations from normal intracellular copper concentration range can disrupt the cellular homeostasis and lead to cell death. Cell death is the process in which cells lose their vitality and cannot sustain normal metabolism, which has various forms. The recently discovered cuproptosis mechanism differs from the previously recognized forms, which is trigge… Show more

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References 136 publications

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Cuproptosis: an emerging domain for copper-based nanomaterials mediated cancer therapy

Zhao,

Gao

et al. 2024

MedMat

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Cuproptosis, a newly discovered copper-dependent mode of cell death, has received extensive attention in the field of cancer therapy due to its specific activation pathway. Rapid accumulation of large amounts of copper ions within the cancer cells to achieve copper overload is the key to activating cuproptosis. Advanced nanotechnology offers considerable promise for delivering ions to cancer cells, in which copper-based nanomaterials have been proposed to evoke cuproptosis-mediated cancer therapy. However, it is still a great challenge to induce copper overload specifically in tumors and efficiently activate subsequent cuproptosis-related molecular pathways. Therefore, it is necessary to summarize the strategies used to effectively activate or amplify cuproptosis based on currently developed copper-based nanomaterials, providing ideas for the design of nanomaterials in the future. In this review, copper-based nanomaterials that can be used to activate cuproptosis are systematically classified for nanomaterials selection. Subsequently, cuproptosis sensitization strategies using copper-based nanomaterials are provided to amplify the therapeutic efficiency. Meanwhile, cuproptosis-related combination therapies for maximizing treatment efficacy are delineated. Ultimately, the remaining challenges and feasible future directions in the use of cuproptosis for tumor therapy based on copper-based nanomaterials are also discussed.

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Cuproptosis: an emerging domain for copper-based nanomaterials mediated cancer therapy

Zhao,

Gao

et al. 2024

MedMat

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show abstract

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Cuproptosis and Cuproptosis‐Based Synergistic Therapy for Cancer Treatment

Cited by 1 publication

References 136 publications

Cuproptosis: an emerging domain for copper-based nanomaterials mediated cancer therapy

Cuproptosis: an emerging domain for copper-based nanomaterials mediated cancer therapy

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