The genetic analysis of Candida albicans, the major fungal pathogen of humans, is hampered by its diploid genome, the absence of a normal sexual cycle, and a nonstandard codon usage. Although effective methods to study gene function have been developed in the past years, systems to control gene expression in C. albicans are limited. We have established a system that allows induction of gene expression in C. albicans by the addition of tetracycline (
Candida albicans strains that are homozygous at the mating type locus (MTL a or MTLα) can spontaneously switch at a low frequency from the normal yeast cell morphology (white) to an elongated cell type (opaque), which is the mating-competent form of the fungus. The ability to switch reversibly between these two cell types also contributes to the pathogenicity of C. albicans, as white and opaque cells are differently adapted to specific host niches. We found that in strain WO-1, a strain in which genomic alterations have occurred, but not in other tested strains, switching from the white to the opaque phase can also be induced by environmental conditions. Transient incubation of white cells under anaerobic conditions programmed the cells to switch en masse to the opaque phase. The anaerobic induction of white–opaque switching was controlled by the transcription factor CZF1, which in heterozygous MTL a/α cells regulates filamentous growth under embedded, hypoxic conditions. Intriguingly, passage of white cells of strain WO-1 through the mouse intestine, a host niche in which the cells are likely to be exposed to anaerobic conditions, resulted in a strongly increased frequency of switching to the opaque phase. These results demonstrate that white–opaque switching is not only a spontaneous process but, in combination with genomic alterations, can also be induced by environmental signals, suggesting that switching and mating of C. albicans may occur with high efficiency in appropriate niches within its human host.
SummaryCandida albicans strains that are homozygous at the mating type locus ( MTLa or MTL α α α α ) can spontaneously switch from the normal round-to-oval yeast cell morphology to an elongated, so-called opaque cell form that can mate with opaque cells of the opposite mating type. In response to environmental signals, C. albicans also undergoes a transition from yeast to filamentous growth, which is negatively regulated by the general repressor Tup1p. Therefore, C. albicans mutants in which the TUP1 gene is inactivated grow constitutively in the filamentous form. We found that tup1 ∆ ∆ ∆ ∆ mutants of the MTL α α α α strain WO-1 are still able to undergo phenotypic switching. Although the mutants had lost the capacity to grow in the normal yeast (white) or opaque forms, they could still reversibly switch between four different cell and colony phenotypes (designated as fuzzy, frizzy, wrinkled and smooth) at a frequency of about 10 − − − − 3 to 10. Deletion of TUP1 resulted in deregulated expression of phasespecific genes. While the white-specific WH11 gene was constitutively expressed in all four cell types, the opaque-specific SAP1 gene remained repressed and the opaque-specific OP4 gene was weakly induced in all phase variants. In spite of the loss of white-and opaque-specific cell morphology and gene expression, the tup1 ∆ ∆ ∆ ∆ mutants retained an important characteristic of their wild-type parent, the ability to switch to a mating-competent form. The three filamentous phase variants (fuzzy, frizzy and wrinkled) all were able to mate and produce recombinant progeny with opaque cells of an MTLa strain at frequencies that were somewhat lower than those of normal opaque cells, whereas the smooth phase variant was unable to do so. Therefore, although deletion of TUP1 in C. albicans MTL α α α α cells affects cellular morphology and gene expression patterns, the mutants can still reversibly switch between mating-competent andincompetent cell types and mate with a partner of the opposite mating type.
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