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Alistair J.P. Brown, Gordon D. Brown, Mihai G. Netea, Neil A.R. Gow 

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Presentation on theme: "Alistair J.P. Brown, Gordon D. Brown, Mihai G. Netea, Neil A.R. Gow "— Presentation transcript:

1 Metabolism impacts upon Candida immunogenicity and pathogenicity at multiple levels 
Alistair J.P. Brown, Gordon D. Brown, Mihai G. Netea, Neil A.R. Gow  Trends in Microbiology  Volume 22, Issue 11, Pages (November 2014) DOI: /j.tim Copyright © 2014 The Authors Terms and Conditions

2 Figure 1 Changes in carbon source programme major changes in cell wall architecture. Transmission electron micrographs of the Candida albicans cell wall from cells grown on lactate or glucose as sole carbon source are shown on the left [33]. The cartoon on the right illustrates the structure of the C. albicans cell wall (adapted, with permission, from [76]). Trends in Microbiology  , DOI: ( /j.tim ) Copyright © 2014 The Authors Terms and Conditions

3 Figure 2 Nutrients influence the expression of key virulence factors in Candida albicans. Nutrient adaptation influences the expression of secreted aspartic proteases (SAPs), yeast–hypha morphogenesis, adhesion, and biofilm formation via an integrated network of metabolic and virulence signalling pathways. The images of white and opaque cells are from Zordan et al. [61], and the image of C. albicans adhesion is from Delgado-Silva et al. [100]. The SAP crystal structure is reproduced, with permission, from Cutfield et al. [101], and the biofilm images from Nobile et al. [72]. Trends in Microbiology  , DOI: ( /j.tim ) Copyright © 2014 The Authors Terms and Conditions

4 Figure 3 Changes in carbon source impact on immune surveillance by altering the recognition of Candida albicans cells by innate immune cells and by reducing the susceptibility of the fungal cells to phagocytic killing via elevated oxidative stress resistance [8]. Trends in Microbiology  , DOI: ( /j.tim ) Copyright © 2014 The Authors Terms and Conditions

5 Figure 4 Nutrient adaptation affects Candida albicans pathogenicity at multiple levels. Nutrient adaptation contributes directly to pathogenicity by supporting fungal growth. Nutrient adaptation also promotes pathogenicity indirectly through cell wall remodelling, by enhancing stress resistance, by modulating the expression of key virulence factors, and by affecting the efficacy of immune surveillance by innate immune cells (see text). Trends in Microbiology  , DOI: ( /j.tim ) Copyright © 2014 The Authors Terms and Conditions

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