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TITLE:
Renal tubule Cpt1a overexpression protects from kidney fibrosis by restoring mitochondrial homeostasis - imarina:9177882

URV's Author/s:Salas Salvadó, Jorge
Author, as appears in the article.:Miguel, Veronica; Tituana, Jessica; Ignacio Herrero, J.; Herrero, Laura; Serra, Dolors; Cuevas, Paula; Barbas, Coral; Rodriguez Puyol, Diego; Marquez-Exposito, Laura; Ruiz-Ortega, Marta; Castillo, Carolina; Sheng, Xin; Susztak, Katalin; Ruiz-Canela, Miguel; Salas-Salvado, Jordi; Martinez Gonzalez, Miguel A.; Ortega, Sagrario; Ramos, Ricardo; Lamas, Santiago;
Author's mail:jordi.salas@urv.cat
Author identifier:0000-0003-2700-7459
Journal publication year:2021
Publication Type:Journal Publications
APA:Miguel, Veronica; Tituana, Jessica; Ignacio Herrero, J.; Herrero, Laura; Serra, Dolors; Cuevas, Paula; Barbas, Coral; Rodriguez Puyol, Diego; Marquez- (2021). Renal tubule Cpt1a overexpression protects from kidney fibrosis by restoring mitochondrial homeostasis. Journal Of Clinical Investigation, 131(5), -. DOI: 10.1172/JCI140695
Papper original source:Journal Of Clinical Investigation. 131 (5):
Abstract:Chronic kidney disease (CKD) remains a major epidemiological, clinical, and biomedical challenge. During CKD, renal tubular epithelial cells (TECs) present a persistent inflammatory and profibrotic response. Fatty acid oxidation (FAO), the main source of energy for TECs, is reduced in kidney fibrosis and contributes to its pathogenesis. To determine whether gain of function in FAO (FAO-GOF) could protect from fibrosis, we generated a conditional transgenic mouse model with overexpression of the fatty acid shuttling enzyme carnitine palmitoyl-transferase 1A (CPT1A) in TECs. Cpt1a-knockin (CPT1A-KI) mice subjected to 3 models of renal fibrosis (unilateral ureteral obstruction, folic acid nephropathy [FAN], and adenine-induced nephrotoxicity) exhibited decreased expression of fibrotic markers, a blunted proinflammatory response, and reduced epithelial cell damage and macrophage influx. Protection from fibrosis was also observed when Cpt1a overexpression was induced after FAN. FAO-GOF restored oxidative metabolism and mitochondrial number and enhanced bioenergetics, increasing palmitate oxidation and ATP levels, changes that were also recapitulated in TECs exposed to profibrotic stimuli. Studies in patients showed decreased CPT1 levels and increased accumulation of shortand middle chain acylcarnitines, reflecting impaired FAO in human CKD. We propose that strategies based on FAO-GOF may constitute powerful alternatives to combat fibrosis inherent to CKD.
Article's DOI:10.1172/JCI140695
Link to the original source:https://www.jci.org/articles/view/140695/pdf
Papper version:info:eu-repo/semantics/publishedVersion
licence for use:https://creativecommons.org/licenses/by/3.0/es/
Department:Bioquímica i Biotecnologia
Licence document URL:https://repositori.urv.cat/ca/proteccio-de-dades/
Thematic Areas:Saúde coletiva
Odontología
Medicine, research & experimental
Medicine (miscellaneous)
Medicine (all)
Medicina veterinaria
Medicina ii
Medicina i
Interdisciplinar
General medicine
Farmacia
Educação física
Ciências biológicas iii
Ciências biológicas ii
Ciências biológicas i
Biotecnología
Keywords:Ureter obstruction
Unclassified drug
Transgenic mouse
Renal insufficiency, chronic
Priority journal
Population
Pluripotent
Pathology
Palmitic acid
Oxygen consumption rate
Oxidation
Nonhuman
Nephrotoxicity
Mouse
Mitochondrion
Mice, transgenic
Mice, knockout
Mice
Metabolism
Macrophage
Liver
Knockout mouse
Kidney tubules
Kidney tubule
Kidney function
Kidney fibrosis
Kidney disease
Immunofluorescence
Homeostasis
Genetics
Gene overexpression
Gene nomenclature
Gene expression regulation, enzymologic
Gene expression regulation
Folic acid
Flow cytometry
Fibrosis
Fatty-acid oxidation
Fatty acids
Fatty acid oxidation
Fatty acid
Expression
Experimental renal fibrosis
Epithelium cell
Epithelial-cells
Enzymology
Disease models, animal
Disease model
Disease
Cpt1b protein, mouse
Controlled study
Chronic kidney failure
Cell damage
Carnitine palmitoyltransferase
Carnitine palmitoyl transferase 1a
Carnitine o-palmitoyltransferase
Biosynthesis
Bioenergy
Beta-oxidation
Article
Animals
Animal model
Animal experiment
Animal cell
Animal
Aerobic metabolism
Adenosine triphosphate
Adenine
Acylcarnitine
Entity:Universitat Rovira i Virgili
Record's date:2024-07-27
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