Endocytic delivery of lipocalin-siderophore-iron complex rescues the kidney from ischemia-reperfusion injury
Kiyoshi Mori, … , Prasad Devarajan, Jonathan Barasch
Kiyoshi Mori, … , Prasad Devarajan, Jonathan Barasch
Published March 1, 2005
Citation Information: J Clin Invest. 2005;115(3):610-621. https://doi.org/10.1172/JCI23056.
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Article Nephrology

Endocytic delivery of lipocalin-siderophore-iron complex rescues the kidney from ischemia-reperfusion injury

Abstract

Neutrophil gelatinase–associated lipocalin (Ngal), also known as siderocalin, forms a complex with iron-binding siderophores (Ngal:siderophore:Fe). This complex converts renal progenitors into epithelial tubules. In this study, we tested the hypothesis that Ngal:siderophore:Fe protects adult kidney epithelial cells or accelerates their recovery from damage. Using a mouse model of severe renal failure, ischemia-reperfusion injury, we show that a single dose of Ngal (10 μg), introduced during the initial phase of the disease, dramatically protects the kidney and mitigates azotemia. Ngal activity depends on delivery of the protein and its siderophore to the proximal tubule. Iron must also be delivered, since blockade of the siderophore with gallium inhibits the rescue from ischemia. The Ngal:siderophore:Fe complex upregulates heme oxygenase-1, a protective enzyme, preserves proximal tubule N-cadherin, and inhibits cell death. Because mouse urine contains an Ngal-dependent siderophore-like activity, endogenous Ngal might also play a protective role. Indeed, Ngal is highly accumulated in the human kidney cortical tubules and in the blood and urine after nephrotoxic and ischemic injury. We reveal what we believe to be a novel pathway of iron traffic that is activated in human and mouse renal diseases, and it provides a unique method for their treatment.

Authors

Kiyoshi Mori, H. Thomas Lee, Dana Rapoport, Ian R. Drexler, Kirk Foster, Jun Yang, Kai M. Schmidt-Ott, Xia Chen, Jau Yi Li, Stacey Weiss, Jaya Mishra, Faisal H. Cheema, Glenn Markowitz, Takayoshi Suganami, Kazutomo Sawai, Masashi Mukoyama, Cheryl Kunis, Vivette D’Agati, Prasad Devarajan, Jonathan Barasch

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Figure 4

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Correlates of ATN. Kidneys were harvested 24 hours after reperfusion. (A...
Correlates of ATN. Kidneys were harvested 24 hours after reperfusion. (A) N-cadherin staining was nearly abolished by ischemia-reperfusion (ATN), but it predominated apical cell-cell junctions after treatment (100 μg holo-Ngal; ATN+Ngal). (B) Full-length N-cadherin (130 kDa) was rescued by Ngal. Note the presence of N-cadherin fragments (28 kDa) in ischemia-reperfusion and sham-treated animals, but their suppression in Ngal-treated animals (arrow). In contrast, there was little change in the level of E-cadherin protein. GAPDH (38 kDa) was the loading control. (C) Tubules with TUNEL+ apoptotic cells (green fluorescence in ischemia-reperfusion injury; I/R) were reduced by pretreatment with Ngal (I/R+Ngal). TO-PRO-l was the nuclear counterstain (red) for the same field. (D) Percentage of tubules containing at least 1 apoptotic nucleus. Ischemia-reperfusion injury increased the number of positive tubules 22-fold, and Ngal reduced the activity fourfold. *P < 0.001 vs. I/R. (E) Ngal upregulated HO-1 (32 kDa) expression in ischemic kidneys. Kidneys harvested 24 hours after ischemia-reperfusion (ATN) expressed HO-1, but when animals were treated with Ngal, HO-1 expression was enhanced (ATN+Ngal). Purified HO-1 (HO-1) and rat cortex are included for comparison. GAPDH was the loading control. Scale bars: A and C, 9 μm; A, inset, 4.6 μm.