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Tubular β-catenin and FoxO3 interactions protect in chronic kidney disease
Stellor Nlandu-Khodo, Yosuke Osaki, Lauren Scarfe, Haichun Yang, Melanie Phillips-Mignemi, Jane Tonello, Kenyi Saito-Diaz, Surekha Neelisetty, Alla Ivanova, Tessa Huffstater, Robert McMahon, M. Mark Taketo, Mark deCaestecker, Balakuntalam Kasinath, Raymond C. Harris, Ethan Lee, Leslie S. Gewin
Stellor Nlandu-Khodo, Yosuke Osaki, Lauren Scarfe, Haichun Yang, Melanie Phillips-Mignemi, Jane Tonello, Kenyi Saito-Diaz, Surekha Neelisetty, Alla Ivanova, Tessa Huffstater, Robert McMahon, M. Mark Taketo, Mark deCaestecker, Balakuntalam Kasinath, Raymond C. Harris, Ethan Lee, Leslie S. Gewin
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Research Article Cell biology Nephrology

Tubular β-catenin and FoxO3 interactions protect in chronic kidney disease

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Abstract

The Wnt/β-catenin signaling pathway plays an important role in renal development and is reexpressed in the injured kidney and other organs. β-Catenin signaling is protective in acute kidney injury (AKI) through actions on the proximal tubule, but the current dogma is that Wnt/β-catenin signaling promotes fibrosis and development of chronic kidney disease (CKD). As the role of proximal tubular β-catenin signaling in CKD remains unclear, we genetically stabilized (i.e., activated) β-catenin specifically in murine proximal tubules. Mice with increased tubular β-catenin signaling were protected in 2 murine models of AKI to CKD progression. Oxidative stress, a common feature of CKD, reduced the conventional T cell factor/lymphoid enhancer factor–dependent β-catenin signaling and augmented FoxO3-dependent activity in proximal tubule cells in vitro and in vivo. The protective effect of proximal tubular β-catenin in renal injury required the presence of FoxO3 in vivo. Furthermore, we identified cystathionine γ-lyase as a potentially novel transcriptional target of β-catenin/FoxO3 interactions in the proximal tubule. Thus, our studies overturned the conventional dogma about β-catenin signaling and CKD by showing a protective effect of proximal tubule β-catenin in CKD and identified a potentially new transcriptional target of β-catenin/FoxO3 signaling that has therapeutic potential for CKD.

Authors

Stellor Nlandu-Khodo, Yosuke Osaki, Lauren Scarfe, Haichun Yang, Melanie Phillips-Mignemi, Jane Tonello, Kenyi Saito-Diaz, Surekha Neelisetty, Alla Ivanova, Tessa Huffstater, Robert McMahon, M. Mark Taketo, Mark deCaestecker, Balakuntalam Kasinath, Raymond C. Harris, Ethan Lee, Leslie S. Gewin

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Figure 2

Increased β-catenin signaling protects against apoptosis in vivo and in vitro.

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Increased β-catenin signaling protects against apoptosis in vivo and in ...
(A) TUNEL staining was performed to detect apoptotic/necrotic cells in uninjured kidneys and those 6 weeks after aristolochic acid (AA) exposure. Scale bar: 50 μm. Arrows point to TUNEL+ cortical tubule nuclei. (B) The TUNEL+ cortical tubule cells were quantified by counting 10 views (at original magnification ×400) per kidney, and the fields were chosen and TUNEL+ cells counted by personnel blinded to the genotype. (C) Proximal tubule (PT) cells in vitro were treated with AA 30 μM for 7 days with a GSK-3 inhibitor (BIO) added to some cells for the last 48 hours of treatment. (D) Cell lysates were immunoblotted for cleaved caspase-3, a measurement of apoptosis, and focal adhesion kinase (FAK) for loading control. (E and F) PT cells were also treated with AA ± Wnt3a ligand with a statistically significant decrease in AA-induced apoptosis with 10 ng/mL of Wnt. Student’s t test was used for statistical comparisons between 2 groups in B and D, and ANOVA for multiple comparisons was used for F with *P < 0.05. For each of the 3 experiments in E and F, the value of Wnt3a at 5 ng/mL was normalized to 1 and others expressed relative to this with each value compared with AA without Wnt3a (control).

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