2018
Absence of ANGPTL4 in adipose tissue improves glucose tolerance and attenuates atherogenesis
Aryal B, Singh AK, Zhang X, Varela L, Rotllan N, Goedeke L, Chaube B, Camporez JP, Vatner DF, Horvath TL, Shulman GI, Suárez Y, Fernández-Hernando C. Absence of ANGPTL4 in adipose tissue improves glucose tolerance and attenuates atherogenesis. JCI Insight 2018, 3: e97918. PMID: 29563332, PMCID: PMC5926923, DOI: 10.1172/jci.insight.97918.Peer-Reviewed Original ResearchMeSH KeywordsAdipocytesAdipose TissueAllelesAngiopoietin-Like Protein 4AnimalsAtherosclerosisBody WeightChemokinesCytokinesDiet, High-FatDiet, WesternFatty AcidsGene Expression ProfilingGene Expression RegulationGene Knockout TechniquesGlucoseInsulinIntegrasesIntercellular Signaling Peptides and ProteinsLipid MetabolismLipoprotein LipaseLipoproteinsLiverMaleMiceMice, Inbred C57BLMice, KnockoutMusclesObesityProprotein Convertase 9TriglyceridesConceptsAngiopoietin-like protein 4High-fat dietEctopic lipid depositionLipid depositionGlucose toleranceLipoprotein lipaseShort-term high-fat dietSevere metabolic abnormalitiesProgression of atherosclerosisMajor risk factorTriacylglycerol-rich lipoproteinsFatty acid uptakeAdipose tissue resultsProatherogenic lipoproteinsCardiometabolic diseasesMetabolic abnormalitiesKO miceRisk factorsWhole body lipidMetabolic disordersGlucose metabolismLPL activityAdipose tissueGenetic ablationRapid clearance
2014
Hematopoietic Akt2 deficiency attenuates the progression of atherosclerosis
Rodlan N, Chamorro‐Jorganes A, Araldi E, Wanschel AC, Aryal B, Aranda JF, Goedeke L, Salerno AG, Ramírez CM, Sessa WC, Suárez Y, Fernández‐Hernando C. Hematopoietic Akt2 deficiency attenuates the progression of atherosclerosis. The FASEB Journal 2014, 29: 597-610. PMID: 25392271, PMCID: PMC4314230, DOI: 10.1096/fj.14-262097.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAtherosclerosisBlood GlucoseBone Marrow CellsBone Marrow TransplantationCell MovementCholesterolCytokinesDisease ProgressionInflammationInsulinLeukocytesLipidsLipoproteins, LDLMacrophagesMaleMiceMice, Inbred C57BLMice, KnockoutMicroscopy, ConfocalMicroscopy, FluorescencePlaque, AtheroscleroticProto-Oncogene Proteins c-aktReceptors, LDLConceptsProgression of atherosclerosisSerine-threonine protein kinaseBone marrow cellsAkt2-deficient miceInsulin-responsive tissuesWild-type bone marrow cellsProtein kinaseMarrow cellsAkt2 deficiencyAkt2Higher plasma lipidsWild-type miceMice resultsProatherogenic cytokinesObese subjectsPlasma lipidsProinflammatory cytokinesInsulin resistanceInflammatory responseGlucose levelsAtherosclerotic plaquesCholesterol metabolismAtherosclerosisMacrophage migrationMarked reduction
2011
miR-33a/b contribute to the regulation of fatty acid metabolism and insulin signaling
Dávalos A, Goedeke L, Smibert P, Ramírez CM, Warrier NP, Andreo U, Cirera-Salinas D, Rayner K, Suresh U, Pastor-Pareja JC, Esplugues E, Fisher EA, Penalva LO, Moore KJ, Suárez Y, Lai EC, Fernández-Hernando C. miR-33a/b contribute to the regulation of fatty acid metabolism and insulin signaling. Proceedings Of The National Academy Of Sciences Of The United States Of America 2011, 108: 9232-9237. PMID: 21576456, PMCID: PMC3107310, DOI: 10.1073/pnas.1102281108.Peer-Reviewed Original ResearchConceptsFatty acid metabolismFatty acid oxidationMiR-33aInsulin receptor substrate 2Sirtuin 6Acid metabolismInsulin-signaling pathwayIntronic microRNAsSterol regulatory element-binding protein 2Acid oxidationHost genesKey enzymeHepatic cell linesMetabolic syndromeCarnitine palmitoyltransferase 1AMetabolic pathwaysSubstrate 2Cellular imbalanceProtein 2Cholesterol homeostasisGenesCell linesLevels of HDLPathwayMetabolism results
2010
Haloperidol disrupts lipid rafts and impairs insulin signaling in SH-SY5Y cells
Sánchez-Wandelmer J, Dávalos A, de la Peña G, Cano S, Giera M, Canfrán-Duque A, Bracher F, Martín-Hidalgo A, Fernández-Hernando C, Lasunción M, Busto R. Haloperidol disrupts lipid rafts and impairs insulin signaling in SH-SY5Y cells. Neuroscience 2010, 167: 143-153. PMID: 20123000, DOI: 10.1016/j.neuroscience.2010.01.051.Peer-Reviewed Original ResearchConceptsEffects of haloperidolCholesterol contentLipid raft compositionCholesterol biosynthesisCell cholesterol contentSH-SY5Y cellsNeuroblastoma SH-SY5YHL-60 human cell linesDopamine receptorsMetabolic effectsTherapeutic effectHaloperidolInsulin-Akt signalingImpairs insulinCellular cholesterol homeostasisLipid raftsSH-SY5YFree cholesterolCholesterol homeostasisDependent insulinDrug inhibitionHuman cell linesCell linesPhysiological vehicleInsulin