Immunometabolic rewiring of tubular epithelial cells in kidney disease

Kidney tubular epithelial cells (TECs) have a crucial role in the damage and repair response to acute and chronic injury. To adequately respond to constant changes in the environment, TECs have considerable bioenergetic needs, which are supported by metabolic pathways. Although little is known about...

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Published in	Nature reviews. Nephrology Vol. 18; no. 9; pp. 588 - 603
Main Authors	van der Rijt, Sanne, Leemans, Jaklien C, Florquin, Sandrine, Houtkooper, Riekelt H, Tammaro, Alessandra
Format	Journal Article
Language	English
Published	London Nature Publishing Group 01.09.2022
Subjects	Energy Fatty acids Glucose Immune system Kidney diseases Lipids Metabolism Metabolites Oxidation Pattern recognition Phosphorylation
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Abstract	Kidney tubular epithelial cells (TECs) have a crucial role in the damage and repair response to acute and chronic injury. To adequately respond to constant changes in the environment, TECs have considerable bioenergetic needs, which are supported by metabolic pathways. Although little is known about TEC metabolism, a number of ground-breaking studies have shown that defective glucose metabolism or fatty acid oxidation in the kidney has a key role in the response to kidney injury. Imbalanced use of these metabolic pathways can predispose TECs to apoptosis and dedifferentiation, and contribute to lipotoxicity and kidney injury. The accumulation of lipids and aberrant metabolic adaptations of TECs during kidney disease can also be driven by receptors of the innate immune system. Similar to their actions in innate immune cells, pattern recognition receptors regulate the metabolic rewiring of TECs, causing cellular dysfunction and lipid accumulation. TECs should therefore be considered a specialized cell type — like cells of the innate immune system — that is subject to regulation by immunometabolism. Targeting energy metabolism in TECs could represent a strategy for metabolically reprogramming the kidney and promoting kidney repair.The interplay between immunological and metabolic processes is important in a variety of processes. This Review describes how changes in lipid and energy metabolism, driven by receptors of the innate immune system, contribute to the response of tubule epithelial cells to injury and the functional consequences of these intersecting pathways in kidney health and disease.
AbstractList	Kidney tubular epithelial cells (TECs) have a crucial role in the damage and repair response to acute and chronic injury. To adequately respond to constant changes in the environment, TECs have considerable bioenergetic needs, which are supported by metabolic pathways. Although little is known about TEC metabolism, a number of ground-breaking studies have shown that defective glucose metabolism or fatty acid oxidation in the kidney has a key role in the response to kidney injury. Imbalanced use of these metabolic pathways can predispose TECs to apoptosis and dedifferentiation, and contribute to lipotoxicity and kidney injury. The accumulation of lipids and aberrant metabolic adaptations of TECs during kidney disease can also be driven by receptors of the innate immune system. Similar to their actions in innate immune cells, pattern recognition receptors regulate the metabolic rewiring of TECs, causing cellular dysfunction and lipid accumulation. TECs should therefore be considered a specialized cell type — like cells of the innate immune system — that is subject to regulation by immunometabolism. Targeting energy metabolism in TECs could represent a strategy for metabolically reprogramming the kidney and promoting kidney repair.The interplay between immunological and metabolic processes is important in a variety of processes. This Review describes how changes in lipid and energy metabolism, driven by receptors of the innate immune system, contribute to the response of tubule epithelial cells to injury and the functional consequences of these intersecting pathways in kidney health and disease.
Author	Leemans, Jaklien C Florquin, Sandrine Tammaro, Alessandra van der Rijt, Sanne Houtkooper, Riekelt H
Author_xml	– sequence: 1 givenname: Sanne surname: van der Rijt fullname: van der Rijt, Sanne – sequence: 2 givenname: Jaklien C surname: Leemans fullname: Leemans, Jaklien C – sequence: 3 givenname: Sandrine surname: Florquin fullname: Florquin, Sandrine – sequence: 4 givenname: Riekelt H surname: Houtkooper fullname: Houtkooper, Riekelt H – sequence: 5 givenname: Alessandra surname: Tammaro fullname: Tammaro, Alessandra
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