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Human pluripotent stem cell-derived kidney organoids for personalized congenital and idiopathic nephrotic syndrome modeling.

Development (Cambridge, England) (2022-04-14)
Jitske Jansen, Bartholomeus T van den Berge, Martijn van den Broek, Rutger J Maas, Deniz Daviran, Brigith Willemsen, Rona Roverts, Marit van der Kruit, Christoph Kuppe, Katharina C Reimer, Gianluca Di Giovanni, Fieke Mooren, Quincy Nlandu, Helmer Mudde, Roy Wetzels, Dirk den Braanker, Naomi Parr, James S Nagai, Vedran Drenic, Ivan G Costa, Eric Steenbergen, Tom Nijenhuis, Henry Dijkman, Nicole Endlich, Nicole C A J van de Kar, Rebekka K Schneider, Jack F M Wetzels, Anat Akiva, Johan van der Vlag, Rafael Kramann, Michiel F Schreuder, Bart Smeets
RESUMEN

Nephrotic syndrome (NS) is characterized by severe proteinuria as a consequence of kidney glomerular injury due to podocyte damage. In vitro models mimicking in vivo podocyte characteristics are a prerequisite to resolve NS pathogenesis. The detailed characterization of organoid podocytes resulting from a hybrid culture protocol showed a podocyte population that resembles adult podocytes and was superior compared with 2D counterparts, based on single-cell RNA sequencing, super-resolution imaging and electron microscopy. In this study, these next-generation podocytes in kidney organoids enabled personalized idiopathic nephrotic syndrome modeling, as shown by activated slit diaphragm signaling and podocyte injury following protamine sulfate, puromycin aminonucleoside treatment and exposure to NS plasma containing pathogenic permeability factors. Organoids cultured from cells of a patient with heterozygous NPHS2 mutations showed poor NPHS2 expression and aberrant NPHS1 localization, which was reversible after genetic correction. Repaired organoids displayed increased VEGFA pathway activity and transcription factor activity known to be essential for podocyte physiology, as shown by RNA sequencing. This study shows that organoids are the preferred model of choice to study idiopathic and congenital podocytopathies.

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Sigma-Aldrich
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