Litcius/Paper detail

Voluntary‐Opsonization‐Enabled Precision Nanomedicines for Inflammation Treatment

Shuya Li, Min Li, Shaohu Huo, Qin Wang, Jing Chen, Shenggang Ding, Zhutian Zeng, Wenchao Zhou, Yucai Wang, Jun Wang

2020Advanced Materials55 citationsDOI

Abstract

Nanomedicines that target specific blood cells represent an emerging strategy to improve drug biodistribution. However, the protein corona usually disrupts nanomedicine targeting to cells and tissues. Herein, instead of exploring synthetic methods to mitigate the impact of the protein corona, its natural interactions with blood cells are leveraged and turn the protein corona into an active ingredient in treating lung inflammation. It is discovered that molecularly engineered liposomes with inverse phosphocholine lipids rapidly enrich complement fragment iC3b by "voluntary opsonization," which triggers neutrophil hijacking through complement receptor 3 phagocytosis. This neutrophil targeting is cell-state dependent as only those activated by acute inflammation display efficient neutrophil reconstruction. The liposome-loaded neutrophils migrate across the alveolar-capillary barrier, accumulate in the inflamed lung parenchyma within hours, and release their payloads to kill the bacteria. This work shows that, in addition to biological cells, the protein corona can be a new platform for active and precision nanomedicine.

Topics & Concepts

NanomedicineAntibody opsonizationInflammationBiodistributionMaterials scienceNanocarriersPhagocytosisCD11cLiposomeiC3bComplement systemDrug deliveryNanotechnologyCell biologyImmunologyMedicineOpsoninChemistryBiologyNanoparticleImmune systemBiochemistryIn vitroPhenotypeGeneNanoparticle-Based Drug DeliveryExtracellular vesicles in diseaseRNA Interference and Gene Delivery