2016
Inducing mitophagy in diabetic platelets protects against severe oxidative stress
Lee SH, Du J, Stitham J, Atteya G, Lee S, Xiang Y, Wang D, Jin Y, Leslie KL, Spollett G, Srivastava A, Mannam P, Ostriker A, Martin KA, Tang WH, Hwa J. Inducing mitophagy in diabetic platelets protects against severe oxidative stress. EMBO Molecular Medicine 2016, 8: 779-795. PMID: 27221050, PMCID: PMC4931291, DOI: 10.15252/emmm.201506046.Peer-Reviewed Original ResearchMeSH KeywordsApoptosisBlood PlateletsDiabetes MellitusHumansMAP Kinase Signaling SystemMitophagyOxidative StressPhosphorylationProtein Processing, Post-TranslationalTumor Suppressor Protein p53ConceptsDiabetes mellitusOxidative stressThrombotic cardiovascular eventsAnticipation of exposureCardiovascular eventsOxidative stress-mediated mitochondrial damageNormal platelet activationDiabetic plateletsPlatelet functionPlatelet pathologyPlatelet activationSevere oxidative stressNormal plateletsConsiderable mortalityProtective mechanismMitochondrial damageMellitusThrombosisPlateletsMitophagy inductionPhosphorylated p53Mitophagy machineryPlatelets resultsAutophagy processJNK activation
2014
Aldose Reductase–Mediated Phosphorylation of p53 Leads to Mitochondrial Dysfunction and Damage in Diabetic Platelets
Tang WH, Stitham J, Jin Y, Liu R, Lee SH, Du J, Atteya G, Gleim S, Spollett G, Martin K, Hwa J. Aldose Reductase–Mediated Phosphorylation of p53 Leads to Mitochondrial Dysfunction and Damage in Diabetic Platelets. Circulation 2014, 129: 1598-1609. PMID: 24474649, PMCID: PMC3989377, DOI: 10.1161/circulationaha.113.005224.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAldehyde ReductaseAnimalsApoptosisBcl-X ProteinBlood PlateletsCarotid Artery DiseasesDiabetes Mellitus, ExperimentalDiabetes Mellitus, Type 2Disease Models, AnimalFemaleHumansMaleMiceMice, Inbred C57BLMice, KnockoutMiddle AgedMitochondrial DiseasesPhosphorylationSignal TransductionThrombosisTumor Suppressor Protein p53ConceptsMitochondrial dysfunctionHyperglycemia-induced mitochondrial dysfunctionP53 phosphorylationAntiapoptotic protein Bcl-xL.Platelet apoptosisMitochondrial damageMitochondrial membrane potentialReductase activationActivation of p53Reactive oxygen species productionOxygen species productionBcl-xL.Molecular pathwaysSevere mitochondrial damagePhosphorylationNovel therapeutic targetAldose reductase activationSpecies productionMembrane potentialApoptosisCentral roleTherapeutic targetDose-dependent mannerActivationP53