Inhibition of retinoic acid signaling in proximal tubular epithelial cells protects against acute kidney injury
Min Yang, Lauren N. Lopez, Maya Brewer, Rachel Delgado, Anna Menshikh, Kelly Clouthier, Yuantee Zhu, Thitinee Vanichapol, Haichun Yang, Raymond C. Harris, Leslie Gewin, Craig R. Brooks, Alan J. Davidson, Mark de Caestecker
Min Yang, Lauren N. Lopez, Maya Brewer, Rachel Delgado, Anna Menshikh, Kelly Clouthier, Yuantee Zhu, Thitinee Vanichapol, Haichun Yang, Raymond C. Harris, Leslie Gewin, Craig R. Brooks, Alan J. Davidson, Mark de Caestecker
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Research Article Nephrology

Inhibition of retinoic acid signaling in proximal tubular epithelial cells protects against acute kidney injury

Abstract

Retinoic acid receptor (RAR) signaling is essential for mammalian kidney development but, in the adult kidney, is restricted to occasional collecting duct epithelial cells. We now show that there is widespread reactivation of RAR signaling in proximal tubular epithelial cells (PTECs) in human sepsis-associated acute kidney injury (AKI) and in mouse models of AKI. Genetic inhibition of RAR signaling in PTECs protected against experimental AKI but was unexpectedly associated with increased expression of the PTEC injury marker Kim1. However, the protective effects of inhibiting PTEC RAR signaling were associated with increased Kim1-dependent apoptotic cell clearance, or efferocytosis, and this was associated with dedifferentiation, proliferation, and metabolic reprogramming of PTECs. These data demonstrate the functional role that reactivation of RAR signaling plays in regulating PTEC differentiation and function in human and experimental AKI.

Authors

Min Yang, Lauren N. Lopez, Maya Brewer, Rachel Delgado, Anna Menshikh, Kelly Clouthier, Yuantee Zhu, Thitinee Vanichapol, Haichun Yang, Raymond C. Harris, Leslie Gewin, Craig R. Brooks, Alan J. Davidson, Mark de Caestecker

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Figure 2

Widespread activation of RAR signaling after Rhabdo-AKI.

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Widespread activation of RAR signaling after Rhabdo-AKI. (A) BUN time co...
(A) BUN time course after Rhabdo-AKI in BALB/c mice: 15 mice before injury (day 0) and day 1 after injury, 9 at day 3, and 3 at day 7. (B) Expression of injury marker mRNAs. (C) RAR target gene mRNAs in 5 uninjured and day 1 mice, 4 at day 3, and 3 at day 7. (D) Spatial distribution and kinetics of RAR signaling after Rhabdo-AKI in RARE-LacZ mice. Kidneys stained for LacZ activity, 3 before injury (day 0); 4 at days 1 and 3; 3 at day 7; and 5 at day 14 after injury. (E) Percentage of area staining for LacZ in the cortex (C); OSOM; inner stripe of the outer medulla (ISOM); and inner medulla (IM). LacZ staining at different time points after injury. LacZ staining is pseudocolored in white, and kidney regions are demarcated by dotted lines in the first panel. Scale bars: 500 mM. B and C used 1-way ANOVA; if P < 0.05, q values are shown for between-group comparisons corrected for repeat testing.