Renal collecting duct epithelial cells regulate inflammation in tubulointerstitial damage in mice
Katsuhito Fujiu, … , Ichiro Manabe, Ryozo Nagai
Katsuhito Fujiu, … , Ichiro Manabe, Ryozo Nagai
Published August 8, 2011
Citation Information: J Clin Invest. 2011;121(9):3425-3441. https://doi.org/10.1172/JCI57582.
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Renal collecting duct epithelial cells regulate inflammation in tubulointerstitial damage in mice

Abstract

Renal tubulointerstitial damage is the final common pathway leading from chronic kidney disease to end-stage renal disease. Inflammation is clearly involved in tubulointerstitial injury, but it remains unclear how the inflammatory processes are initiated and regulated. Here, we have shown that in the mouse kidney, the transcription factor Krüppel-like factor–5 (KLF5) is mainly expressed in collecting duct epithelial cells and that Klf5 haploinsufficient mice (Klf5+/– mice) exhibit ameliorated renal injury in the unilateral ureteral obstruction (UUO) model of tubulointerstitial disease. Additionally, Klf5 haploinsufficiency reduced accumulation of CD11b+F4/80lo cells, which expressed proinflammatory cytokines and induced apoptosis among renal epithelial cells, phenotypes indicative of M1-type macrophages. By contrast, it increased accumulation of CD11b+F4/80hi macrophages, which expressed CD206 and CD301 and contributed to fibrosis, in part via TGF-β production — phenotypes indicative of M2-type macrophages. Interestingly, KLF5, in concert with C/EBPα, was found to induce expression of the chemotactic proteins S100A8 and S100A9, which recruited inflammatory monocytes to the kidneys and promoted their activation into M1-type macrophages. Finally, assessing the effects of bone marrow–specific Klf5 haploinsufficiency or collecting duct– or myeloid cell–specific Klf5 deletion confirmed that collecting duct expression of Klf5 is essential for inflammatory responses to UUO. Taken together, our results demonstrate that the renal collecting duct plays a pivotal role in the initiation and progression of tubulointerstitial inflammation.

Authors

Katsuhito Fujiu, Ichiro Manabe, Ryozo Nagai

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Figure 9

KLF5 transactivates the Cebpa, S100a8, and S100a9 promoters.

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KLF5 transactivates the Cebpa, S100a8, and S100a9 promoters. (A) Exp...
(A) Expression of C/EBPα protein in mIMCD-3 cells infected with Ad-empty, Ad-LacZ, or Ad-KLF5. (B) Effects of KLF5 on the activity of the Cebpa proximal promoter. mIMCD3 cells were transfected with Cebpa promoter reporter constructs containing the indicated mutations within the putative KLF5-binding sites plus either an empty (CAG-empty) or KLF5-encoding (CAG-KLF5) plasmid. The luciferase activity of each reporter construct cotransfected with CAG-KLF5 was normalized to that of the reporter cotransfected with CAG-empty. Mutant sequences (indicated by μ) are shown schematically. n = 6. *P < 0.05. (C) Effects of KLF5 and C/EBPα on S100a8 and S100a9 promoter activity. Luciferase reporters driven by the promoters were cotransfected with expression vectors for KLF5 and C/EBPα (CAG-Cepba), as indicated. Luciferase activity was normalized to that of the reporter construct cotransfected with CAG-empty. n = 6. (D and E) Relative activation of mutant S100a8 and S100a9 promoters by KLF5 and C/EBPα. Mutant sequences are shown schematically. n = 6. *P < 0.05. (F) Mammalian two-hybrid analysis of the interaction between KLF5 and C/EBPα. mIMCD-3 cells were transfected with the indicated combinations of plasmids containing the Gal4-DNA binding domain fused to the full-length KLF5 (pBIND-KLF5) and the VP16-activation domain fused to the full-length C/EBPα (pACT-Cebpa), along with a reporter plasmid (pG5-luc). n = 6. *P < 0.05 versus cells transfected with pBIND-empty and pACT-empty. (G) Physical interaction between KLF5 and C/EBPα. Lysates of mIMCD-3 cells expressing Flag-tagged KLF5 (Fl-KLF5) and C/EBPα were immunoprecipitated with antibody against Flag, C/EBPα, or control IgG. Immunoprecipitates were probed for C/EBPα or KLF5.