Renal proximal tubular NEMO plays a critical role in ischemic acute kidney injury
Sang Jun Han, … , Marc Schmidt-Supprian, H. Thomas Lee
Sang Jun Han, … , Marc Schmidt-Supprian, H. Thomas Lee
Published September 17, 2020
Citation Information: JCI Insight. 2020;5(19):e139246. https://doi.org/10.1172/jci.insight.139246.
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Research Article Inflammation

Renal proximal tubular NEMO plays a critical role in ischemic acute kidney injury

Abstract

We determined that renal proximal tubular (PT) NF-κB essential modulator (NEMO) plays a direct and critical role in ischemic acute kidney injury (AKI) using mice lacking renal PT NEMO and by targeted renal PT NEMO inhibition with mesoscale nanoparticle–encapsulated NEMO binding peptide (NBP MNP). We subjected renal PT NEMO–deficient mice, WT mice, and C57BL/6 mice to sham surgery or 30 minutes of renal ischemia and reperfusion (IR). C57BL/6 mice received NBP MNP or empty MNP before renal IR injury. Mice treated with NBP MNP and mice deficient in renal PT NEMO were protected against ischemic AKI, having decreased renal tubular necrosis, inflammation, and apoptosis compared with control MNP-treated or WT mice, respectively. Recombinant peptidylarginine deiminase type 4 (rPAD4) targeted kidney PT NEMO to exacerbate ischemic AKI in that exogenous rPAD4 exacerbated renal IR injury in WT mice but not in renal PT NEMO–deficient mice. Furthermore, rPAD4 upregulated proinflammatory cytokine mRNA and NF-κB activation in freshly isolated renal proximal tubules from WT mice but not from PT NEMO–deficient mice. Taken together, our studies suggest that renal PT NEMO plays a critical role in ischemic AKI by promoting renal tubular inflammation, apoptosis, and necrosis.

Authors

Sang Jun Han, Ryan M. Williams, Mihwa Kim, Daniel A. Heller, Vivette D’Agati, Marc Schmidt-Supprian, H. Thomas Lee

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Figure 1

Confirmation of renal proximal tubule cell NEMO deletion in proximal tubule cell NEMO–null mice.

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Confirmation of renal proximal tubule cell NEMO deletion in proximal tub...
(A) NEMO mRNA normalized to GAPDH from qRT-PCR reactions in isolated proximal tubule cells, bone marrow–derived macrophages, whole kidney, liver, spleen, and small intestine of WT NEMOfl/fl and NEMOfl/fl PEPCK-Cre mice. (B) NEMO protein normalized to β-actin in isolated proximal tubule cells of NEMOfl/fl and NEMOfl/fl PEPCK-Cre mice. The bands below approximately 50 kDA predicted molecular weight of NEMO may represent truncated forms, varying glycosylation products, and cleaved fragments. For statistical analysis, Student’s t test was used to detect significant changes. *P < 0.05 versus NEMOfl/fl mice (N = 3–8). Error bars represent 1 SEM. (C) Confirmation of renal proximal tubule cell–specific MNP delivery. Mouse kidney sections stained with anti-PEG antibody to detect MNP localization and PHA-lectin to mark renal proximal tubule cells or with anti–aquaporin-2 antibody to mark renal collecting ducts and counterstained with DAPI to visualize cell nuclei. Mice were injected with 38 mg/kg NBP MNP or with vehicle control 6 hours before renal IR injury. Renal proximal tubular distribution pattern for PEG was confirmed by colocalization of PEG antibody staining and PHA lectin staining in MNP-injected mice (×200 original magnification images shown, representative of 3 experiments). However, PEG staining was not detected in the lung, spleen, or liver (×200 original magnification images shown, representative of 3 experiments). Scale bar: 50 μm.