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R-spondin signalling is essential for the maintenance and differentiation of mouse nephron progenitors.


ABSTRACT: During kidney development, WNT/?-catenin signalling has to be tightly controlled to ensure proliferation and differentiation of nephron progenitor cells. Here, we show in mice that the signalling molecules RSPO1 and RSPO3 act in a functionally redundant manner to permit WNT/?-catenin signalling and their genetic deletion leads to a rapid decline of nephron progenitors. By contrast, tissue specific deletion in cap mesenchymal cells abolishes mesenchyme to epithelial transition (MET) that is linked to a loss of Bmp7 expression, absence of SMAD1/5 phosphorylation and a concomitant failure to activate Lef1, Fgf8 and Wnt4, thus explaining the observed phenotype on a molecular level. Surprisingly, the full knockout of LGR4/5/6, the cognate receptors of R-spondins, only mildly affects progenitor numbers, but does not interfere with MET. Taken together our data demonstrate key roles for R-spondins in permitting stem cell maintenance and differentiation and reveal Lgr-dependent and independent functions for these ligands during kidney formation.

SUBMITTER: Vidal VP 

PROVIDER: S-EPMC7228766 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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R-spondin signalling is essential for the maintenance and differentiation of mouse nephron progenitors.

Vidal Valerie Pi VP   Jian-Motamedi Fariba F   Rekima Samah S   Gregoire Elodie P EP   Szenker-Ravi Emmanuelle E   Leushacke Marc M   Reversade Bruno B   Chaboissier Marie-Christine MC   Schedl Andreas A  

eLife 20200501


During kidney development, WNT/β-catenin signalling has to be tightly controlled to ensure proliferation and differentiation of nephron progenitor cells. Here, we show in mice that the signalling molecules RSPO1 and RSPO3 act in a functionally redundant manner to permit WNT/β-catenin signalling and their genetic deletion leads to a rapid decline of nephron progenitors. By contrast, tissue specific deletion in cap mesenchymal cells abolishes mesenchyme to epithelial transition (MET) that is linke  ...[more]

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