Patterns of resistance to Candida albicans in inbred mouse strains
- 1 June 1993
- journal article
- research article
- Published by Wiley in Immunology & Cell Biology
- Vol. 71 (3) , 221-225
- https://doi.org/10.1038/icb.1993.25
Abstract
Candida albicans infections were established in eight inbred strains of mice. Using established histological criteria, only two strains (AKR and CBA/CaH) were found to exhibit severe lesions. The remainder showed only mild tissue damage. Deaths occurred in three strains: CBA/CaH, A/J and DBA/2. The last two strains lack the important complement component C5. Colony counts in the brain varied widely between strains and showed no correlation with the extent or severity of tissue destruction. However, strains lacking C5 had a significantly greater fungal burden in the brain than C5-sufficient mice. The data are discussed in relation to concepts of susceptibility and resistance to C. albicans in experimental infections in mice.Keywords
This publication has 12 references indexed in Scilit:
- Genetic Resistance to Candida albicans Infection Is Conferred by Cells Derived from the Bone MarrowThe Journal of Infectious Diseases, 1992
- Susceptibility of beige mutant mice to candidiasis may be linked to a defect in granulocyte production by bone marrow stem cellsInfection and Immunity, 1991
- Murine candidiasis: Sex differences in the severity of tissue lesions are not associated with levels of serum C3 and C5Immunology & Cell Biology, 1991
- Antigens and immune responses in Candida albicans infectionImmunology & Cell Biology, 1990
- Murine Candidiasis. Pathogenesis and host responses in genetically distinct inbred miceImmunology & Cell Biology, 1987
- Mouse candidiasisImmunogenetics, 1987
- The pathogenesis of acute systemic candidiasis in a susceptible inbred mouse strainThe Journal of Pathology, 1986
- Strain-Dependent Differences in Susceptibility of Mice to Experimental CandidosisThe Journal of Infectious Diseases, 1986
- Innate and acquired immune responses againstCandida albicansin congenic B10.D2 mice with deficiency of the C5 complement componentMedical Mycology, 1986