Plasma C24:0 ceramide impairs adipose tissue remodeling and promotes liver steatosis and glucose imbalance in offspring of rats
Alberto Camacho-Morales,
Lilia G. Noriega,
Adriana Sánchez-García,
Ivan Torre-Villalvazo,
Natalia Vázquez-Manjarrez,
Roger Maldonado-Ruiz,
Marcela Cárdenas-Tueme,
Mariana Villegas-Romero,
Itzayana Alamilla-Martínez,
Humberto Rodriguez-Rocha,
Aracely Garcia-Garcia,
Juan Carlos Corona,
Armando R. Tovar,
Jennifer Saville,
Maria Fuller,
José Gerardo Gonzalez-Gonzalez,
Ana María Rivas-Estilla
Affiliations
Alberto Camacho-Morales
Biochemistry and Molecular Medicine Department, College of Medicine, Autonomous University of Nuevo Leon, Monterrey, Mexico; Neurometabolism Unit, Center for Research and Development in Health Sciences, Autonomous University of Nuevo Leon, Monterrey, Mexico; Corresponding author. Biochemistry and Molecular Medicine Department, College of Medicine. Autonomous University of Nuevo Leon. Ave. Francisco I Madero y Dr. Eduardo Aguirre Pequeño s/n. Colonia Mitras Centro. Monterrey, Mexico. C.P. 64460.
Lilia G. Noriega
Nutrition Physiology Department, National Institute of Medical Sciences and Nutrition. México City, Mexico
Adriana Sánchez-García
University Hospital ''Dr. Jose E. Gonzalez, Endocrinology Division. Department of Internal Medicine. Autonomous University of Nuevo Leon Monterrey, Mexico
Ivan Torre-Villalvazo
Nutrition Physiology Department, National Institute of Medical Sciences and Nutrition. México City, Mexico
Natalia Vázquez-Manjarrez
Nutrition Physiology Department, National Institute of Medical Sciences and Nutrition. México City, Mexico
Roger Maldonado-Ruiz
Biochemistry and Molecular Medicine Department, College of Medicine, Autonomous University of Nuevo Leon, Monterrey, Mexico; Neurometabolism Unit, Center for Research and Development in Health Sciences, Autonomous University of Nuevo Leon, Monterrey, Mexico
Marcela Cárdenas-Tueme
Facultad de Salud Pública y Nutrición, Centro de Investigación en Nutrición y Salud Pública, Universidad Autónoma de Nuevo León, Monterrey, Mexico
Mariana Villegas-Romero
Nutrition Physiology Department, National Institute of Medical Sciences and Nutrition. México City, Mexico
Itzayana Alamilla-Martínez
Nutrition Physiology Department, National Institute of Medical Sciences and Nutrition. México City, Mexico
Humberto Rodriguez-Rocha
Histology Department, College of Medicine, Autonomous University of Nuevo Leon, Monterrey, Mexico
Aracely Garcia-Garcia
Histology Department, College of Medicine, Autonomous University of Nuevo Leon, Monterrey, Mexico
Juan Carlos Corona
Neuroscience Laboratory, Hospital Infantil de México, Federico Gómez, México City, Mexico
Armando R. Tovar
Nutrition Physiology Department, National Institute of Medical Sciences and Nutrition. México City, Mexico
Jennifer Saville
Genetics and Molecular Pathology, SA Pathology at Women's and Children's Hospital, University of Adelaide, Australia
Maria Fuller
Genetics and Molecular Pathology, SA Pathology at Women's and Children's Hospital, University of Adelaide, Australia
José Gerardo Gonzalez-Gonzalez
University Hospital ''Dr. Jose E. Gonzalez, Endocrinology Division. Department of Internal Medicine. Autonomous University of Nuevo Leon Monterrey, Mexico
Ana María Rivas-Estilla
Biochemistry and Molecular Medicine Department, College of Medicine, Autonomous University of Nuevo Leon, Monterrey, Mexico
Fetal programming by exposure to high-energy diets increases the susceptibility to type 2 diabetes mellitus (T2DM2) in the offspring. Glucose imbalance during fetal programming might be associated to still unknown selective lipid species and their characterization might be beneficial for T2DM diagnosis and treatment. We aim to characterize the effect of the lipid specie, C24:0 ceramide, on glucose imbalance and metabolic impairment in cellular and murine models. A lipidomic analysis identified accumulation of C24:0 ceramide in plasma of offspring rats exposed to high-energy diets during fetal programing, as well as in obese-T2DM subjects. In vitro experiments in 3T3L-1, hMSC and HUH7 cells and in in vivo models of Wistar rats and C57BL/6 mice demonstrated that C24:0 ceramide disrupted glucose balance, and differentiation and lipid accumulation in adipocytes, whereas promoted liver steatosis. Mechanistically, C24:0 ceramide impaired mitochondrial fatty acid oxidation in adipocytes and hepatic cells, tentatively by favoring reactive oxygen species accumulation and calcium overload in the mitochondria; and also, activates endoplasmic reticulum (ER) stress in hepatocytes. We propose that C24:0 ceramide accumulation in the offspring followed a prenatal diet exposure, impair lipid allocation into adipocytes and enhances liver steatosis associated to mitochondrial dysfunction and ER stress, leading to glucose imbalance.
