2021
MicroRNA regulation of cholesterol metabolism
Citrin KM, Fernández‐Hernando C, Suárez Y. MicroRNA regulation of cholesterol metabolism. Annals Of The New York Academy Of Sciences 2021, 1495: 55-77. PMID: 33521946, PMCID: PMC8938903, DOI: 10.1111/nyas.14566.Peer-Reviewed Original ResearchConceptsDifferent cell typesCell typesMultiple mRNA targetsCholesterol homeostasisSmall noncoding RNAsMicroRNA activityCholesterol-laden cellsMicroRNA regulationCholesterol metabolismMRNA targetsNoncoding RNAsPosttranscriptional levelGene expressionSpecialized functionsMicroRNAsCurrent knowledgeTarget interactionsHomeostasisMetabolismPathwayExpressionMultiple stagesRNARegulationDistinctive effects
2019
Caveolin-1 Regulates Atherogenesis by Attenuating Low-Density Lipoprotein Transcytosis and Vascular Inflammation Independently of Endothelial Nitric Oxide Synthase Activation
Ramírez CM, Zhang X, Bandyopadhyay C, Rotllan N, Sugiyama MG, Aryal B, Liu X, He S, Kraehling JR, Ulrich V, Lin CS, Velazquez H, Lasunción MA, Li G, Suárez Y, Tellides G, Swirski FK, Lee WL, Schwartz MA, Sessa WC, Fernández-Hernando C. Caveolin-1 Regulates Atherogenesis by Attenuating Low-Density Lipoprotein Transcytosis and Vascular Inflammation Independently of Endothelial Nitric Oxide Synthase Activation. Circulation 2019, 140: 225-239. PMID: 31154825, PMCID: PMC6778687, DOI: 10.1161/circulationaha.118.038571.Peer-Reviewed Original ResearchConceptsEndothelial nitric oxide synthaseDiet-induced atherosclerosisNO productionVascular inflammationENOS activationEndothelial nitric oxide synthase activationNitric oxide synthase activationAthero-protective functionsLipid metabolic factorsEndothelial cell inflammationNitric oxide synthaseWild-type miceMice Lacking ExpressionProduction of NOExtracellular matrix remodelingInflammatory primingHyperlipidemic miceInflammatory pathwaysAortic archCell inflammationOxide synthaseMetabolic factorsMouse modelAtherosclerosisInflammation
2015
Neuregulin-activated ERBB4 induces the SREBP-2 cholesterol biosynthetic pathway and increases low-density lipoprotein uptake
Haskins JW, Zhang S, Means RE, Kelleher JK, Cline GW, Canfrán-Duque A, Suárez Y, Stern DF. Neuregulin-activated ERBB4 induces the SREBP-2 cholesterol biosynthetic pathway and increases low-density lipoprotein uptake. Science Signaling 2015, 8: ra111. PMID: 26535009, PMCID: PMC4666504, DOI: 10.1126/scisignal.aac5124.Peer-Reviewed Original ResearchMeSH KeywordsCell Line, TumorCholesterolFemaleHumansHydroxymethylglutaryl CoA ReductasesLipoproteins, LDLMechanistic Target of Rapamycin Complex 1Multiprotein ComplexesNeuregulin-1Proto-Oncogene Proteins c-aktReceptor, ErbB-4Receptors, LDLSterol Regulatory Element Binding Protein 2TOR Serine-Threonine KinasesConceptsIntracellular domainEGFR family membersLow-density lipoprotein uptakeCholesterol biosynthesisSREBP target genesRapamycin complex 1ErbB4 intracellular domainSite-1 proteaseCholesterol biosynthesis genesSoluble intracellular domainCholesterol biosynthetic pathwayActivation of ErbB4Mammary epithelial cellsInhibition of AktSterol regulatory elementBiosynthesis genesLipoprotein uptakeRegulatory elementsBiosynthetic pathwayTarget genesDevelopmental processesMetabolic remodelingMature formNeuregulin-1Cellular membranes
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
2012
New insights into microRNA-29 regulation: A new key player in cardiovascular disease
Suárez Y, Fernández-Hernando C. New insights into microRNA-29 regulation: A new key player in cardiovascular disease. Journal Of Molecular And Cellular Cardiology 2012, 52: 584-586. PMID: 22285722, DOI: 10.1016/j.yjmcc.2012.01.009.Commentaries, Editorials and Letters
1999
Impact of different low-density lipoprotein (LDL) receptor mutations on the ability of LDL to support lymphocyte proliferation
Martínez-Botas J, Suárez Y, Reshef A, Carrero P, Ortega H, Gómez-Coronado D, Teruel J, Leitersdorf E, Lasunción M. Impact of different low-density lipoprotein (LDL) receptor mutations on the ability of LDL to support lymphocyte proliferation. Metabolism 1999, 48: 834-839. PMID: 10421221, DOI: 10.1016/s0026-0495(99)90214-7.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentCell DivisionFlow CytometryHomozygoteHumansHyperlipoproteinemia Type IILipoproteins, LDLLymphocytesMaleMutationReceptors, LDLConceptsLow-density lipoproteinAbility of LDLFamilial hypercholesterolemiaReceptor mutationsLow-density lipoprotein receptor mutationNormal low density lipoproteinHomozygous familial hypercholesterolemiaDifferent LDL receptor mutationsEndogenous cholesterol synthesisLDL receptor mutationsMitogen-stimulated lymphocytesLymphocyte proliferationPeripheral lymphocytesLDL particlesLymphocytesMitogenic effectCytometric analysisCholesterol synthesisLDL bindingCase 2Case 1Similar extentCompound heterozygotesDefective internalizationDifferent phenotypes
1998
Human CD36 is a high affinity receptor for the native lipoproteins HDL, LDL, and VLDL
Calvo D, Gómez-Coronado D, Suárez Y, Lasunción M, Vega M. Human CD36 is a high affinity receptor for the native lipoproteins HDL, LDL, and VLDL. Journal Of Lipid Research 1998, 39: 777-788. PMID: 9555943, DOI: 10.1016/s0022-2275(20)32566-9.Peer-Reviewed Original ResearchConceptsHigh-affinity receptorHuman CD36Lipoprotein HDLAffinity receptorPathogenesis of atherosclerosisLow-density lipoproteinFoam cell formationBinding of lipoproteinsFatty acid metabolismSR-BIActive fatty acid metabolismDensity lipoproteinModified lipoproteinsScavenger receptorsLipid metabolismCD36CLA-1Monoclonal antibodiesLDLLipoproteinHDLAcid metabolismReceptorsVLDLNative lipoproteins