HIPK2 C-terminal domain inhibits NF-κB signaling and renal inflammation in kidney injury
Ye Feng, Zhengzhe Li, Heather Wang, Bi-Cheng Liu, Kyung Lee, John Cijiang He
Ye Feng, Zhengzhe Li, Heather Wang, Bi-Cheng Liu, Kyung Lee, John Cijiang He
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Research Article Nephrology

HIPK2 C-terminal domain inhibits NF-κB signaling and renal inflammation in kidney injury

Abstract

HIPK2 is a multifunctional kinase that acts as a key pathogenic mediator of chronic kidney disease and fibrosis. It acts as a central effector of multiple signaling pathways implicated in kidney injury, such as TGF-β/Smad3-mediated extracellular matrix accumulation, NF-κB–mediated inflammation, and p53-mediated apoptosis. Thus, a better understanding of the specific HIPK2 regions necessary for distinct downstream pathway activation is critical for optimal drug development for CKD. Our study now shows that caspase-6–mediated removal of the C-terminal region of HIPK2 (HIPK2-CT) lead to hyperactive p65 NF-κB transcriptional response in kidney cells. In contrast, the expression of cleaved HIPK2-CT fragment could restrain the NF-κB transcriptional activity by cytoplasmic sequestration of p65 and the attenuation of IκBα degradation. Therefore, we examined whether HIPK2-CT expression can be exploited to restrain renal inflammation in vivo. The induction of HIPK2-CT overexpression in kidney tubular cells attenuated p65 nuclear translocation, expression of inflammatory cytokines, and macrophage infiltration in the kidneys of mice with unilateral ureteral obstruction and LPS-induced acute kidney injury. Collectively, our findings indicate that the HIPK2-CT is involved in the regulation of nuclear NF-κB transcriptional activity and that HIPK2-CT or its analogs could be further exploited as potential antiinflammatory agents to treat kidney disease.

Authors

Ye Feng, Zhengzhe Li, Heather Wang, Bi-Cheng Liu, Kyung Lee, John Cijiang He

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Figure 1

HIPK2-CT abrogates p65 NF-κB signaling in HEK293T cells.

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HIPK2-CT abrogates p65 NF-κB signaling in HEK293T cells. (A) The schemat...
(A) The schematics shows WT full-length human HIPK2 structure and FLAG-tagged HIPK-CT deletion mutant. Nuclear localization signals (NLS) and caspase-6 cleavage sites on D923 and D984 are indicated. Amino acids 1–1,198 and 985–1,198 are shown. (B) The effects of HIPK2-CT were examined on transcriptional activities of p65 NF-κB, Smad3, or p53 by luciferase reporters in HEK293T cells. Cells transiently transfected with luciferase vectors were treated with 10 ng/mL TNF-α, 10 ng/mL TGF-β1, or 0.5 μg/mL adriamycin for 16 hours. Vehicle-treated cells served as negative controls. Values represent mean ± SD from 3 independent experiments. ****P < 0.0001 between indicated groups by 2-way ANOVA with Tukey’s correction. (C) HEK293T cells were transiently transfected with control (Ctrl) or FLAG-tagged HIPK2-CT plasmid, and lysates were immunoprecipitated with anti-FLAG antibody and immunoblotted using anti-p65 and anti-FLAG antibodies. (D) The same lysates were used for immunoprecipitation with anti-p65 antibody and immunoblotted with anti-p65 and anti-FLAG antibodies. Input lysates were also immunoblotted to show the expression of FLAG-tagged proteins. (E) HEK293T cells cotransfected with mCherry-p65 and GFP-HIPK2 or GFP-HIPK2-CT were imaged with confocal microscopy. The top row shows representative examples of GFP proteins, and the bottom row shows both mCherry-p65 and GFP proteins. DNA was counterstained with DAPI. Scale bar: 10 μm.