Understanding the 7‐Cys module amplification of C. neoformans metallothioneins: how high capacity Cu‐binding polypeptides are built to neutralize host nutritional immunity |
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Authors: | Anna Espart Selene Gil‐Moreno Òscar Palacios Mercè Capdevila Sílvia Atrian |
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Affiliation: | 1. Departament de Genètica, Facultat de Biologia, Universitat de Barcelona, Barcelona, Spain;2. Departament de Química, Facultat de Ciències, Universitat Autònoma de Barcelona, Cerdanyola de Vallès, Spain |
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Abstract: | Cryptococcus neoformans metallothioneins (MTs), CnMT1 and CnMT2, have been identified as essential infectivity and virulence factors of this pathogen. Both MTs are unusually long Cu‐thioneins, exhibiting protein architecture and metal‐binding abilities compatible with the hypothesis of resulting from three and five tandem repetitions of 7‐Cys motives, respectively, each of them folding into Cu5‐clusters. Through the study of the Zn(II)‐ and Cu(I)‐binding capabilities of several CnMT1 truncated mutants, we show that a 7‐Cys segment of CnMT1 folds into Cu5‐species, of additive capacity when joined in tandem. All the obtained Cu‐complexes share practically similar architectural features, if judging by their almost equivalent CD fingerprints, and they also share their capacity to restore copper tolerance in MT‐devoid yeast cells. Besides the analysis of the modular composition of these long fungal MTs, we evaluate the features of the Cys‐rich stretch spacer and flanking sequences that allow the construction of stable metal clusters by adjacent union of binding modules. Overall, our data support a mechanism by which some microbial MTs may have evolved to enlarge their original metal co‐ordination capacity under the specific selective pressure of counteracting the Cu‐based immunity mechanisms evolved by the infected hosts. |
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