AI Article Synopsis
- - Disulfiram (DSF), known for treating alcoholism, shows potential as a cancer treatment when used with copper (Cu), raising interest in effectively delivering both to tumors while responding to the tumor environment.
- - Researchers created a smart delivery system called DSF@TA-Cu by coating DSF with tannic acid and a Cu network, which enhances its anticancer properties and promotes a reaction that further attacks cancer cells.
- - In tests, DSF@TA-Cu was more toxic to cancer cells than normal cells, causing DNA damage and reducing mitochondrial function due to reactive oxygen species (ROS), ultimately leading to cancer cell death through apoptosis.
Article Abstract
Disulfiram (DSF) is a clinical antialcoholism drug that has been confirmed to show anticancer bioactivity after chelating with Cu. Therefore, how to co-deliver DSF and Cu to tumor tissues and generate a smart response to the tumor microenvironment (TME) are the focus of repurposing DSF for the effective treatment of cancer. Herein, we fabricated facilely a smart nanosystem by coating tannic acid (TA) and Cu network on DSF, denoted as DSF@TA-Cu, which responses well to TME and forms CuET complex in situ. In such a way, besides the chemotherapy effect of CuET, the anticancer efficacy of the resulting nano-prodrug can further be augmented by a continuous Fenton-like reaction. We then tested the cytotoxicity DSF@TA-Cu with normal and cancerous cell lines. Finally, by constructing mitochondria-targeted nanoprobes, we monitored the changes in mitochondrial metabolism and explored the lethal mechanisms in A549 cells. We found that DSF@TA-Cu showed higher toxicity to cancerous cells. By analyzing the fluorescence images and surface-enhanced Raman scattering (SERS) spectra of mitochondria, we found that the DNA damage and the decrease in mitochondrial membrane potential (MMP) were closely related to the generation and accumulation of reactive oxygen species (ROS). Although activated related pathways try to counteract the effects of elevation of ROS, excessive ROS inevitably leads to apoptosis of cancer cells.
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| http://dx.doi.org/10.1021/acs.langmuir.1c03256 | DOI Listing |
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