AI Article Synopsis
- Disulfiram (DSF) is an approved drug for alcoholism that has shown potential anticancer effects by forming a toxic copper complex (Cu(DTC)), but its effectiveness is limited by low formation rates and side effects.
- A new nanotechnology, HfD-HID-Cu, has been developed to improve cancer treatment by co-delivering a DTC prodrug and copper specifically to tumor sites through activation by a protein (FAPα) that is highly expressed in tumors.
- This approach not only enhances the targeted anticancer effect of Cu(DTC) but also allows for real-time imaging of tumors, minimizing side effects by keeping the treatment inactive in normal tissues.
Article Abstract
Disulfiram (DSF), an FDA-approved drug for treating alcoholism, has been verified with Cu-dependent anticancer activity by forming Cu(DTC), the complex of one of its metabolites diethyldithiocarbamate (DTC) and Cu. Nevertheless, the antitumor effect is limited by insufficient Cu(DTC) formation in suit and off-target system toxicity. Herein, we developed a fibroblast activation protein α (FAPα) activatable nanoagent (HfD-HID-Cu) for co-delivery of DTC polymeric prodrug and exogenous Cu to achieve enhanced cancer-specific therapy and activatable in situ fluorescence imaging meanwhile. HfD-HID-Cu was simply constructed through the co-assembly of the DTC polymeric prodrug (HA-fap-DTC) and the copper-loaded IR808-conjugated polymer (HA-IR-DPA-Cu), which could serve as the "OFF-to-ON" switch for chemotherapy and fluorescence. With the high expression of FAPα in tumor tissues, HA-fap-DTC could be activated specifically to release DTC, while maintaining inactive in normal tissues. The liberated DTC within tumor tissues could contend for Cu from HA-IR-DPA-Cu, resulting in the formation of highly cytotoxic Cu(DTC)in situ for chemotherapy, concomitant with the fluorescence recovery of cyanine dye for tumor imaging. This work provides an effective strategy for co-delivery of DTC prodrug and Cu for tumor theranostic with improved selectivity and minimal side effects. STATEMENT OF SIGNIFICANCE: DSF-based antitumor therapy is highly dependent on Cu. However, the non-synchronous distribution of DSF/DTC and Cu in tumor tissues attenuates the antitumor efficacy. The insufficient Cu(DTC) formation in suit and off-target distribution greatly limit the anti-tumor application. This study provides a nanoagent for co-delivery of DTC polymeric prodrug and Cu by simple co-assembly to achieve their synchronous tumor distribution. It can be selectively activated by FAPα, forming cytotoxic Cu(DTC)in suit for tumor-specific chemotherapy and reducing the systemic toxicity. In addition to chemotherapy, the nanoagent can emit fluorescence under the sequential triggering of FAPα and released DTC for tumor imaging. Overall, this study renders a promising strategy for improved Cu(DTC)-based antitumor therapy and imaging.
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| http://dx.doi.org/10.1016/j.actbio.2024.08.009 | DOI Listing |
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