Lysine-specific histone demethylase 1a regulates nephron development and long-term transcriptional programming
Nicola Wanner, Julia Keller, Nastassia Liaukouskaya, Geoffroy Andrieux, Sandra D. Laufer, Manuel Rogg, Tillmann Bork, Wei Liang, Fabian Braun, Fabian Haas, Milagros N. Wong, Victor G. Puelles, Sydney E. Gies, Charlotte Meyer, Melanie Boerries, Martin Helmstädter, Oliver Kretz, Iris Hild, Eric Metzger, Roland Schüle, Wibke Bechtel-Walz, Tobias B. Huber
Nicola Wanner, Julia Keller, Nastassia Liaukouskaya, Geoffroy Andrieux, Sandra D. Laufer, Manuel Rogg, Tillmann Bork, Wei Liang, Fabian Braun, Fabian Haas, Milagros N. Wong, Victor G. Puelles, Sydney E. Gies, Charlotte Meyer, Melanie Boerries, Martin Helmstädter, Oliver Kretz, Iris Hild, Eric Metzger, Roland Schüle, Wibke Bechtel-Walz, Tobias B. Huber
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Research Article Development Nephrology

Lysine-specific histone demethylase 1a regulates nephron development and long-term transcriptional programming

Abstract

Low nephron endowment constitutes a risk factor for hypertension and renal disease. Epigenetic regulation is crucial for nephron progenitor cell differentiation, affecting nephron number and renal function. The role of many epigenetic modulators, such as Lysine-specific histone demethylase 1a (LSD1 or KDM1A), remains unclear. We used Kdm1a-KO mice to demonstrate that Kdm1a depletion in nephron progenitor cells results in reduced kidney size in neonates and led to glomerulosclerosis, proteinuria, and renal cysts in adults. Notably, Kdm1a deletion in podocytes or tubular cells did not replicate these effects. CRISPR/Cas9-mediated KDM1A deletion in human kidney organoids caused cyst formation and altered gene expression, with snRNA-seq revealing downregulation of podocyte genes and upregulation of metabolic genes. The presence of noncoding RNAs indicated roles in cell proliferation. Our study reveals the critical role of Kdm1a function in nephron development and highlights its affect on transcriptional programming for long-term renal function and susceptibility to cyst formation.

Authors

Nicola Wanner, Julia Keller, Nastassia Liaukouskaya, Geoffroy Andrieux, Sandra D. Laufer, Manuel Rogg, Tillmann Bork, Wei Liang, Fabian Braun, Fabian Haas, Milagros N. Wong, Victor G. Puelles, Sydney E. Gies, Charlotte Meyer, Melanie Boerries, Martin Helmstädter, Oliver Kretz, Iris Hild, Eric Metzger, Roland Schüle, Wibke Bechtel-Walz, Tobias B. Huber

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Figure 3

Loss of KDM1A during nephron formation induces massive changes in the adult kidney.

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Loss of KDM1A during nephron formation induces massive changes in the ad...
(A) Schematic of the Six2Cre Kdm1a KO. (B) Kdm1a KO animals show high levels of proteinuria. (C) Kaplan-Meier curve of KDM1A KO animals vs control animals shows decreased survival. *P < 0.05. Log-rank test. (D) Kidney weight-to-body-weight ratio does not differ at 9 weeks between WT and KO animals (n = 7). (E) Urea levels are increased in some, but not all, of the KO animals (n = 9). (F) At macroscopic view, KO kidneys showed irregular surface and cysts compared with WT kidneys. Scale bar: 2 mm. (G and H) Histological analysis of WT and KO kidney displayed sclerotic glomeruli (scale bar: 50 μm) (G) as well as accumulation of collagen (scale bar: 25 μm) (H). (I) Tom20 (mitochondria) and Megalin (proximal tubules) stainings show dilations of proximal tubules in the KO animals. Scale bars: 20 μm. (J and K) Area of proximal tubules (arbitrary units, n = 3) (J) and diameter in μm of distal tubules (n = 3) are increased (K). *P < 0.05. Unpaired 2-tailed Student’s t test (D, E, J, and K).