AI Article Synopsis
- Nanoscale metal-organic frameworks with porphyrins (Por-nMOFs) are being developed for photodynamic therapy (PDT) to efficiently convert oxygen into cancer-killing singlet oxygen, even in challenging hypoxic tumor environments.
- Researchers are creatively using the porous nature of Por-nMOFs to deliver hypoxia-activated prodrugs, like tirapazamine (TPZ), which can be activated by the low oxygen levels in tumors, enhancing the therapeutic effect alongside PDT.
- The review highlights recent advances in Por-nMOFs focusing on improving their properties for better stability and targeting, while showcasing the potential of these frameworks to combine chemotherapy and PDT for more effective cancer treatment.
Article Abstract
Nanoscale metal-organic frameworks integrated with porphyrins (Por-nMOFs) have emerged as efficient nanoplatforms for photodynamic therapy (PDT), which relies on the conversion of molecular oxygen into cytotoxic singlet oxygen. However, the hypoxic microenvironment within tumors significantly limits the efficacy of PDT. To address this challenge, researchers have explored various strategies to either alter or exploit the hypoxic conditions in tumors. One such strategy involves leveraging the porous structure of Por-nMOFs to load hypoxia-activated prodrugs (HAPs) like tirapazamine (TPZ), thereby utilizing the tumor's intrinsic hypoxic environment to trigger a chemotherapeutic effect that synergizes with PDT. Advances in nanoscience have enabled the development of porphyrin-based nMOFs capable of simultaneously loading both porphyrin photosensitizers and TPZ, ensuring effective release within cancer cells under high-phosphate conditions. The subsequent activation of co-loaded TPZ, by the tumor's own hypoxic microenvironment, and that created during PDT, facilitates a combined PDT and chemotherapy approach. This method not only enhances the suppression of cancer cell proliferation but also improves control over tumor metastasis while mitigating the negative impact of hypoxia on singular Por-nMOFs in PDT. This review summarizes recent advances in Por-nMOFs research, focusing on the design strategies for enhancing water dispersibility, circulatory stability, and targeting specificity through post-synthetic modifications. Additionally, this review highlights the bioapplication of Por-nMOFs by integrating TPZ chemotherapy and other therapeutic modalities to combat hypoxic and metastatic malignancies. We anticipate that this review will inspire further research into Por-nMOFs and advance their application in biomedicine.
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