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Soybean toxin (SBTX) is an antifungal protein from soybeans with broad inhibitory activity against the growth and filamentation of many fungi, including human and plant pathogenic species such as Candida albicans, Candida parapsilosis, Aspergillus niger, Penicillium herquei, Cercospora sojina and Cercospora kikuchii. Understanding the mechanism by which SBTX acts on fungi and yeasts may contribute to the design of novel antifungal drugs and/or the development of transgenic plants resistant to pathogens. To this end, the polymorphic yeast C. albicans was chosen as a model organism and changes in the gene expression profile of strain SC5314 upon exposure to SBTX were examined. Genes that were differentially regulated in the presence of SBTX were involved in glucose transport and starvation-associated stress responses as well as in the control of both the induction and repression of C. albicans hyphal formation. Transmission electron microscopy showed that C. albicans cells exposed to SBTX displayed severe signs of starvation and were heavily granulated. Our data were indicative of C. albicans cell starvation despite sufficient nutrient availability in the medium; therefore, it can be speculated that SBTX blocks nutrient uptake systems. Because neither the starvation signal nor the alkaline response pathway lead to the induction of hyphae, we hypothesise that conflicting signals are transmitted to the complex regulatory network controlling morphogenesis, eventually preventing the filamentation signal from reaching a significant threshold.  相似文献   

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Candida albicans is an important cause of morbidity in hospitalized and immunosuppressed patients. Virulence factors of C. albicans include: filamentation, proteinases, adherence proteins and biofilm formation. The objective of this work was to use Galleria mellonella as a model to study the roles of C. albicans filamentation in virulence. We focused our study to five genes BCR1, FLO8, KEM1, SUV3 and TEC1 that have been shown to play a role in filamentation. Filaments are necessary for biofilm formation and evading interaction with macrophages in mammalian infections. Among the five mutant strain tested, we found that only the flo8/flo8 mutant strain did not form filaments within G. mellonella. This strain also exhibited reduced virulence in the larvae. Another strain that exhibited reduced pathogenicity in the G. mellonella model was tec1/tec1 but by contrast, the tec1/tec1 strain retained the ability to form filaments. Overexpression of TEC1 in the flo8/flo8 mutant restored filamentation but did not restore virulence in the larvae as well as in a mouse model of C. albicans infection. The filamentation phenotype did not affect the ability of hemocytes, the immune cells of G. mellonella, to associate with the various mutant strains of C. albicans. The capacities of the tec1/tec1 mutant and the flo8/flo8 TDH3-TEC1 strains to form filaments with impaired virulence suggest that filamentation alone is not sufficient to kill G. mellonella and suggest other virulence factors may be associated with genes that regulate filamentation.  相似文献   

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