Multi-enzyme mimetic ultrasmall iridium nanozymes as reactive oxygen/ nitrogen species scavengers for acute kidney injury management

Acute kidney injury (AKI) is a kind of kidney disease with a high mortality rate, and is predominantly associated with abundant endogenous reactive oxygen/nitrogen species (RONS). However, there are no universal clinical treatment options currently. Development of antioxidants with high kidney enrichment is highly desired to prevent AKI. As a promising new artificial enzyme, nanozymes have attracted extensive attention over the past decade because of their commendable advantages over natural and traditional artificial enzymes. In this study, we reported ultrasmall polyvinylpyrrolidone-coated iridium nanoparticles (denoted as Ir NPs-PVP, 1.5 nm) as multi-enzyme mimetic to scavenge a variety of RONS, offering an efficient RONS-induced cellular protection. Meanwhile, computed tomography and inductively coupled plasma mass spectrometry demonstrated preferential renal uptake of Ir NPs-PVP following intravenous administration, leading to alleviate clinical symptoms in mice subjected to rhabdomyolysis- or cis-platinum-induced AKI. Impressively, ultrasmall Ir NPs-PVP exhibit relatively low systemic side effects in vivo due to rapid renal clearance via urine. Our work presents the clinically translatable potential of ultrasmall nanozymes for AKI management.

Automated summary

This study introduced ultrasmall polyvinylpyrrolidone-coated iridium nanoparticles as a promising new artificial enzyme to scavenge RONS and protect against AKI. The nanoparticles showed preferential renal uptake and alleviated clinical symptoms in mice, with relatively low systemic side effects due to rapid renal clearance. The research demonstrates the clinically translatable potential of ultrasmall nanozymes for AKI management.