Insulin-like growth factor 2 mRNA-binding protein 3 promotes kidney injury by regulating β-catenin signaling
Dongyan Song, … , Haiyan Fu, Youhua Liu
Dongyan Song, … , Haiyan Fu, Youhua Liu
Published December 15, 2022
Citation Information: JCI Insight. 2023;8(2):e162060. https://doi.org/10.1172/jci.insight.162060.
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Research Article Nephrology

Insulin-like growth factor 2 mRNA-binding protein 3 promotes kidney injury by regulating β-catenin signaling

Abstract

Wnt/β-catenin is a developmental signaling pathway that plays a crucial role in driving kidney fibrosis after injury. Activation of β-catenin is presumed to be regulated through the posttranslational protein modification. Little is known about whether β-catenin is also subjected to regulation at the posttranscriptional mRNA level. Here, we report that insulin-like growth factor 2 mRNA-binding protein 3 (IGF2BP3) plays a pivotal role in regulating β-catenin. IGF2BP3 was upregulated in renal tubular epithelium of various animal models and patients with chronic kidney disease. IGF2BP3 not only was a direct downstream target of Wnt/β-catenin but also was obligatory for transducing Wnt signal. In vitro, overexpression of IGF2BP3 in kidney tubular cells induced fibrotic responses, whereas knockdown of endogenous IGF2BP3 prevented the expression of injury and fibrosis markers in tubular cells after Wnt3a stimulation. In vivo, exogenous IGF2BP3 promoted β-catenin activation and aggravated kidney fibrosis, while knockdown of IGF2BP3 ameliorated renal fibrotic lesions after obstructive injury. RNA immunoprecipitation and mRNA stability assays revealed that IGF2BP3 directly bound to β-catenin mRNA and stabilized it against degradation. Furthermore, knockdown of IGF2BP3 in tubular cells accelerated β-catenin mRNA degradation in vitro. These studies demonstrate that IGF2BP3 promotes β-catenin signaling and drives kidney fibrosis, which may be mediated through stabilizing β-catenin mRNA. Our findings uncover a previously underappreciated dimension of the complex regulation of Wnt/β-catenin signaling and suggest a potential target for therapeutic intervention of fibrotic kidney diseases.

Authors

Dongyan Song, Jingyue Shang, Yinyi Long, Menghua Zhong, Li Li, Jiongcheng Chen, Yadie Xiang, Huishi Tan, Haili Zhu, Xue Hong, Fan Fan Hou, Haiyan Fu, Youhua Liu

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Figure 8

IGF2BP3 binds to β-catenin mRNA and enhances its stability.

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IGF2BP3 binds to β-catenin mRNA and enhances its stability. (A) Flowchar...
(A) Flowchart shows experimental design and procedures. qRT-PCR was performed with the primers of CTNNB1 and 18S rRNA. (B) Representative Western blots show the protein levels of IGF2BP3 from input, RIP with IgG, or αIGF2BP3. (C) Assessment of CTNNB1 mRNA in RIP by qRT-PCR. 18S rRNA was used for normalization. **P < 0.01 versus IgG control group (n = 3, t test). (D) Quantitative data show that knockdown of IGF2BP3 decreases β-catenin mRNA in HKC-8 cells. β-Actin was used for normalization. *P < 0.05 versus Ctrl siRNA group (n = 3, t test). (E and F) Representative Western blots (E) and quantitative data (F) show the expression of β-catenin protein. **P < 0.01 versus Ctrl siRNA group (n = 3, t test). (G) Knockdown of IGF2BP3 decreases β-catenin mRNA stability. *P < 0.05, **P < 0.01 versus Ctrl siRNA group (n = 3, t test). (H) Colocalization of IGF2BP3 protein and β-catenin mRNA in renal tubules after IRI. Kidney serial sections were stained for IGF2BP3 using immunohistochemical staining and β-catenin mRNA using ISH. Arrows indicate IGF2BP3 and β-catenin mRNA colocalization. Scale bar, 50 μm. (I) Colocalization of IGF2BP3 (red) and β-catenin protein (green) in renal tubules after IRI. Arrows indicate IGF2BP3 and β-catenin colocalization. Scale bar, 50 μm. (J) Working model of the reciprocal feed-forward activation loop between IGF2BP3 and β-catenin. In tubular epithelial cells, Wnts’ engagement with their receptors leads to β-catenin activation, resulting in induction of IGF2BP3. In turn, upregulated IGF2BP3 protein activates β-catenin signaling by binding to and stabilizing its mRNA. -P, dephosphorylation; CBP, cAMP response element binding protein binding protein; TBM, tubular basement membrane.