Defensins from Insects and Plants Interact with Fungal Glucosylceramides

Defensins from Insects and Plants Interact with Fungal Glucosylceramides

Growth of the yeast species Candida albicans and Pichia pastoris is inhibited by RsAFP2, a plant defensin isolated from radish seed (Raphanus sativus), at micromolar concentrations. In contrast, gcs-deletion mutants of both yeast species are resistant toward RsAFP2. GCS genes encode UDP-glucose:cera...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 279; no. 6; pp. 3900 - 3905
Main Authors: Thevissen, Karin, Warnecke, Dirk C., François, Isabelle E.J.A., Leipelt, Martina, Heinz, Ernst, Ott, Claudia, Zähringer, Ulrich, Thomma, Bart P.H.J., Ferket, Kathelijne K.A., Cammue, Bruno P.A.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 06-02-2004
American Society for Biochemistry and Molecular Biology
Subjects:
AFP2 protein
Animals
antifungal activity
Antifungal Agents - metabolism
Antifungal Agents - pharmacology
Antimicrobial Cationic Peptides - metabolism
Antimicrobial Cationic Peptides - pharmacology
barley endosperm
binding-sites
Candida albicans
Candida albicans - drug effects
Candida albicans - growth & development
Candida albicans - metabolism
cells
cerebrosides
dahlia dahlia-merckii
defensins
Defensins - metabolism
Defensins - pharmacology
Fungi - drug effects
Fungi - growth & development
Fungi - metabolism
Genes, Fungal
glucosylceramides
Glucosylceramides - chemistry
Glucosylceramides - genetics
Glucosylceramides - metabolism
heliomicin
In Vitro Techniques
Insect Proteins - metabolism
Insect Proteins - pharmacology
Mutation
Pichia - drug effects
Pichia - genetics
Pichia - growth & development
Pichia - metabolism
Pichia pastoris
Plant Proteins - metabolism
Plant Proteins - pharmacology
protein-synthesis
RsAFP2 protein
saccharomyces-cerevisiae
tandem mass-spectrometry
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Summary:Growth of the yeast species Candida albicans and Pichia pastoris is inhibited by RsAFP2, a plant defensin isolated from radish seed (Raphanus sativus), at micromolar concentrations. In contrast, gcs-deletion mutants of both yeast species are resistant toward RsAFP2. GCS genes encode UDP-glucose:ceramide glucosyltransferases, which catalyze the final step in the biosynthesis of the membrane lipid glucosylceramide. In an enzyme-linked immunosorbent assay-based binding assay, RsAFP2 was found to interact with glucosylceramides isolated from P. pastoris but not with soybean nor human glucosylceramides. Furthermore, the P. pastoris parental strain is sensitive toward RsAFP2-induced membrane permeabilization, whereas the corresponding gcs-deletion mutant is highly resistant to RsAFP2-mediated membrane permeabilization. A model for the mode of action of RsAFP2 is presented in which all of these findings are linked. Similarly to RsAFP2, heliomicin, a defensin-like peptide from the insect Heliothis virescens, is active on C. albicans and P. pastoris parental strains but displays no activity on the gcs-deletion mutants of both yeast species. Furthermore, heliomicin interacts with glucosylceramides isolated from P. pastoris and soybean but not with human glucosylceramides. These data indicate that structurally homologous anti-fungal peptides present in species from different eukaryotic kingdoms interact with the same target in the fungal plasma membrane, namely glucosylceramides, and as such support the hypothesis that defensins from plants and insects have evolved from a single precursor.
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ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M311165200