Nanoscale Hafnium Metal-Organic Frameworks Enhance Radiotherapeutic Effects by Upregulation of Type I Interferon and TLR7 Expression.
Eunseo ChoiMadeleine LandryNathan PennockMegan NeufeldKatherine WeinfurterAndrea GoforthJoshua WalkerConroy SunPublished in: Advanced healthcare materials (2023)
Recent preclinical and clinical studies have highlighted the improved outcomes of combination radiotherapy and immunotherapy. Concurrently, the development of high-Z metallic nanoparticles as radiation dose enhancers has been explored to widen the therapeutic window of radiotherapy and potentially enhance immune activation. In this study, folate-modified hafnium-based metal-organic frameworks (HfMOF-PEG-FA) are evaluated in combination with imiquimod, a TLR7 agonist, as a well-defined interferon regulatory factor (IRF) stimulator for local antitumor immunotherapy. The enhancement of radiation dose deposition by HfMOF-PEG-FA and subsequent generation of reactive oxygen species (ROS) deregulates cell proliferation and increases apoptosis. HfMOF-PEG-FA loaded with imiquimod (HfMOF-PEG-FA@IMQ) increases DNA double-strand breaks and cell death, including apoptosis, necrosis, and calreticulin exposure, in response to X-ray irradiation. Treatment with this multipronged therapy promotes IRF stimulation for subsequent interferon production within tumor cells themselves. The novel observation is reported that HfMOF itself increases TLR7 expression, unexpectedly pairing immune agonist and receptor upregulation in a tumor intrinsic manner, and supporting the synergistic effect observed with the γH2AX assay. T-cell analysis of CT26 tumors following intratumoral administration of HfMOF-PEG-FA@IMQ with radiotherapy reveals a promising antitumor response, characterized by an increase in CD8 + and proliferative T cells.
Keyphrases
- metal organic framework
- cell death
- drug delivery
- poor prognosis
- dendritic cells
- cell proliferation
- reactive oxygen species
- cell cycle arrest
- toll like receptor
- early stage
- inflammatory response
- immune response
- radiation induced
- locally advanced
- oxidative stress
- radiation therapy
- endoplasmic reticulum stress
- long non coding rna
- dual energy
- binding protein
- computed tomography
- signaling pathway
- cancer therapy
- pi k akt
- cell therapy
- circulating tumor
- cell cycle
- squamous cell carcinoma
- adipose tissue
- magnetic resonance imaging
- rectal cancer
- high resolution
- image quality
- wound healing
- replacement therapy
- nk cells
- mass spectrometry
- high speed
- nucleic acid
- atomic force microscopy
- weight loss
- smoking cessation