Nanosensor detection of reactive oxygen and nitrogen species leakage in frustrated phagocytosis of nanofibres.
Yu-Ting QiFu-Li ZhangSi-Yu TianHui-Qian WuYi ZhaoXin-Wei ZhangYan-Ling LiuPingqing FuChristian AmatoreWei-Hua HuangPublished in: Nature nanotechnology (2024)
Exposure to widely used inert fibrous nanomaterials (for example, glass fibres or carbon nanotubes) may result in asbestos-like lung pathologies, becoming an important environmental and health concern. However, the origin of the pathogenesis of such fibres has not yet been clearly established. Here we report an electrochemical nanosensor that is used to monitor and quantitatively characterize the flux and dynamics of reactive species release during the frustrated phagocytosis of glass nanofibres by single macrophages. We show the existence of an intense prolonged release of reactive oxygen and nitrogen species by single macrophages near their phagocytic cups. This continued massive leakage of reactive oxygen and nitrogen species damages peripheral cells and eventually translates into chronic inflammation and lung injury, as seen during in vitro co-culture and in vivo experiments.