Renal clearance of polymeric nanoparticles by mimicry of glycan surface of viruses

It has been shown that viral particles such as herpes simplex virus-1 and cytomegalovirus show renal clearance despite their large size (155-240 nm). Interestingly, one of the common characteristics of these viruses is their glycoprotein rich viral envelope. Since, glycosaminoglycans (GAGs) share similarities with oligosaccharide chains in the glycoproteins, we hypothesize that modification of nanoparticles (NPs) surface with naturally found GAGs could alter NP clearance characteristics by mimicking physicochemical aspects of viral glycoprotein envelope. We demonstrate that polymeric NP bearing surfaces enriched with dermatan sulfate, chondroitin sulfate, heparin sulfate, and hyaluronic acid undergo rapid renal clearance (74% of injected dose as early as 2 h) while showing reduced liver accumulation. Ultra-structural analyses suggest that the excretion of intact NPs occurs via proximal tubule secretion, but not via glomerular filtration. Finally, we demonstrate that our bioinspired NPs are able to accumulate within the epithelial tumor microenvironment despite their efficient renal clearance. Our system provides a framework to address renal toxicity associated with repeated dosing of NP and a platform to elaborate on plausible mechanism of renal clearance of virus particle.