LAUSR

Nuclear Factor of Activated T-Cells 5 (NFAT5), also called TonEBP/OREBP, helps protecting kidney cells from the stress of extracellular hypertonic challenge. In response to hypertonicity, NFAT5 rapidly translocates into the nucleus and enhances the transcription of osmoprotective genes. Mice lacking NFAT5 have embryonic lethality, with those surviving having severe renal atrophy and hydronephrosis. Overexpression of a dominant-negative NFAT5 in all epithelial cells of the thick ascending limb, distal tubule and collecting duct (CD) leads to an impairment in the urine concentration, with reduced expression of AQP2 and urea transporters UT-A1 and UT-A2. Here, we generated a novel mouse model to assess the role of NFAT5 in the water transporting principal cells of the CD. The mouse model was generated by breeding floxed NFAT5 mice with mice specifically expressing Cre recombinase in AQP2 expressing cells (NFAT5f/f-AQP2cre+/-). AQP2cre+/- mice served as controls. For renal function analysis, mice were kept in metabolic cages for 5 days and water intake, urinary volume, osmolality, and serum and urine electrolytes were evaluated. Mice were euthanized and the kidneys were used for western blot analysis. NFAT5f/f-AQP2cre+/- mice show a significant increase of 24 hour urine output compared to the control (KO: 6.267 ± 0.9367 µl/h/g BW vs WT: 0.9593 ± 0.0796 µl/h/g BW), a decrease in the urine osmolality (KO: 505.6 ± 107.6 mOsm/Kg H2O vs WT: 6205 ± 752.7 mOsm/Kg H2O) and urea concentration. After 3h and half intraperitoneal injection of dDAVP (1ug/kg) the osmolality was still significantly low in NFAT5f/f-AQP2cre+/- mice (KO: 743.7 ± 81.77 vs WT: 3342 ± 80.14 mOsm/Kg H2O), as well as after 8h water restriction (KO: 732.8 ± 24.90 vs WT: 3784 ± 450.9 mOsm/Kg H2O). Immunoblotting demonstrated a significant decrease in AQP2, AQP3 and AQP4 abundance in cortical kidney fractions and inner medulla. There were no differences in vasopressin V2 receptor (V2R) and AVP-regulated transporters NKCC2, ROMK and alpha-ENaC. We demonstrate that NFAT5 ablation from AQP2-expressing cells results in a urinary concentration defect. NFAT5f/f-AQP2cre+/- mice have a hypoosmotic polyuria, without major effects on the AVP-V2R axis, suggesting Nephrogenic Diabetes Insipidus.