2022
Treating ‘Septic’ With Enhanced Antibiotics and ‘Arthritis’ by Mitigation of Excessive Inflammation
Kwon HK, Dussik CM, Kim SH, Kyriakides TR, Oh I, Lee FY. Treating ‘Septic’ With Enhanced Antibiotics and ‘Arthritis’ by Mitigation of Excessive Inflammation. Frontiers In Cellular And Infection Microbiology 2022, 12: 897291. PMID: 35755835, PMCID: PMC9218192, DOI: 10.3389/fcimb.2022.897291.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnti-Bacterial AgentsArthritis, InfectiousDisease Models, AnimalInflammationMiceOsteolysisRifampinConceptsSeptic arthritisBacterial burdenAntibiotic treatmentMurine modelTherapeutic goalsConcurrent antimicrobial therapyDistinct therapeutic goalsGeneration of inflammationMRSA septic arthritisSeptic knee arthritisInflammatory joint conditionsArticular cartilageMitigation of inflammationPost-antibiotic treatmentNovel therapeutic strategiesSeptic arthritis modelArticular cartilage damageEx vivo modelArticular cartilage integrityInflammatory arthritisInhibitors of ERKInflammatory profileMRSA infectionSynovial tissueExcessive inflammation
2017
Salinomycin Induces Reactive Oxygen Species and Apoptosis in Aggressive Breast Cancer Cells as Mediated with Regulation of Autophagy
Kim K, Park K, Kim S, Yu S, Lee D, Kim Y, Noh K, YEUL J, Seo Y, Ahn S. Salinomycin Induces Reactive Oxygen Species and Apoptosis in Aggressive Breast Cancer Cells as Mediated with Regulation of Autophagy. Anticancer Research 2017, 37: 1747-1758. PMID: 28373437, DOI: 10.21873/anticanres.11507.Peer-Reviewed Original ResearchConceptsMDA-MB-231 cellsAggressive breast cancer cellsBreast cancer cellsCancer cellsReactive oxygen speciesBreast cancer cell linesROS productionMitochondrial membrane potentialScavenger of ROSInduces reactive oxygen speciesCancer cell linesCaspase-3/9 activityPropidium iodide stainingMCF-7 cellsOxygen speciesAcceleration of apoptosisAcridine orange stainingAutophagy inhibitionMonocarboxylic ionophoreChemotherapeutic drugsCancer treatmentMitochondrial dysfunctionIodide stainingRegulation of autophagyUnderlying mechanism