Table 1.
Established and putative virulence factors in Blastomyces.
| Gene | Function | Impact on virulence |
|---|---|---|
| BAD1 (Blastomyces adhesin-1; formerly WI-1) | Promotes adhesion of yeast to host cells and immune evasion through inhibition of cytokines (TNF-α, IL-17 and INF-γ) and CD4+ T lymphocyte activation. BAD1 is the most upregulated gene in B. dermatitidis during pulmonary infection. | bad1∆ yeast are attenuated during murine pulmonary infection. When injected subcutaneously in mice, bad1∆ yeast induce sterilizing immunity against lethal pulmonary infection. |
| DPPIVA (dipeptidyl-peptidase) | Serine protease that degrades GM-CSF and impedes recruitment of innate immune cells | DPPIVA knockdown strains have reduced survival in the presence of activated innate immune cells and attenuated virulence in murine pulmonary infection |
| Cysteine synthase | Involved in the biosynthesis of L-cysteine. |
Important for transition to yeast and maintenance of the yeast-phase growth. |
| CDG (cysteine dioxygenase) | Catabolic enzyme that catabolizes L-cysteine to L-cysteine sulfonic acid, which can further be broken down to sulfite. | In C. albicans deletion of CDG1 attenuates virulence during murine infection. Arthroderma benhamiae cdg∆ mutants have reduced growth on hair and nails. Potential to contribute to growth of Blastomyces on keratinized structures. |
| SSU1 | Transmembrane sulfite efflux pump. Sulfite is toxic to cells and is secreted via the SSU1 efflux pump. | Arthroderma benhamiae ssu1∆ mutants have impaired growth on hair and nails. Potential to contribute to growth of Blastomyces on keratinized structures. |
| PRA1, ZRT1, ZRT2 | PRA1 encodes a zincophore. ZRT1 and ZRT2 encode high and low affinity zinc transporters, respectively. These genes are upregulated in yeast during pulmonary infection. | C. albicans pra1∆ mutants have decreased ability to lyse endothelial cells under zinc-poor conditions. Blastomyces pra1∆ and zrt1∆ mutants are impaired in establishing infection in mice. |
| NIC1 | Transports nickel which is used as a cofactor for urease (Urea → Ammonia + CO2). |
In C. neoformans, deletion of NIC1 results in decreased ability of yeast cells to enter CNS. Potential to contribute to Blastomyces virulence or dissemination. |
| DRK1 | Essential for the temperature-dependent conversion to yeast at 37oC. | DRK1 silenced strains of B. dermatitidis and H. capsulatum are avirulent in a murine model of pulmonary infection. These strains also exhibit defects in cell wall integrity and fail to upregulate yeast-phase specific virulence factors (BAD1, CBP1). T. marneffei drkA∆ mutants have impaired conidial germination in macrophages. |
| RYP1-4 (Required for yeast phase 1-4) | Conserved transcription factors in the dimorphic fungi that are essential for the morphologic switch to yeast at 37oC | RNAi-silenced RYP1-4 H. capsulatum strains fail to convert to yeast at 37oC and are unable to upregulate yeast-phase specific virulence genes (CBP1, YPS3). |