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Tubular β-catenin alleviates mitochondrial dysfunction and cell death in acute kidney injury

Hongyu Li, Joseph C.K. Leung, Wai Han Yiu, Loretta Y.Y. Chan, Бин Ли, Sarah W.Y. Lok, Rui Xue, Yixin Zou, Kar Neng Lai, Sydney Tang

2022Cell Death and Disease50 citationsDOIOpen Access PDF

Abstract

Mitochondria take part in a network of intracellular processes that regulate homeostasis. Defects in mitochondrial function are key pathophysiological changes during AKI. Although Wnt/β-catenin signaling mediates mitochondrial dysfunction in chronic kidney fibrosis, little is known of the influence of β-catenin on mitochondrial function in AKI. To decipher this interaction, we generated an inducible mouse model of tubule-specific β-catenin overexpression (TubCat), and a model of tubule-specific β-catenin depletion (TubcatKO), and induced septic AKI in these mice with lipopolysaccharide (LPS) and aseptic AKI with bilateral ischemia-reperfusion. In both AKI models, tubular β-catenin stabilization in TubCat animals significantly reduced BUN/serum creatinine, tubular damage (NGAL-positive tubules), apoptosis (TUNEL-positive cells) and necroptosis (phosphorylation of MLKL and RIP3) through activating AKT phosphorylation and p53 suppression; enhanced mitochondrial biogenesis (increased PGC-1α and NRF1) and restored mitochondrial mass (increased TIM23) to re-establish mitochondrial homeostasis (increased fusion markers OPA1, MFN2, and decreased fission protein DRP1) through the FOXO3/PGC-1α signaling cascade. Conversely, kidney function loss and histological damage, tubular cell death, and mitochondrial dysfunction were all aggravated in TubCatKO mice. Mechanistically, β-catenin transfection maintained mitochondrial mass and activated PGC-1α via FOXO3 in LPS-exposed HK-2 cells. Collectively, these findings provide evidence that tubular β-catenin mitigates cell death and restores mitochondrial homeostasis in AKI through the common mechanisms associated with activation of AKT/p53 and FOXO3/PGC-1α signaling pathways.

Topics & Concepts

MFN2NecroptosisCell biologyMitochondrionTFAMAcute kidney injuryMitochondrial biogenesisMitochondrial fissionProgrammed cell deathBiologymitochondrial fusionProtein kinase BWnt signaling pathwayMitophagyCancer researchSignal transductionApoptosisAutophagyInternal medicineMedicineMitochondrial DNABiochemistryGeneOrgan Transplantation Techniques and OutcomesRenal and related cancersLiver physiology and pathology