Abstract

This study shows that supramolecular arrangement of proteins in nanoparticle structure predicts nanoparticle accumulation in neutrophils in acute lung inflammation (ALI). We observed homing to inflamed lungs for a variety of nanoparticles with agglutinated protein (NAPs), defined by arrangement of protein in or on the nanoparticles via; a) hydrophobic interactions; b) crosslinking; c) electrostatic interactions. Nanoparticles with symmetric protein arrangement (e.g., viral capsids) had no selectivity for inflamed lungs. Flow cytometry and immunohistochemistry showed NAPs have tropism for pulmonary neutrophils. Protein-conjugated liposomes were engineered to recapitulate NAP tropism for pulmonary neutrophils. NAP uptake in neutrophils was shown to depend on complement opsonization. We; a) demonstrate diagnostic imaging of ALI with NAPs; b) show NAP tropism for inflamed human donor lungs; c) show NAPs can remediate pulmonary edema in ALI. This work demonstrates structure-dependent tropism for neutrophils drives NAPs to inflamed lungs and shows NAPs can detect and treat ALI.

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