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. 2020 Sep;22(9):1091-1102.
doi: 10.1038/s41556-020-0566-0. Epub 2020 Aug 31.

The primary cilium and lipophagy translate mechanical forces to direct metabolic adaptation of kidney epithelial cells

Caterina Miceli #  1   2 Federica Roccio #  1 Lucille Penalva-Mousset  1 Martine Burtin  1 Christine Leroy  1 Ivan Nemazanyy  3 Nicolas Kuperwasser  1 Marco Pontoglio  1 Gérard Friedlander  1 Etienne Morel  1 Fabiola Terzi  1 Patrice Codogno  4 Nicolas Dupont  5
Affiliations

The primary cilium and lipophagy translate mechanical forces to direct metabolic adaptation of kidney epithelial cells

Caterina Miceli et al. Nat Cell Biol. 2020 Sep.

Erratum in

Abstract

Organs and cells must adapt to shear stress induced by biological fluids, but how fluid flow contributes to the execution of specific cell programs is poorly understood. Here we show that shear stress favours mitochondrial biogenesis and metabolic reprogramming to ensure energy production and cellular adaptation in kidney epithelial cells. Shear stress stimulates lipophagy, contributing to the production of fatty acids that provide mitochondrial substrates to generate ATP through β-oxidation. This flow-induced process is dependent on the primary cilia located on the apical side of epithelial cells. The interplay between fluid flow and lipid metabolism was confirmed in vivo using a unilateral ureteral obstruction mouse model. Finally, primary cilium-dependent lipophagy and mitochondrial biogenesis are required to support energy-consuming cellular processes such as glucose reabsorption, gluconeogenesis and cytoskeletal remodelling. Our findings demonstrate how primary cilia and autophagy are involved in the translation of mechanical forces into metabolic adaptation.

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