This review describes recent findings based on structural and immunochemical analyses of the cell wall mannan of Candida albicans, and other medically important Candida species. Mannan has been shown to consist of α-1,2-, α-1,3-, α-1,6-, and β-1,2-linked mannopyranose units with few phosphate groups. Each Candida species has a unique mannan structure biosynthesized by sequential collaboration between species-specific mannosyltransferases. In particular, the β-1,2-linked mannose units have been shown to comprise a characteristic oligomannosyl side chain that is strongly antigenic. For these pathogenic Candida species, cell-surface mannan was also found to participate in the adhesion to the epithelial cells, recognition by innate immune receptors and development of pathogenicity. Therefore, clarification of the precise chemical structure of Candida mannan is indispensable for understanding the mechanism of pathogenicity, and for development of new antifungal drugs and immunotherapeutic procedures.
This review describes recent findings based on structural and immunochemical analyses of the cell wall panclass="Chemical">mannan of class="Chemical">pan class="Species">Candida albicans, and other medically important Candida species. Mannan has been shown to consist of α-1,2-, α-1,3-, α-1,6-, and β-1,2-linkedmannopyranose units with few phosphate groups. Each Candida species has a unique mannan structure biosynthesized by sequential collaboration between species-specific mannosyltransferases. In particular, the β-1,2-linked mannose units have been shown to comprise a characteristic oligomannosyl side chain that is strongly antigenic. For these pathogenic Candida species, cell-surface mannan was also found to participate in the adhesion to the epithelial cells, recognition by innate immune receptors and development of pathogenicity. Therefore, clarification of the precise chemical structure of Candidamannan is indispensable for understanding the mechanism of pathogenicity, and for development of new antifungal drugs and immunotherapeutic procedures.
Authors: Matthew S Graus; Michael J Wester; Douglas W Lowman; David L Williams; Michael D Kruppa; Carmen M Martinez; Jesse M Young; Harry C Pappas; Keith A Lidke; Aaron K Neumann Journal: Cell Rep Date: 2018-08-28 Impact factor: 9.423
Authors: Niege S Mendes; Glauce L Trevisan; Aline H Silva Cruz; Rodrigo S Santos; Nalu T A Peres; Nilce M Martinez-Rossi; Antonio Rossi Journal: FEBS Open Bio Date: 2012-09-28 Impact factor: 2.693
Authors: Flavie Courjol; Thierry Jouault; Céline Mille; Rebecca Hall; Emmanuel Maes; Boualem Sendid; Jean Maurice Mallet; Yann Guerardel; Neil A R Gow; Daniel Poulain; Chantal Fradin Journal: Open Forum Infect Dis Date: 2015-09-10 Impact factor: 3.835
Authors: Matthew S Graus; Carolyn Pehlke; Michael J Wester; Lisa B Davidson; Stanly L Steinberg; Aaron K Neumann Journal: PLoS Comput Biol Date: 2014-05-29 Impact factor: 4.475
Authors: Retno P Rahayu; Remita A Prasetyo; Djoko A Purwanto; Utari Kresnoadi; Regina P D Iskandar; Muhammad Rubianto Journal: Vet World Date: 2018-06-07