2020
459-P: Liver-Targeted Mitochondrial Uncoupling by CRMP Improves Whole-Body Insulin Sensitivity and Attenuates Atherosclerosis in A LDLR-/- Mouse Model of Metabolic Syndrome
GOEDEKE L, ROTLLAN N, TOUSSAINT K, NASIRI A, ZHANG X, LEE J, ZHANG X, FERNÁNDEZ-HERNANDO C, SHULMAN G. 459-P: Liver-Targeted Mitochondrial Uncoupling by CRMP Improves Whole-Body Insulin Sensitivity and Attenuates Atherosclerosis in A LDLR-/- Mouse Model of Metabolic Syndrome. Diabetes 2020, 69 DOI: 10.2337/db20-459-p.Peer-Reviewed Original ResearchWhole-body insulin sensitivitySpouse/partnerInsulin sensitivityCardiovascular diseaseMetabolic syndromeAortic root plaque areaHigh fat-cholesterol dietLdlr-/- mouse modelTreatment of CVDEctopic lipid contentLDLR-/- micePeripheral insulin sensitivityNecrotic core areaType 2 diabetesAnti-atherogenic roleFibrous cap areaAdvisory PanelCRMP treatmentAttenuates AtherosclerosisCardiometabolic disordersFatty liverCholesterol dietInsulin resistanceNondiabetic individualsHepatic triglycerides
2015
Dietary lipids modulate the expression of miR‐107, an miRNA that regulates the circadian system
Daimiel‐Ruiz L, Klett‐Mingo M, Konstantinidou V, Micó V, Aranda JF, García B, Martínez‐Botas J, Dávalos A, Fernández‐Hernando C, Ordovás JM. Dietary lipids modulate the expression of miR‐107, an miRNA that regulates the circadian system. Molecular Nutrition & Food Research 2015, 59: 552-565. PMID: 25522185, PMCID: PMC4591752, DOI: 10.1002/mnfr.201400616.Peer-Reviewed Original ResearchConceptsCardiovascular diseaseMiR-107Cardio-protective effectsType 2 diabetesUnhealthy dietary habitsCircadian rhythmCaco-2 cellsCVD riskConjugated linoleic acidPharmacological treatmentProtective effectDietary habitsMetabolic disordersDietary lipidsPutative target genesDocosahexanoic acidRelevant transcription factorsMultiple metabolic pathwaysRole of miRNAsOwn promoterTranscription factorsTarget genesDiseaseGene resultsGene expression