Your search keyword '"Ghislain Ade Lacmbouh"' showing total 2 results

1. Novel Entries in a Fungal Biofilm Matrix Encyclopedia

Author

Robert Zarnowski, William M. Westler, Ghislain Ade Lacmbouh, Jane M. Marita, Jameson R. Bothe, Jörg Bernhardt, Anissa Lounes-Hadj Sahraoui, Joël Fontaine, Hiram Sanchez, Ronald D. Hatfield, James M. Ntambi, Jeniel E. Nett, Aaron P. Mitchell, and David R. Andes

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT Virulence of Candida is linked with its ability to form biofilms. Once established, biofilm infections are nearly impossible to eradicate. Biofilm cells live immersed in a self-produced matrix, a blend of extracellular biopolymers, many of which are uncharacterized. In this study, we provide a comprehensive analysis of the matrix manufactured by Candida albicans both in vitro and in a clinical niche animal model. We further explore the function of matrix components, including the impact on drug resistance. We uncovered components from each of the macromolecular classes (55% protein, 25% carbohydrate, 15% lipid, and 5% nucleic acid) in the C. albicans biofilm matrix. Three individual polysaccharides were identified and were suggested to interact physically. Surprisingly, a previously identified polysaccharide of functional importance, β-1,3-glucan, comprised only a small portion of the total matrix carbohydrate. Newly described, more abundant polysaccharides included α-1,2 branched α-1,6-mannans (87%) associated with unbranched β-1,6-glucans (13%) in an apparent mannan-glucan complex (MGCx). Functional matrix proteomic analysis revealed 458 distinct activities. The matrix lipids consisted of neutral glycerolipids (89.1%), polar glycerolipids (10.4%), and sphingolipids (0.5%). Examination of matrix nucleic acid identified DNA, primarily noncoding sequences. Several of the in vitro matrix components, including proteins and each of the polysaccharides, were also present in the matrix of a clinically relevant in vivo biofilm. Nuclear magnetic resonance (NMR) analysis demonstrated interaction of aggregate matrix with the antifungal fluconazole, consistent with a role in drug impedance and contribution of multiple matrix components. IMPORTANCE This report is the first to decipher the complex and unique macromolecular composition of the Candida biofilm matrix, demonstrate the clinical relevance of matrix components, and show that multiple matrix components are needed for protection from antifungal drugs. The availability of these biochemical analyses provides a unique resource for further functional investigation of the biofilm matrix, a defining trait of this lifestyle.

Published

2014

2. Novel Entries in a Fungal Biofilm Matrix Encyclopedia

Author

Ronald D. Hatfield, David R. Andes, Hiram Sanchez, Ghislain Ade Lacmbouh, Anissa Lounès-Hadj Sahraoui, Joël Fontaine, Jane M. Marita, Aaron P. Mitchell, William M. Westler, Jameson R. Bothe, Jeniel E. Nett, James M. Ntambi, Robert Zarnowski, and Jörg Bernhardt

Subjects

Proteomics, Antifungal Agents, Biology, Matrix (biology), Polysaccharide, Microbiology, Fungal Proteins, 03 medical and health sciences, Gene Expression Regulation, Fungal, Virology, Candida albicans, Extracellular, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, 030306 microbiology, Biofilm, Biofilm matrix, biology.organism_classification, QR1-502, 3. Good health, chemistry, Biochemistry, Biofilms, Commentary, Nucleic acid, Function (biology), Research Article

Abstract

Virulence of Candida is linked with its ability to form biofilms. Once established, biofilm infections are nearly impossible to eradicate. Biofilm cells live immersed in a self-produced matrix, a blend of extracellular biopolymers, many of which are uncharacterized. In this study, we provide a comprehensive analysis of the matrix manufactured by Candida albicans both in vitro and in a clinical niche animal model. We further explore the function of matrix components, including the impact on drug resistance. We uncovered components from each of the macromolecular classes (55% protein, 25% carbohydrate, 15% lipid, and 5% nucleic acid) in the C. albicans biofilm matrix. Three individual polysaccharides were identified and were suggested to interact physically. Surprisingly, a previously identified polysaccharide of functional importance, β-1,3-glucan, comprised only a small portion of the total matrix carbohydrate. Newly described, more abundant polysaccharides included α-1,2 branched α-1,6-mannans (87%) associated with unbranched β-1,6-glucans (13%) in an apparent mannan-glucan complex (MGCx). Functional matrix proteomic analysis revealed 458 distinct activities. The matrix lipids consisted of neutral glycerolipids (89.1%), polar glycerolipids (10.4%), and sphingolipids (0.5%). Examination of matrix nucleic acid identified DNA, primarily noncoding sequences. Several of the in vitro matrix components, including proteins and each of the polysaccharides, were also present in the matrix of a clinically relevant in vivo biofilm. Nuclear magnetic resonance (NMR) analysis demonstrated interaction of aggregate matrix with the antifungal fluconazole, consistent with a role in drug impedance and contribution of multiple matrix components., IMPORTANCE This report is the first to decipher the complex and unique macromolecular composition of the Candida biofilm matrix, demonstrate the clinical relevance of matrix components, and show that multiple matrix components are needed for protection from antifungal drugs. The availability of these biochemical analyses provides a unique resource for further functional investigation of the biofilm matrix, a defining trait of this lifestyle.

Published

2014