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 1

Kdm1a is expressed in the nephrogenic zone of the developing kidney.

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Kdm1a is expressed in the nephrogenic zone of the developing kidney. (A...
(A) Expression pattern of Kdm1a in WT embryo at E14.5 (500 μm) and (B) WT kidney at E14.5 (100 μm) and (C) magnified view (30 μm), (D) p0 (200 μm) and (E) magnified view (30 μm) shows accumulation of mRNA in the nephrogenic zone and early nephrons during renal development of WT mice (red dotted lines) using ISH. (F) In the adult kidney, no mRNA expression is detectable (scale bar: 100 μm), (G) magnified view (scale bar: 100 μm). (H) Gene expression in whole kidney ENCODE data sets shows decrease of Kdm1a expression during aging. FPKM, Fragments Per Kilobase of transcript per Million mapped reads. (I) Western blot in whole kidney tissue shows loss of KDM1A protein in the adult kidney. (J) Schematic of conditional Kdm1a-KO reporter mouse model. (K) Proof of conditional KO by immunofluorescence staining of GFP transgene (green) and KDM1A (orange) on p0 kidneys of heterozygous and KO. Scale bar: 10 μm.