Ulrich Lermann scite author profile

A well-known virulence attribute of the human-pathogenic yeast Candida albicans is the secretion of aspartic proteases (Saps), which may contribute to colonization and infection of different host niches by degrading tissue barriers, destroying host defence molecules, or digesting proteins for nutrient supply. The role of individual Sap isoenzymes, which are encoded by a large gene family, for the pathogenicity of C. albicans has been investigated by assessing the virulence of mutants lacking specific SAP genes and by studying the expression pattern of the SAP genes in various models of superficial and systemic infections. We used a recombination-based genetic reporter system to detect the induction of the SAP1-SAP6 genes during infection of reconstituted human vaginal epithelium. Only SAP5, but none of the other tested SAP genes, was detectably activated in this in vitro infection model. To directly address the importance of the SAP1-SAP6 genes for invasion of reconstituted human epithelia (RHE), we constructed a set of mutants of the wild-type C. albicans model strain SC5314 in which either single or multiple SAP genes were specifically deleted. Even mutants lacking all of the SAP1-SAP3 or the SAP4-SAP6 genes displayed the same capacity to invade and damage both oral and vaginal RHE as their wild-type parental strain, in contrast to a nonfilamentous efg1D mutant that was avirulent under these conditions. We therefore conclude from these results that the secreted aspartic proteases Sap1p-Sap6p are not required for invasion of RHE by C. albicans.

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Limited Role of Secreted Aspartyl Proteinases Sap1 to Sap6 in Candida albicans Virulence and Host Immune Response in Murine Hematogenously Disseminated Candidiasis

Correia

Lermann

Teixeira

et al. 2010

Infect Immun

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Candida albicans secreted aspartyl proteinases (Saps) are considered virulence-associated factors. Several members of the Sap family were claimed to play a significant role in the progression of candidiasis established by the hematogenous route. This assumption was based on the observed attenuated virulence of sap-null mutant strains. However, the exclusive contribution of SAP genes to their attenuated phenotype was not unequivocally confirmed, as the Ura status of these mutant strains could also have contributed to the attenuation. In this study, we have reassessed the importance of SAP1 to SAP6 in a murine model of hematogenously disseminated candidiasis using sap-null mutant strains not affected in their URA3 gene expression and compared their virulence phenotypes with those of Ura-blaster sap mutants. The median survival time of BALB/c mice intravenously infected with a mutant strain lacking SAP1 to SAP3 was equivalent to that of mice infected with wild-type strain SC5314, while those infected with mutant strains lacking SAP5 showed slightly extended survival times. Nevertheless, no differences could be observed between the wild type and a ⌬sap456 mutant in their abilities to invade mouse kidneys. Likewise, a deficiency in SAP4 to SAP6 had no noticeable impact on the immune response elicited in the spleens and kidneys of C. albicans-infected mice. These results contrast with the behavior of equivalent Ura-blaster mutants, which presented a significant reduction in virulence. Our results suggest that Sap1 to Sap6 do not play a significant role in C. albicans virulence in a murine model of hematogenously disseminated candidiasis and that, in this model, Sap1 to Sap3 are not necessary for successful C. albicans infection.The polymorphic yeast Candida albicans is an important opportunistic human pathogen causing infections that range from superficial mucosal lesions to life-threatening systemic disease. It is by far the most common cause of fungal invasive infections, which could be attributed to the little immunosuppression required to predispose an individual to invasive Candida infections (39). Host physical barriers and immune system integrity are crucial factors in controlling the establishment of infection. However, the high adaptability of C. albicans to different host niches, by the expression of appropriate sets of virulence-related genes, is also a determinant (19, 51). Several of these virulence attributes may participate in and influence the infective process, depending on the site and stage of invasion and on the nature of the host response (37). The secretion of hydrolytic enzymes during infection is required as a virulence attribute to aid adhesion, invasion, and the destruction of host immune factors, in addition to nutrient acquisition (21).Among these enzymes, secreted aspartyl proteinases (Sap), encoded by a 10-member gene family (SAP1 to SAP10) have been the most extensively studied (35). The 10 SAP genes that compose this family can be divided into subfamilies based on amino acid sequence ho...

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Tetracycline-Inducible Expression of Individual Secreted Aspartic Proteases in Candida albicans Allows Isoenzyme-Specific Inhibitor Screening

Staib

Lermann

Blaβ-Warmuth

et al. 2008

Antimicrob Agents Chemother

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The yeast Candida albicans possesses a gene family that encodes secreted aspartic proteases (Saps), which are important for the virulence of this human fungal pathogen. Inhibitors of the Saps could therefore be used as novel antimycotic agents for the treatment of C. albicans infections. In the present study, we established a bioassay which allows testing of the activity of potential protease inhibitors against specific Sap isoenzymes by their ability to inhibit protease-dependent growth of C. albicans. In a medium containing bovine serum albumin (BSA) as the sole source of nitrogen, C. albicans specifically expresses the Sap2p isoenzyme, which degrades the BSA and thereby enables the fungus to grow. As the other SAP genes are not significantly expressed under these conditions, mutants lacking SAP2 are unable to utilize BSA as a nitrogen source and cannot grow in such a medium. To investigate whether forced expression of SAP genes other than SAP2 would also allow growth on BSA, we constructed a set of strains expressing each of the 10 SAP genes from a tetracycline-inducible promoter in a sap2⌬ mutant background. Expression of Sap1p, Sap2p, Sap3p, Sap4p, Sap5p, Sap6p, Sap8p, and a C-terminally truncated, secreted Sap9p restored the growth of the sap2⌬ mutant with different efficiencies. This set of strains was then used to test the activities of various aspartic protease inhibitors against specific Sap isoenzymes by monitoring growth on BSA in the presence of the inhibitors. While pepstatin blocked the activity of all of the Saps tested, the human immunodeficiency virus protease inhibitors ritonavir and saquinavir inhibited growth of the strains expressing Sap1p to Sap3p and Sap1p, respectively, but not that of strains expressing other Saps. Therefore, the strain set can be used to test the activity of new protease inhibitors against individual C. albicans Sap isoenzymes by their ability to block the growth of the pathogen.

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Secreted aspartic protease 2 of Candida albicans inactivates factor H and the macrophage factor H-receptors CR3 (CD11b/CD18) and CR4 (CD11c/CD18)

et al. 2015

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The opportunistic pathogenic yeast Candida albicans employs several mechanisms to interfere with the human complement system. This includes the acquisition of host complement regulators, the release of molecules that scavenge complement proteins or block cellular receptors, and the secretion of proteases that inactivate complement components. Furthermore, FH enhanced zymosan-induced production of these cytokines. C. albicans Sap2 cleaved FH, diminishing its complement regulatory activity, and Sap2-treatment resulted in less detectable CR3 and CR4 on macrophages. These data show that FH enhances the activation of human macrophages when bound on C. albicans. However, the fungus can inactivate both FH and its receptors on macrophages by secreting Sap2, which may represent an additional means for C. albicans to evade the host innate immune system.

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Factors Supporting Cysteine Tolerance and Sulfite Production in Candida albicans

et al. 2013

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The amino acid cysteine has long been known to be toxic at elevated levels for bacteria, fungi, and humans. However, mechanisms of cysteine tolerance in microbes remain largely obscure. Here we show that the human pathogenic yeast Candida albicans excretes sulfite when confronted with increasing cysteine concentrations. Mutant construction and phenotypic analysis revealed that sulfite formation from cysteine in C. albicans relies on cysteine dioxygenase Cdg1, an enzyme with similar functions in humans. Environmental cysteine induced not only the expression of the CDG1 gene in C. albicans, but also the expression of SSU1, encoding a putative sulfite efflux pump. Accordingly, the deletion of SSU1 resulted in enhanced sensitivity of the fungal cells to both cysteine and sulfite. To study the regulation of sulfite/cysteine tolerance in more detail, we screened a C. albicans library of transcription factor mutants in the presence of sulfite. This approach and subsequent independent mutant analysis identified the zinc cluster transcription factor Zcf2 to govern sulfite/cysteine tolerance, as well as cysteine-inducible SSU1 and CDG1 gene expression. cdg1⌬ and ssu1⌬ mutants displayed reduced hypha formation in the presence of cysteine, indicating a possible role of the newly proposed mechanisms of cysteine tolerance and sulfite secretion in the pathogenicity of C. albicans. Moreover, cdg1⌬ mutants induced delayed mortality in a mouse model of disseminated infection. Since sulfite is toxic and a potent reducing agent, its production by C. albicans suggests diverse roles during host adaptation and pathogenicity.

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Ulrich Lermann

Secreted aspartic proteases are not required for invasion of reconstituted human epithelia by Candida albicans

Limited Role of Secreted Aspartyl Proteinases Sap1 to Sap6 in Candida albicans Virulence and Host Immune Response in Murine Hematogenously Disseminated Candidiasis

Tetracycline-Inducible Expression of Individual Secreted Aspartic Proteases in Candida albicans Allows Isoenzyme-Specific Inhibitor Screening

Secreted aspartic protease 2 of Candida albicans inactivates factor H and the macrophage factor H-receptors CR3 (CD11b/CD18) and CR4 (CD11c/CD18)

Factors Supporting Cysteine Tolerance and Sulfite Production in Candida albicans

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