Abstract

With the long term objective of understanding the interactions between Candida albicans and its human host this proposal examines the structural and functional dynamics of the Candidal cell surface. The microbial cell surface as the interface between the microbe and its environment is responsible for mediating host/parasite interactions and pathogenesis. The cell surface of C. albicans is dynamic, exhibiting changes in morphology, adherence and other properties relevant to the pathogenic process. These changes occur in response to culture conditions and exemplify adaptive responses that likely occur in vivo. The molecular basis of cell surface dynamics is as yet poorly defined. Molecular genetics provides a means of defining the molecular basis of cell surface structure and dynamics and this application focuses on the analysis of genes encoding cell surface proteins which are differentially expressed in response to environmental conditions. Because the dynamic changes in the cell surface result in altered properties relevant to the host/parasite interaction and because these changes occur in response to culture conditions, it follows that the differentially expressed genes encode biochemical or structural functions that are directly involved in establishing cell surface characteristics integral to the pathogenic process. Analysis of the structure and function of these genes will provide information essential to our understanding of C. albicans and its interaction with the host.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Program Projects (P01)
Project #
1P01AI037194-01
Application #
3727777
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
1
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
La Biomed Research Institute/ Harbor UCLA Medical Center
Department
Type
DUNS #
City
Torrance
State
CA
Country
United States
Zip Code
90502

  Publications

Boxx, Gayle M; Kozel, Thomas R; Nishiya, Casey T et al. (2010) Influence of mannan and glucan on complement activation and C3 binding by Candida albicans. Infect Immun 78:1250-9
Boxx, Gayle M; Nishiya, Casey T; Kozel, Thomas R et al. (2009) Characteristics of Fc-independent human antimannan antibody-mediated alternative pathway initiation of C3 deposition to Candida albicans. Mol Immunol 46:473-80
Zhang, Mason X; Bohlman, M Charlotte; Itatani, Carol et al. (2006) Human recombinant antimannan immunoglobulin G1 antibody confers resistance to hematogenously disseminated candidiasis in mice. Infect Immun 74:362-9
Lillegard, Joseph B; Sim, Robert B; Thorkildson, Peter et al. (2006) Recognition of Candida albicans by mannan-binding lectin in vitro and in vivo. J Infect Dis 193:1589-97
Spellberg, Brad J; Ibrahim, Ashraf S; Avenissian, Valentina et al. (2005) The anti-Candida albicans vaccine composed of the recombinant N terminus of Als1p reduces fungal burden and improves survival in both immunocompetent and immunocompromised mice. Infect Immun 73:6191-3
Toenjes, Kurt A; Munsee, Suzanne M; Ibrahim, Ashraf S et al. (2005) Small-molecule inhibitors of the budded-to-hyphal-form transition in the pathogenic yeast Candida albicans. Antimicrob Agents Chemother 49:963-72
Cutler, J E (2005) Defining criteria for anti-mannan antibodies to protect against candidiasis. Curr Mol Med 5:383-92
Granger, Bruce L; Flenniken, Michelle L; Davis, Dana A et al. (2005) Yeast wall protein 1 of Candida albicans. Microbiology 151:1631-44
Ibrahim, Ashraf S; Spellberg, Brad J; Avenissian, Valentina et al. (2005) Vaccination with recombinant N-terminal domain of Als1p improves survival during murine disseminated candidiasis by enhancing cell-mediated, not humoral, immunity. Infect Immun 73:999-1005
VandenBerg, Alysia L; Ibrahim, Ashraf S; Edwards Jr, John E et al. (2004) Cdc42p GTPase regulates the budded-to-hyphal-form transition and expression of hypha-specific transcripts in Candida albicans. Eukaryot Cell 3:724-34

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