Tunable metal-organic frameworks assist in catalyzing DNAzymes with amplification platforms for biomedical applications.
Xiaoguang ZhuJiaqi XuGuixia LingPeng ZhangPublished in: Chemical Society reviews (2023)
Various binding modes of tunable metal organic frameworks (MOFs) and functional DNAzymes (Dzs) synergistically catalyze the emergence of abundant functional nanoplatforms. Given their serial variability in formation, structural designability, and functional controllability, Dzs@MOFs tend to be excellent building blocks for the precise "intelligent" manufacture of functional materials. To present a clear outline of this new field, this review systematically summarizes the progress of Dz integration into MOFs (MOFs@Dzs) through different methods, including various surface infiltration, pore encapsulation, covalent binding, and biomimetic mineralization methods. Atomic-level and time-resolved catalytic mechanisms for biosensing and imaging are made possible by the complex interplay of the distinct molecular structure of Dzs@MOF, conformational flexibility, and dynamic regulation of metal ions. Exploiting the precision of DNAzymes, MOFs@Dzs constructed a combined nanotherapy platform to guide intracellular drug synthesis, photodynamic therapy, catalytic therapy, and immunotherapy to enhance gene therapy in different ways, solving the problems of intracellular delivery inefficiency and insufficient supply of cofactors. MOFs@Dzs nanostructures have become excellent candidates for biosensing, bioimaging, amplification delivery, and targeted cancer gene therapy while emphasizing major advancements and seminal endeavors in the fields of biosensing (nucleic acid, protein, enzyme activity, small molecules, and cancer cells), biological imaging, and targeted cancer gene delivery and gene therapy. Overall, based on the results demonstrated to date, we discuss the challenges that the emerging MOFs@Dzs might encounter in practical future applications and briefly look forward to their bright prospects in other fields.
Keyphrases
- metal organic framework
- gene therapy
- nucleic acid
- photodynamic therapy
- papillary thyroid
- high resolution
- label free
- cancer therapy
- mental health
- quantum dots
- stem cells
- binding protein
- emergency department
- squamous cell
- wastewater treatment
- high throughput
- molecular dynamics simulations
- lymph node metastasis
- drug delivery
- mass spectrometry
- dna binding
- childhood cancer
- young adults
- electronic health record
- transcription factor
- single cell
- living cells
- fluorescent probe
- adverse drug