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. 2025 Jul 2;33(7):3307-3320.
doi: 10.1016/j.ymthe.2025.03.044. Epub 2025 Mar 28.

Urine-derived stem cells display homing, incorporation, and regeneration in human organoid and mouse models of acute kidney injury

Julie Bejoy  1 Richard C Welch  1 Eddie S Qian  1 Felisha M Williams  1 Katherine N Gibson-Corley  2 Matthew H Wilson  3 Neal Paragas  4 Lauren E Woodard  5
Affiliations

Urine-derived stem cells display homing, incorporation, and regeneration in human organoid and mouse models of acute kidney injury

Julie Bejoy et al. Mol Ther. .

Abstract

Urine-derived stem cells (USCs) are adult human stem cells that can be collected noninvasively from urine and cultured in vitro. Because of their renal origin and reported therapeutic effects, we hypothesized that USCs would home to the injured kidney in acute kidney injury (AKI) models. We used mouse models of glycerol-induced rhabdomyolysis or unilateral nephrectomy with clamping ischemia reperfusion injury to model AKI. To track USC homing by live animal imaging, we administered luciferase-expressing (Luc) USCs to mice by intraperitoneal injection. We observed USC localization to both the tubules and glomeruli of injured mice within 3 h by histology. We confirmed the presence of Luc-USCs in the kidney at 3 h, 24 h, and 48 h after the injection using biodistribution analysis of quantitative bioluminescence tomography imaging. We performed immunostaining for kidney injury molecule-1 (KIM-1/HAVCR1/TIM-1) for kidney injury and found reduced expression in USC-treated group at 24 h after injection. To evaluate the effects of the human USCs on injured human nephrons, we injured human kidney organoids with the nephrotoxin cisplatin (5 μM) followed by 5 × 104 USC treatment. USCs were incorporated and lowered expression of KIM-1 in the organoids. USCs home to injured nephrons and reduce measures of kidney injury.

Keywords: acute kidney injury; bioluminescence imaging; ischemia reperfusion injury; kidney; kidney organoids; nephrology; renal; rhabdomyolysis; stem cell therapy; urine-derived stem cells.

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Conflict of interest statement

Declaration of interests M.H.W. and L.E.W. have received laboratory funding in the past from Bayer AG and Saliogen Therapeutics. M.H.W. currently receives laboratory funding from Torque Bio, Inc. J.B. and L.E.W. have licensed an unrelated technology to STEMCELL Technologies. N.P. is a founder of the company InVivoAx.

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