Lipocalin-2 derived from adipose tissue mediates aldosterone-induced renal injury
Wai Yan Sun, Bo Bai, Cuiting Luo, Kangmin Yang, Dahui Li, Donghai Wu, Michel Félétou, Nicole Villeneuve, Yang Zhou, Junwei Yang, Aimin Xu, Paul M. Vanhoutte, Yu Wang
Wai Yan Sun, Bo Bai, Cuiting Luo, Kangmin Yang, Dahui Li, Donghai Wu, Michel Félétou, Nicole Villeneuve, Yang Zhou, Junwei Yang, Aimin Xu, Paul M. Vanhoutte, Yu Wang
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Research Article Inflammation Nephrology

Lipocalin-2 derived from adipose tissue mediates aldosterone-induced renal injury

Abstract

Lipocalin-2 is not only a sensitive biomarker, but it also contributes to the pathogenesis of renal injuries. The present study demonstrates that adipose tissue–derived lipocalin-2 plays a critical role in causing both chronic and acute renal injuries. Four-week treatment with aldosterone and high salt after uninephrectomy (ANS) significantly increased both circulating and urinary lipocalin-2, and it induced glomerular and tubular injuries in kidneys of WT mice. Despite increased renal expression of lcn2 and urinary excretion of lipocalin-2, mice with selective deletion of lcn2 alleles in adipose tissue (Adipo-LKO) are protected from ANS- or aldosterone-induced renal injuries. By contrast, selective deletion of lcn2 alleles in kidney did not prevent aldosterone- or ANS-induced renal injuries. Transplantation of fat pads from WT donors increased the sensitivity of mice with complete deletion of Lcn2 alleles (LKO) to aldosterone-induced renal injuries. Aldosterone promoted the urinary excretion of a human lipocalin-2 variant, R81E, in turn causing renal injuries in LKO mice. Chronic treatment with R81E triggered significant renal injuries in LKO, resembling those observed in WT mice following ANS challenge. Taken in conjunction, the present results demonstrate that lipocalin-2 derived from adipose tissue causes acute and chronic renal injuries, largely independent of local lcn2 expression in kidney.

Authors

Wai Yan Sun, Bo Bai, Cuiting Luo, Kangmin Yang, Dahui Li, Donghai Wu, Michel Félétou, Nicole Villeneuve, Yang Zhou, Junwei Yang, Aimin Xu, Paul M. Vanhoutte, Yu Wang

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Figure 6

ANS treatment caused chronic renal injuries in mice with selective deletion of lcn2 alleles in kidney.

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ANS treatment caused chronic renal injuries in mice with selective delet...
(A) Wt1CreGFP-LKO mice were subjected to sham or ANS treatment as in Figure 1. Kidney, epididymal, and s.c. adipose tissues were collected after 4-week treatment. qPCR was performed to measure the lcn2 mRNA levels. The results are shown as fold changes against kidney samples of the sham control animals (A, left). ELISA was applied to examine the lipocalin-2 protein contents in kidney and epididymal adipose tissues (A, middle and right). (B) The wet weights of each kidney were recorded and calculated as percentage ratios against body weight for comparison. (C) PAS staining was used to evaluate the glomerular and tubular injuries in kidney of sham- or ANS-treated Wt1CreGFP-LKO mice (C, top). Magnification, 400×. Scale bar: 20 μm. The glomerular area, tubular cell height, and diameter were quantified by ImageJ software as described in Methods (C, bottom). (D) The gene expression levels of injury markers, including clu, kim-1, cd68, and ccl2 were examined by qPCR and presented as fold changes against the sham controls. Data are shown as mean ± SEM; *P < 0.05 vs. sham controls by Mann-Whitney nonparametric Student’s t test (n = 6).