Tubular cell polyploidy protects from lethal acute kidney injury but promotes consequent chronic kidney disease

Letizia De Chiara; Carolina Conte; Roberto Semeraro; Paula Díaz-Bulnes; Maria Lucia Angelotti; Benedetta Mazzinghi; Alice Molli; Giulia Antonelli; Samuela Landini; Maria Elena Melica; Anna Julie Peired; Laura Maggi; Marta Donati; Gilda La Regina; Marco Allinovi; Fiammetta Ravaglia; Daniele Guasti; Danièle Bani; Luigi Cirillo; Francesca Becherucci; Francesco Guzzi; Alberto Magi; Francesco Annunziato; Laura Lasagni; Hans‐Joachim Anders; Elena Lazzeri; Paola Romagnani

doi:10.1038/s41467-022-33110-5

Tubular cell polyploidy protects from lethal acute kidney injury but promotes consequent chronic kidney disease

Letizia De Chiara(University of Florence), Carolina Conte(University of Florence), Roberto Semeraro(University of Florence), Paula Díaz-Bulnes(Instituto de Investigación Sanitaria del Principado de Asturias), Maria Lucia Angelotti(University of Florence), Benedetta Mazzinghi(Meyer Children's Hospital), Alice Molli(Meyer Children's Hospital), Giulia Antonelli(University of Florence), Samuela Landini(Meyer Children's Hospital), Maria Elena Melica(University of Florence), Anna Julie Peired(University of Florence), Laura Maggi(University of Florence), Marta Donati(University of Florence), Gilda La Regina(University of Florence), Marco Allinovi(Azienda Ospedaliero-Universitaria Careggi), Fiammetta Ravaglia(Hospital of Prato), Daniele Guasti(University of Florence), Danièle Bani(University of Florence), Luigi Cirillo(Meyer Children's Hospital), Francesca Becherucci(Meyer Children's Hospital), Francesco Guzzi(Hospital of Prato), Alberto Magi(University of Florence), Francesco Annunziato(Azienda Ospedaliero-Universitaria Careggi), Laura Lasagni(University of Florence), Hans‐Joachim Anders(LMU Klinikum), Elena Lazzeri(University of Florence), Paola Romagnani(Meyer Children's Hospital)

Nature Communications

October 4, 2022

10.1038/s41467-022-33110-5

Cited by 72Open Access

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Abstract

Acute kidney injury (AKI) is frequent, often fatal and, for lack of specific therapies, can leave survivors with chronic kidney disease (CKD). We characterize the distribution of tubular cells (TC) undergoing polyploidy along AKI by DNA content analysis and single cell RNA-sequencing. Furthermore, we study the functional roles of polyploidization using transgenic models and drug interventions. We identify YAP1-driven TC polyploidization outside the site of injury as a rapid way to sustain residual kidney function early during AKI. This survival mechanism comes at the cost of senescence of polyploid TC promoting interstitial fibrosis and CKD in AKI survivors. However, targeting TC polyploidization after the early AKI phase can prevent AKI-CKD transition without influencing AKI lethality. Senolytic treatment prevents CKD by blocking repeated TC polyploidization cycles. These results revise the current pathophysiological concept of how the kidney responds to acute injury and identify a novel druggable target to improve prognosis in AKI survivors.

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