A Metronidazole-Resistant Isolate of Blastocystis spp. Is Susceptible to Nitric Oxide and Downregulates Intestinal Epithelial Inducible Nitric Oxide Synthase by a Novel Parasite Survival Mechanism
Mirza H, Wu Z, Kidwai F, Tan KS. A Metronidazole-Resistant Isolate of Blastocystis spp. Is Susceptible to Nitric Oxide and Downregulates Intestinal Epithelial Inducible Nitric Oxide Synthase by a Novel Parasite Survival Mechanism. Infection And Immunity 2011, 79: 5019-5026. PMID: 21930763, PMCID: PMC3232666, DOI: 10.1128/iai.05632-11.Peer-Reviewed Original ResearchMeSH KeywordsAnti-Infective AgentsArginaseBlastocystisCaco-2 CellsDown-RegulationDrug ResistanceEnterocytesGene Expression Regulation, EnzymologicHumansMetronidazoleNitric OxideNitric Oxide Synthase Type IIConceptsInducible nitric oxide synthaseMetronidazole-resistant isolatesNitric oxide synthaseNitric oxideOxide synthaseBlastocystis infectionEpithelial inducible nitric oxide synthaseST-7Dose-dependent inhibitionHost innate responseHuman intestinal epitheliumHost defense mechanismsIntestinal epithelial cellsLuminal pathogensAbdominal painIntestinal symptomsImmunocompetent patientsST-4Caco-2 modelChronic infectionControversial pathogenesisInnate responseNO productionBlastocystis sppIntestinal epithelium