CD4(+)-T-Cell-mediated resistance to systemic murine candidiasis induced by a membrane fraction of Candida albicans.

We induced resistance to systemic Candida albicans infection through CD4(+)-cell-mediated immunity in mice by immunization with subcutaneous injections of live C. albicans cells emulsified in incomplete Freund adjuvant. Using the resistant mice, we tested subcellular fractions of C. albicans cells for antigenicity. The fractions were derived from digested surface cell walls, insoluble membranes, or soluble and insoluble cytoplasmic materials, which were prepared by treatment with cell wall-digesting enzymes followed by lysis of the consequent protoplasts. Interestingly, the live-cell-immunized mice showed strong cell-mediated immune responses to the membrane fraction (C. albicans membrane antigen [CMA]). In addition, immunization with CMA induced resistance to systemic candidiasis, which disappeared upon administration of anti-CD4 monoclonal antibody. Infusion of splenocytes from the CMA-immunized mice conferred resistance on SCID mice, whereas infusion of CD4(+)-T-cell-depleted splenocytes was unable to induce resistance, indicating the importance of CD4(+) lymphocytes for resistance. These results suggest a potential for the membrane fraction to act as an antigen conferring resistance to systemic candidiasis in place of live cells and also as a source for the isolation of a new antigen.

Immunization with the Candida albicans membrane fraction and in combination with fluconazole protects against systemic fungal infections.

We studied the immunogenicity of a membrane fraction prepared from Candida albicans cells called C. albicans membrane antigen (CMA). The present study revealed that CMA immunization has antifungal activity in mouse models of systemic fungal infection. Immunization of mice by subcutaneous injections of CMA with incomplete Freund adjuvant induced resistance to infections caused not only by C. albicans but also by Aspergillus fumigatus. The level of resistance to candidiasis was as high as that induced by whole-cell immunization. The acquired resistance to candidiasis in the mice immunized with CMA was not diminished by immunosuppressive treatment with cyclophosphamide. The level of resistance to fungal infections was superior to that given by fluconazole (FLC) treatment alone and highly enhanced by the combination with FLC. When CD4(+) cells in CMA-immunized mice were depleted by a monoclonal antibody, the antifungal activity induced by the combination of CMA and FLC was significantly reduced. These results indicate that immunization with CMA is useful for preventing systemic fungal infections and in combination with FLC for increasing resistance after infection.