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RESEARCH PRODUCT
Use of a Genetically Engineered Strain To Evaluate the Pathogenic Potential of Yeast Cell and Filamentous Forms duringCandida albicansSystemic Infection in Immunodeficient Mice
Stephen P. SavilleCarlos MonteagudoAnna L. LazzellJose L. Lopez-ribotAshok K. Chaturvedisubject
Time FactorsT cellImmunologyCellMice NudeVirulenceMice SCIDKidneyMicrobiologyMicrobiologyFungal ProteinsMiceImmune systemCandida albicansmedicineAnimalsCandida albicansMice Inbred BALB CFungal proteinbiologyCandidiasisbiology.organism_classificationVirologyYeastCorpus albicansMice Inbred C57BLInfectious Diseasesmedicine.anatomical_structureDoxorubicinMice Inbred DBAFemaleParasitologyFungal and Parasitic InfectionsGenetic Engineeringdescription
ABSTRACTThe pathogenesis ofCandida albicanssystemic infection is complex and results from the balance between its intrinsic virulence attributes and the host immune responses. Morphogenetic transitions between yeast cell and filamentous forms are considered one of the main virulence attributes inC. albicans. We have examined the pathogenesis of a genetically engineeredC. albicansstrain in which morphogenetic conversions can be externally manipulated in immunodeficient mice; these included B-cell deficient, nude (T cell deficient), SCID (lacking both functional T and B cells), and DBA/2N (C5 deficient with impaired neutrophil activity) mice. We also tested mice severely immunosuppressed by cyclophosphamide-cortisone acetate treatment. Mice with specific immune defects were able to survive an infection by yeast cells but not filamentous forms. However, yeast cells displayed a pathogenic effect leading to lethality in the severely immunosuppressed mice.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-10-31 | Infection and Immunity |