Litcius/Paper detail

Blood Retention and Kidney Clearance of Renal‐Clearable Gold Nanoparticles Strongly Correlate with Renal Injury Biomarkers

Samira Ahrari, Yi Luo, Xuhui Ning, Qi Cai, Nilum Rajora, Ramesh Saxena, Mengxiao Yu, Jie Zheng

2025Angewandte Chemie International Edition9 citationsDOIOpen Access PDF

Abstract

Renal-clearable engineered nanoparticles are typically filtered through the glomeruli and transported along the renal tubules before entering the bladder. However, the effects of glomerular leakage and tubular injury, two common features of kidney diseases, on nanoparticle transport remain poorly understood. Herein, we investigated the blood retention, kidney accumulation, and renal clearance of Au₂₅(SG)₁₈ in a doxorubicin-induced acute kidney injury (AKI) mouse model. By correlating its transport with proteinuria and urinary kidney injury molecule-1 (KIM-1), endogenous biomarkers of glomerular leakage and proximal tubular injury, respectively, we found that glomerular leakage, as indicated by a >50-fold increase in proteinuria, did not enhance its blood clearance. Instead, tubular injury significantly reduced glomerular filtration, resulting in elevated blood retention, increased kidney accumulation, and reduced renal clearance of Au₂₅(SG)₁₈. Moreover, Au₂₅(SG)₁₈ blood retention exhibited a very strong positive correlation with urinary KIM-1 (Pearson's coefficient r = 0.90), much stronger than KIM-1 correlations with conventional glomerular filtration blood markers such as serum creatinine. This suggests that Au₂₅(SG)₁₈ could serve as a sensitive exogenous blood marker of tubular injury, expanding the diagnostic potential of renal-clearable nanoparticles in kidney diseases.

Topics & Concepts

Renal functionUrologyKidneyAcute kidney injuryProteinuriaCreatinineMedicineUrinary systemRenal injuryInternal medicineChemistryEndocrinologyChronic Kidney Disease and DiabetesAcute Kidney Injury ResearchDialysis and Renal Disease Management
Blood Retention and Kidney Clearance of Renal‐Clearable Gold Nanoparticles Strongly Correlate with Renal Injury Biomarkers | Litcius