Abstract
The multifunctional core–shell structure could provide a new idea for the design and construction of MOF carriers with synergistic chemotherapy and PDT therapy and folate targeting delivery.
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•A new multifunctional core–shell carrier has been designed and synthesized.•The drug carrier exhibited several function, including co-loading drugs, targeted delivery and fluorescence imaging to enhance antitumor cytotoxicity for cancer therapy.•The multifunctional core–shell structure could provide a new idea for the design and construction of MOF carriers with synergistic chemotherapy and PDT therapy and folate targeting delivery.
Chemodynamic therapy when combined with chemotherapy opens up a new avenue for treatment of cancer. However, its development is still restricted by low targeting, high dose and toxic side effects. Herein, rational designing and construction of a new multifunctional platform with the core–shell structure 5-ALA@UiO-66-NH-FAM@CP1 (ALA = 5-aminolevulinic acid, CP1 = zirconium-pemetrexed (Zr-MTA)) has been performed. In this platform, CP1 acting as a shell is encapsulated with the UiO-66-NH2 to engender a core–shell structure that promotes and achieves a high MTA loading rate through high affinity between MTA and unsaturated Zr site of UiO-66-NH2. The 5-ALA and 5-carboxyl fluorescein (5-FAM) was successfully loaded and covalently combined with UiO-66-NH2 due to its high porosity and presence of amino groups. The characterization results indicated that the loading rate of MTA (41.03 wt%) of platform is higher than the reported values. More importantly, the in vitro and in vivo results also demonstrated that it has a good folate targeting ability and realizes high efficient antitumor activity by chemotherapy combied with photodynamic therapy (PDT). This newly developed multifunctional platform could provide a new idea for designing and constructing the carrier with chemotherapy and PDT therapy.