Hnf4a deletion in the mouse kidney phenocopies Fanconi renotubular syndrome
Sierra S. Marable, … , S. Steven Potter, Joo-Seop Park
Sierra S. Marable, … , S. Steven Potter, Joo-Seop Park
Published July 25, 2018
Citation Information: JCI Insight. 2018;3(14):e97497. https://doi.org/10.1172/jci.insight.97497.
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Research Article Development Nephrology

Hnf4a deletion in the mouse kidney phenocopies Fanconi renotubular syndrome

Abstract

Different nephron tubule segments perform distinct physiological functions, collectively acting as a blood filtration unit. Dysfunction of the proximal tubule segment can lead to Fanconi renotubular syndrome (FRTS), with major symptoms such as excess excretion of water, glucose, and phosphate in the urine. It has been shown that a mutation in HNF4A is associated with FRTS in humans and that Hnf4a is expressed specifically in proximal tubules in adult rat nephrons. However, little is known about the role of Hnf4a in nephrogenesis. Here, we found that Hnf4a is expressed in both presumptive and differentiated proximal tubules in the developing mouse kidney. We show that Hnf4a is required for the formation of differentiated proximal tubules but is dispensable for the formation of presumptive proximal tubules. Furthermore, we show that loss of Hnf4a decreased the expression of proximal tubule–specific genes. Adult Hnf4a mutant mice presented with FRTS-like symptoms, including polyuria, polydipsia, glycosuria, and phosphaturia. Analysis of the adult Hnf4a mutant kidney also showed proximal tubule dysgenesis and nephrocalcinosis. Our results demonstrate the critical role of Hnf4a in proximal tubule development and provide mechanistic insight into the etiology of FRTS.

Authors

Sierra S. Marable, Eunah Chung, Mike Adam, S. Steven Potter, Joo-Seop Park

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Figure 2

Deletion of Hnf4a by Six2GFPcre leads to a defect in proximal tubule (PT) formation.

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Deletion of Hnf4a by Six2GFPcre leads to a defect in proximal tubule (PT...
(A) Loss of Hnf4a in the developing nephron inhibits the formation of differentiated PTs. Presumptive PTs show weak LTL staining at their apical side (marked by white arrowheads, LTL-low). Differentiated PTs have strong LTL staining (marked by yellow arrowheads, LTL-high). The Hnf4a mutant kidney (right column) has fewer LTL-high cells, and these LTL-high cells still express Hnf4a, suggesting that they escaped Cre-mediated deletion of Hnf4a. Images are representative of n = 3. (B) Deletion of Hnf4a does not affect formation of other nephron segments (WT1, podocytes; Slc12a1, loop of Henle; Slc12a3, distal tubule). Images are representative of n = 4 Hnf4a mutants and n = 2 controls. (C) qPCR analysis of segment-specific markers shows that PT-specific expression of Slc34a1 is significantly lower in the Hnf4a mutant kidney compared with the control (Nphs2, podocyte; Slc34a1, proximal tubule; Slc12a1, loop of Henle; Slc12a3, distal tubule). n = 3. Error bars indicate ± SD. *P < 0.05, determined by 2-tailed Student’s t test. Scale bars: 100 μm.