2016
MicroRNAs as regulators of endothelial cell functions in cardiometabolic diseases
Araldi E, Suárez Y. MicroRNAs as regulators of endothelial cell functions in cardiometabolic diseases. Biochimica Et Biophysica Acta 2016, 1861: 2094-2103. PMID: 26825686, PMCID: PMC5039046, DOI: 10.1016/j.bbalip.2016.01.013.Peer-Reviewed Original ResearchConceptsSmall non-coding RNAsLipid/energy metabolismCarlos Fernández-HernandoRegulation of ECNon-coding RNAsRole of miRNAsEndothelial cellsYajaira SuárezTissue homeostasisCell deathEndothelial cell functionEnvironmental stimuliEnergy metabolismMicroRNAsCell proliferationImportant functionsPotential therapeutic applicationsCell functionMiRNAsDifferent cardiometabolic diseasesMetabolic imbalanceEC dysfunctionTherapeutic applicationsPresent reviewRelated diseases
2006
Plitidepsin Cellular Binding and Rac1/JNK Pathway Activation Depend on Membrane Cholesterol Content
Suárez Y, González-Santiago L, Zarich N, Dávalos A, Aranda JF, Alonso MA, Lasunción MA, Rojas JM, Muñoz A. Plitidepsin Cellular Binding and Rac1/JNK Pathway Activation Depend on Membrane Cholesterol Content. Molecular Pharmacology 2006, 70: 1654-1663. PMID: 16928956, DOI: 10.1124/mol.106.025569.Peer-Reviewed Original ResearchConceptsJun N-terminal kinaseMembrane cholesterol contentRac1-JNK pathwayHeLa cellsWild-type HeLa cellsMembrane-bound Rac1Plasma membrane cholesterolRac1 small GTPaseN-terminal kinaseMKP-1 phosphataseJNK pathway activationCellular bindingMDA-MB-231 breast cancer cellsInduction of apoptosisSmall GTPaseMarine cyclic depsipeptidePlasma membraneJNK activationRac1 activationMembrane cholesterolCell deathSubcellular fractioningBreast cancer cellsSustained activationRac1Aplidin® induces JNK-dependent apoptosis in human breast cancer cells via alteration of glutathione homeostasis, Rac1 GTPase activation, and MKP-1 phosphatase downregulation
González-Santiago L, Suárez Y, Zarich N, Muñoz-Alonso M, Cuadrado A, Martínez T, Goya L, Iradi A, Sáez-Tormo G, Maier J, Moorthy A, Cato A, Rojas J, Muñoz A. Aplidin® induces JNK-dependent apoptosis in human breast cancer cells via alteration of glutathione homeostasis, Rac1 GTPase activation, and MKP-1 phosphatase downregulation. Cell Death & Differentiation 2006, 13: 1968-1981. PMID: 16543941, DOI: 10.1038/sj.cdd.4401898.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntineoplastic AgentsApoptosisBreast NeoplasmsCalciumCell Cycle ProteinsCopperDepsipeptidesDown-RegulationDual Specificity Phosphatase 1Enzyme ActivationGlutathione DisulfideGlutathione PeroxidaseGlutathione ReductaseHeLa CellsHomeostasisHumansImmediate-Early ProteinsJNK Mitogen-Activated Protein KinasesMembrane PotentialsMiceMitochondrial MembranesOxidative StressPeptides, CyclicPhosphoprotein PhosphatasesProtein Phosphatase 1Protein Tyrosine PhosphatasesRac1 GTP-Binding ProteinReactive Oxygen SpeciesConceptsJun N-terminal kinaseJNK activationRac1 activationGlutathione homeostasisRac1 small GTPaseJNK-dependent apoptosisRac1 GTPase activationMitochondrial membrane potentialN-terminal kinaseMKP-1 phosphataseSmall GTPaseGTPase activationReactive oxygen speciesHuman breast cancer cellsGSSG/GSH ratioCell deathBreast cancer cellsRapid activationExogenous GSHRNA duplexesSustained activationGSH synthesisSpecific Rac1 inhibitorAplidinDownregulation of Rac1
2003
Kahalalide F, a new marine-derived compound, induces oncosis in human prostate and breast cancer cells.
Suárez Y, González L, Cuadrado A, Berciano M, Lafarga M, Muñoz A. Kahalalide F, a new marine-derived compound, induces oncosis in human prostate and breast cancer cells. Molecular Cancer Therapeutics 2003, 2: 863-72. PMID: 14555705.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid Chloromethyl KetonesApoptosisBreast NeoplasmsCaspase InhibitorsCaspasesCell CycleCell NucleusCell Transformation, NeoplasticCysteine Proteinase InhibitorsDepsipeptidesFemaleFlow CytometryHumansLysosomesMaleMollusk VenomsOligopeptidesPeptidesProstatic NeoplasmsTumor Cells, CulturedConceptsAnti-apoptotic Bcl-2 proteinGeneral caspase inhibitorSevere cytoplasmic swellingMitochondrial membrane potentialCell cycle arrestBcl-2 proteinKahalalide FTranslation inhibitorsMarine-derived compoundsNuclear domainsCaspase inhibitorsNuclear envelopeNew marine-derived compoundDNA degradationEndoplasmic reticulumHuman cellsCell deathNovel antitumor drugsBreast cancer cellsJC-1LysoTracker GreenCell nucleiBreast cancer cell linesCancer cell linesMitochondrial damage