Lung-targeted Macrophage Biomimetic Nanocarriers Based on Platycodon Grandiflorum Polysaccharides for Calming Cytokine Storm in Pneumonia

Abstract Background Pneumonia is a life-threatening respiratory disease without effective treatment due to uncontrolled inflammation of the lung tissue. Suppression of cytokine storms may be one of the keys to saving the lives of patients with severe pneumonia. Given the fragile delivery efficiency of drugs in vivo, novel delivery platforms to address these issues are necessary. Results Here, we developed a biomimetic nanocarrier (MNPs) with macrophage membranes coated ROS-responsive Platycodon grandiflorum polysaccharides nanoparticles (PNPs) for targeted delivery of curcumin (MNPs@Cur) to inflamed lungs and treat inflammation by calming cytokine storms. In the study, we could clearly find that MNPs@Cur significantly attenuated inflammation and cytokine storm syndrome in acute lung injury (ALI) mice by neutralizing multiple proinfammatory cytokines. Interestingly, we found that the PNPs also had potent pulmonary targeting compared to other polysaccharide carriers, which probably means that PNPs have inherited the natural targeting ability in the medicinal guide theory of Traditional Chinese Medicine (TCM). Conclusion The results demonstrated that the developed drug delivery system may serve as an effective and safe nanoplatform for the treatment of pneumonia, as well as provide experimental scientific basis for the medicinal guide theory of TCM and its clinical application.