Endocycle-related tubular cell hypertrophy and progenitor proliferation recover renal function after acute kidney injury

Elena Lazzeri; Maria Lucia Angelotti; Anna Julie Peired; Carolina Conte; Julian A. Marschner; Laura Maggi; Benedetta Mazzinghi; Duccio Lombardi; Maria Elena Melica; Sara Nardi; Elisa Ronconi; Alessandro Sisti; Giulia Antonelli; Francesca Becherucci; Letizia De Chiara; Ricardo Romero‐Guevara; Alexa Burger; Beat Schaefer; Francesco Annunziato; Hans‐Joachim Anders; Laura Lasagni; Paola Romagnani

doi:10.1038/s41467-018-03753-4

Endocycle-related tubular cell hypertrophy and progenitor proliferation recover renal function after acute kidney injury

Elena Lazzeri(University of Florence), Maria Lucia Angelotti(University of Florence), Anna Julie Peired(University of Florence), Carolina Conte(University of Florence), Julian A. Marschner(LMU Klinikum), Laura Maggi, Benedetta Mazzinghi(Meyer Children's Hospital), Duccio Lombardi(University of Florence), Maria Elena Melica(University of Florence), Sara Nardi(University of Florence), Elisa Ronconi(University of Florence), Alessandro Sisti(Meyer Children's Hospital), Giulia Antonelli(University of Florence), Francesca Becherucci(Meyer Children's Hospital), Letizia De Chiara(Meyer Children's Hospital), Ricardo Romero‐Guevara(University of Florence), Alexa Burger(University of Zurich), Beat Schaefer(University Children's Hospital Zurich), Francesco Annunziato, Hans‐Joachim Anders(LMU Klinikum), Laura Lasagni(University of Florence), Paola Romagnani(Meyer Children's Hospital)

Nature Communications

April 4, 2018

10.1038/s41467-018-03753-4

Cited by 265Open Access

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Abstract

Acute kidney injury (AKI) is considered largely reversible based on the capacity of surviving tubular cells to dedifferentiate and replace lost cells via cell division. Here we show by tracking individual tubular cells in conditional Pax8/Confetti mice that kidney function is recovered after AKI despite substantial tubular cell loss. Cell cycle and ploidy analysis upon AKI in conditional Pax8/FUCCI2aR mice and human biopsies identify endocycle-mediated hypertrophy of tubular cells. By contrast, a small subset of Pax2+ tubular progenitors enriches via higher stress resistance and clonal expansion and regenerates necrotic tubule segments, a process that can be enhanced by suitable drugs. Thus, renal functional recovery upon AKI involves remnant tubular cell hypertrophy via endocycle and limited progenitor-driven regeneration that can be pharmacologically enhanced.

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