Daniela Hess scite author profile

Secreted aspartyl proteinases (Saps), encoded by a gene family with at least nine members (SAP1 to SAP9), are one of the most discussed virulence factors produced by the human pathogen Candida albicans. In order to study the role of each Sap isoenzyme in pathogenicity, we have constructed strains which harbor mutations at selected SAP genes. SAP1, SAP2, and SAP3, which are regulated differentially in vitro, were mutated by targeted gene disruption. The growth rates of all homozygous null mutants were similar to those of the isogenic wild-type parental strain (SC5314) in complex and defined media. In medium with protein as the sole source of nitrogen, sap1 and sap3 mutants grew with reduced growth rates but reached optical densities similar to those measured for SC5314. In contrast, sap2 null mutants tended to clump, grew poorly in this medium, and produced the lowest proteolytic activity. Addition of ammonium ions reversed such growth defects. These results support the view that Sap2 is the dominant isoenzyme. When sap1, sap2, and sap3 mutants were injected intravenously in guinea pigs and mice, the animals had increased survival rates compared to those of control animals infected with SC5314. However, reduction of proteolytic activity in vitro did not correlate directly with the extent of attenuation of virulence observed for all Sap-deficient mutants. These data suggest that SAP1, SAP2, and SAP3 all contribute to the overall virulence of C. albicans and presumably all play important roles during disseminated infections.

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Differential regulation of SAP8 and SAPS, which encode two new members of the secreted aspartic proteinase family in Candida albicans

Monod¹,

Hube²,

Hess³

et al. 1998

126

115

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Secreted aspartic proteinases (Saps) contribute to the virulence of Candida albicans in systemic animal models of infection. Seven genes encoding Saps (SAM-SAP7) have been identified to date but evidence suggested the existence of additional SAP genes. The screening of a C. albicans iZEMBL3 genomic library for the presence of other SAP genes was undertaken. Two new genes, SAP8 and SAPS, were isolated. The N-terminal amino acid sequence deduced from SAP8 downstream of a Kex2plike cleavage site corresponds to the N-terminal amino acid sequence of the 41 kDa Sap isolated and characterized previously. SAP8 mRNA was expressed preferentially in yeasts at 25 "C after 6 and 9 h growth in BSA-containing medium. SAPS encodes an aspartic proteinase with a Kex2pllike cleavage site and contains a putative glycophosphatidylinositol-anchor signal at the C-terminus. Although the SAPS gene product has not yet been isolated from cultures of C. albicans, transcripts of SAPS were observed preferentially in later growth phases when SAP8 expression had decreased.

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The role and relevance of phospholipase D1 during growth and dimorphism of Candida albicans

Hube

Hess

Baker

et al. 2001

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The phosphatidylcholine-specific phospholipase D1 (PLD1) in Saccharomyces cerevisiae is involved in vesicle transport and is essential for sporulation. The gene encoding the homologous phospholipase D1 from Candida albicans (PLD1) was used to study the role of PLD1 in this pathogenic fungus. In vitro and in vivo expression studies using Northern blots and reverse transcriptase-PCR showed low PLD1 mRNA levels in defined media supporting yeast growth and during experimental infection, while enhanced levels of PLD1 transcripts were detected during the yeast to hyphal transition. To study the relevance of PLD1 during yeast and hyphal growth, an essential part of the gene was deleted in both alleles of two isogenic strains. In vitro PLD1 activity assays showed that pld1 mutants produced no detectable levels of phosphatidic acid, the hydrolytic product of PLD1 activity, and strongly reduced levels of diacylglycerol, the product of lipid phosphate phosphohydrolase, suggesting no or a negligible background PLD1 activity in the pld1 mutants. The pld1 mutants showed no growth differences compared to the parental wild-type in liquid complex and minimal media, independent of the growth temperature. In addition, growth rates of pld1 mutants in media with protein as the sole source of nitrogen were similar to growth rates of the wild-type, indicating that secretion of proteinases was not reduced. Chlamydospore formation was normal in pld1 mutants. When germ tube formation was induced in liquid media, pld1 mutants showed similar rates of yeast to hyphal transition compared to the wild-type. However, no hyphae formation was observed on solid Spider medium, and cell growth on cornmeal/Tween 80 medium indicated aberrant morphogenesis. In addition, pld1 mutants growing on solid media had an attenuated ability to invade the agar. In a model of oral candidosis, pld1 mutants showed no attenuation of virulence. In contrast, the mutant was less virulent in two different mouse models. These data suggest that PLD1 is not essential for growth and oral infections. However, they also suggest that a prominent part of the phosphatidic acid and diacylglycerol pools is produced by PLD1 and that the level of these components is important for morphological transitions under certain conditions in C. albicans.

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Individual acid aspartic proteinases (Saps) 1-6 of Candida albicans are not essential for invasion and colonization of the gastrointestinal tract in mice

Kretschmar

Felk

Staib

et al. 2002

Microbial Pathogenesis

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Daniela Hess

Disruption of each of the secreted aspartyl proteinase genes SAP1, SAP2, and SAP3 of Candida albicans attenuates virulence

Differential regulation of SAP8 and SAPS, which encode two new members of the secreted aspartic proteinase family in Candida albicans

The role and relevance of phospholipase D1 during growth and dimorphism of Candida albicans

Individual acid aspartic proteinases (Saps) 1-6 of Candida albicans are not essential for invasion and colonization of the gastrointestinal tract in mice

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