Candida albicans cell wall comprises a branched β-d-(1→6)-glucan with β-d-(1→3)-side chains

3)-linked glucopyranosyl backbone possessing beta-D-(1-->6)-linked side chains of varying distribution and length. This proposed molecular architecture has been re-evaluated by the present study on the products of selective enzymolysis of insoluble C. albicans glucan particles (GG). High resolution 1H (400 and 700 MHz) and 13C (100 and 175 MHz) NMR analyses were performed on a soluble beta-glucan preparation (GG-Zym) obtained by GG digestion with endo-beta-D-(1-->3)-glucanase and on its high- (Pool 1) and low-molecular weight (Pool 2) sub-fractions. The resonances typical of uniformly beta-D-(1-->6)- and beta-D-(1-->3)-linked linear glucans, together with additional multiplets assigned to short-chain oligoglucosides, were detected in GG-Zym. Pool 1 (46.3+/-6.4% of GG-Zym content) consisted of beta-D-(1-->6)-linked glucopyranosyl polymers, with short beta-D-(1-->3)-branched side chains of 2.20+/-0.02 units (branching degree (DB)=0.14+/-0.03). Pool 2 was a mixture of glucose and linear short-chain beta-D-(1-->3)-oligoglucosides. Further digestion of Pool 1 by beta-D-(1-->6)-glucanase yielded a mixture of glucose and short beta-D-(1-->6)-linked, either linear or beta-D-(1-->3,6) branched, oligomers. These endoglucanase digestion patterns were consistent with the presence in C. albicans cell wall glucans of beta-D-(1-->6)-linked glucopyranosyl backbones possessing beta-D-(1-->3)-linked side chains, a structure very close to that of beta-D-(1-->6)-glucan from Saccharomyces cerevisiae yeast. This finding may provide the grounds for further elucidation of the cell wall structure and a better understanding of the biological properties of C. albicans beta-glucans. -->
ISSN: 0008-6215
DOI: 10.1016/j.carres.2008.02.020
Přístupová URL adresa: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::9a911991b53536876eeb1e3948bd6e91
https://doi.org/10.1016/j.carres.2008.02.020
Rights: CLOSED
Přírůstkové číslo: edsair.doi.dedup.....9a911991b53536876eeb1e3948bd6e91
Autor: Franca Podo, Paola Chiani, Antonella Torosantucci, Antonio Cassone, Massimo Giannini, Amalia Ferretti, Egidio Iorio, Carla Bromuro
Rok vydání: 2008
Předmět:
Zdroj: Carbohydrate Research. 343:1050-1061
ISSN: 0008-6215
DOI: 10.1016/j.carres.2008.02.020
Popis: The structure of immunogenic and immunomodulatory cell wall glucans of Candida albicans is commonly interpreted in terms of a basic polysaccharide consisting of a beta-D-(1-->3)-linked glucopyranosyl backbone possessing beta-D-(1-->6)-linked side chains of varying distribution and length. This proposed molecular architecture has been re-evaluated by the present study on the products of selective enzymolysis of insoluble C. albicans glucan particles (GG). High resolution 1H (400 and 700 MHz) and 13C (100 and 175 MHz) NMR analyses were performed on a soluble beta-glucan preparation (GG-Zym) obtained by GG digestion with endo-beta-D-(1-->3)-glucanase and on its high- (Pool 1) and low-molecular weight (Pool 2) sub-fractions. The resonances typical of uniformly beta-D-(1-->6)- and beta-D-(1-->3)-linked linear glucans, together with additional multiplets assigned to short-chain oligoglucosides, were detected in GG-Zym. Pool 1 (46.3+/-6.4% of GG-Zym content) consisted of beta-D-(1-->6)-linked glucopyranosyl polymers, with short beta-D-(1-->3)-branched side chains of 2.20+/-0.02 units (branching degree (DB)=0.14+/-0.03). Pool 2 was a mixture of glucose and linear short-chain beta-D-(1-->3)-oligoglucosides. Further digestion of Pool 1 by beta-D-(1-->6)-glucanase yielded a mixture of glucose and short beta-D-(1-->6)-linked, either linear or beta-D-(1-->3,6) branched, oligomers. These endoglucanase digestion patterns were consistent with the presence in C. albicans cell wall glucans of beta-D-(1-->6)-linked glucopyranosyl backbones possessing beta-D-(1-->3)-linked side chains, a structure very close to that of beta-D-(1-->6)-glucan from Saccharomyces cerevisiae yeast. This finding may provide the grounds for further elucidation of the cell wall structure and a better understanding of the biological properties of C. albicans beta-glucans.
Databáze: OpenAIRE