A Multifunctional Nanocatalytic Metal-Organic Framework as a Ferroptosis Amplifier for Mild Hyperthermia Photothermal Therapy.
Ying DengDuo WangWenhua ZhaoGuanhua QiuXiaoqi ZhuQin WangTian QinJiali TangJinghang JiangNingjing LinLili WeiYichen LiuYuan XieJie ChenLiu DengJunjie LiuPublished in: Research (Washington, D.C.) (2024)
Hyperthermia therapy is considered an effective anticancer strategy. However, high temperature can trigger an excessive inflammatory response, leading to tumor self-protection, immunosuppression, metastasis, and recurrence. To address this issue, we reported a multifunctional photothermal nanoplatform to achieve mild hyperthermia photothermal therapy (mild PTT) based on cisplatin (DDP) and a ferrocene metal-organic framework (MOF-Fc) nanocomposite, which can specifically enhance ferroptosis-triggered oxidative stress levels and synchronously amplify mild hyperthermia PTT-mediated anticancer responses. Both in vitro and in vivo antineoplastic results verify the superiority of mild PTT with DDP/MOF-Fc@HA. The combination of DDP and MOF-Fc exhibits Fenton catalytic activity and glutathione depletion capacity, magnifying mild hyperthermia effects via the radical oxygen species (ROS)-adenosine triphosphate (ATP)-HSP silencing pathway, with important implications for clinical hyperthermia therapy.
Keyphrases
- metal organic framework
- inflammatory response
- cell death
- oxidative stress
- photodynamic therapy
- cancer therapy
- high temperature
- stem cells
- wastewater treatment
- nitric oxide
- heat stress
- reactive oxygen species
- cell therapy
- gold nanoparticles
- mesenchymal stem cells
- ischemia reperfusion injury
- body mass index
- diabetic rats
- genetic diversity