KLF4-dependent epigenetic remodeling modulates podocyte phenotypes and attenuates proteinuria
Kaori Hayashi, … , Yusuke Sakamaki, Hiroshi Itoh
Kaori Hayashi, … , Yusuke Sakamaki, Hiroshi Itoh
Published May 8, 2014
Citation Information: J Clin Invest. 2014;124(6):2523-2537. https://doi.org/10.1172/JCI69557.
View: Text | PDF
Research Article Nephrology

KLF4-dependent epigenetic remodeling modulates podocyte phenotypes and attenuates proteinuria

Abstract

The transcription factor Kruppel-like factor 4 (KLF4) has the ability, along with other factors, to reprogram somatic cells into induced pluripotent stem (iPS) cells. Here, we determined that KLF4 is expressed in kidney glomerular podocytes and is decreased in both animal models and humans exhibiting a proteinuric. Transient restoration of KLF4 expression in podocytes of diseased glomeruli in vivo, either by gene transfer or transgenic expression, resulted in a sustained increase in nephrin expression and a decrease in albuminuria. In mice harboring podocyte-specific deletion of Klf4, adriamycin-induced proteinuria was substantially exacerbated, although these animals displayed minimal phenotypical changes prior to adriamycin administration. KLF4 overexpression in cultured human podocytes increased expression of nephrin and other epithelial markers and reduced mesenchymal gene expression. DNA methylation profiling and bisulfite genomic sequencing revealed that KLF4 expression reduced methylation at the nephrin promoter and the promoters of other epithelial markers; however, methylation was increased at the promoters of genes encoding mesenchymal markers, suggesting selective epigenetic regulation of podocyte gene expression. Together, these results suggest that KLF4 epigenetically modulates podocyte phenotype and function and that the podocyte epigenome can be targeted for direct intervention and reduction of proteinuria.

Authors

Kaori Hayashi, Hiroyuki Sasamura, Mari Nakamura, Tatsuhiko Azegami, Hideyo Oguchi, Yusuke Sakamaki, Hiroshi Itoh

×

Figure 7

KLF4 expression causes demethylation of the nephrin promoter and methylation of the vimentin promoter in podocytes.

Options: View larger image (or click on image) Download as PowerPoint
KLF4 expression causes demethylation of the nephrin promoter and methyla...
(A) (Upper panel) Map of nephrin promoter MSP primers and 5 CpG sites analyzed by BGS. (Lower panel) Results of MSP using primers for unmethylated (UM, top) and methylated (M, bottom) nephrin promoter. (B and C) Results of BGS of (B) nephrin and (C) vimentin promoter in KLF4-overexpressing podocytes and controls. The columns correspond to the CpG sequences shown in Supplemental Figure 8. Each row represents a single sequenced clone. White dots, unmethylated CpGs; black dots, methylated CpGs. The bar graph shows the net methylation of the analyzed CpG sites. KLF4, KLF4-overexpressing podocytes, empty: empty vector–transfected control podocytes. (D) Relative promoter activity of pCpG-free promoter plasmid containing nephrin promoter before (–) or after (+) methylation with SssI (n = 6). (EH) (Upper panels) Results of MSP using primers for unmethylated (UM, top) and methylated (M, bottom) nephrin promoter. (Lower panels) Changes of methylation (%) using real-time MSP analysis in (E) laser-microdissected glomeruli of Klf4-transgenic mice or controls at the indicated times after starting of Dox in the protocol used for Figure 2A (n = 4), (F) laser-microdissected glomeruli of Klf4 KO mice or controls with or without ADM in the protocol used for Figure 4A (n = 4), (G) podocytes treated with KLF4 siRNA or control RNA with or without ADM in the protocol of Figure 6 (n = 6), and (H) podocytes with KLF4 and/or KLF15 siRNA for 48 hours (n = 6). *P < 0.05, **P < 0.01 vs. controls; #P < 0.05 versus the respective groups.