Shelley Lane scite author profile

The transcription factor Flo8 is essential for filamentous growth in Saccharomyces cerevisiae and is regulated under the cAMP/protein kinase A (PKA) pathway. To determine whether a similar pathway/regulation exists in Candida albicans, we have cloned C. albicans FLO8 by its ability to complement S. cerevisiae flo8. Deleting FLO8 in C. albicans blocked hyphal development and hypha-specific gene expression. The flo8/flo8 mutant is avirulent in a mouse model of systemic infection. Genome-wide transcription profiling of efg1/efg1 and flo8/flo8 using a C. albicans DNA microarray suggests that Flo8 controls subsets of Efg1-regulated genes. Most of these genes are hypha specific, including HGC1 and IHD1. We also show that Flo8 interacts with Efg1 in yeast and hyphal cells by in vivo immunoprecipitation. Similar to efg1/efg1, flo8/flo8 and cdc35/cdc35 show enhanced hyphal growth under an embedded growth condition. Our results suggest that Flo8 may function downstream of the cAMP/PKA pathway, and together with Efg1, regulates the expression of hypha-specific genes and genes that are important for the virulence of C. albicans.

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DNA Array Studies Demonstrate Convergent Regulation of Virulence Factors by Cph1, Cph2, and Efg1 in Candida albicans

Lane¹,

Birse²,

Zhou³

et al. 2001

Journal of Biological Chemistry

208

169

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Candida albicans, normally a human commensal, can cause fatal systemic infections under certain circumstances. Its unique ability to switch from yeast to hyphal growth in response to various environmental signals is inherent to its pathogenicity. Filamentation is regulated by multiple pathways including a Cph1-mediated mitogen-activated protein kinase pathway, an Efg1-mediated cAMP/PKA pathway, and a Cph2 pathway. To gain a general picture of how these various signaling pathways regulate differential gene expression during filamentation, we have constructed a partial C. albicans DNA array of 7,000 genes and used it to study the gene expression profiles using various mutants and growth conditions. By combining this novel technology with a new liquid medium in which cph1/cph1 is defective in filamentation, previously identified differentially expressed genes (ECE1, HWP1, HYR1, RBT1, SAPs5-6, and RBT4) are found to be regulated by all three pathways. In addition, two novel genes, DDR48 and YPL184, have been found to be differentially regulated during hyphal development and by all three pathways. This suggests that distinct filamentation signaling pathways converge to regulate a common set of differentially expressed genes. As one of the mechanisms for the observed convergence, we find that the transcription of a key regulator, TEC1, is regulated by Efg1 and Cph2. Importantly, most of the genes regulated by multiple filamentation pathways encode known virulence factors. Perhaps, C. albicans utilizes converging pathways to regulate its vital virulence factors to ensure its survival and pathogenicity in various host environments.

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Regulation of Mating and Filamentation Genes by Two Distinct Ste12 Complexes in Saccharomyces cerevisiae

Chou

Lane

Liu

2006

Molecular and Cellular Biology

120

164

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A conserved mitogen‐activated protein kinase pathway is required for mating in Candida albicans

Chen

Lane

et al. 2002

Molecular Microbiology

142

143

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SummaryCandida albicans had been thought to lack a mating process until the recent discovery of a mating typelike locus and mating between MTLa and MTL a a a a strains. To elucidate the molecular mechanisms that regulate mating in C. albicans , we examined the function of Cph1 and its upstream mitogen-activated protein (MAP) kinase pathway in mating, as they are homologues of the pheromone-responsive MAP kinase pathway in Saccharomyces cerevisiae . We found that overexpressing CPH1 in MTLa , but not in MTLa/ a a a a strains, induced the transcription of orthologues of S. cerevisiae pheromone-induced genes and also increased mating efficiency. Furthermore, cph1 and hst7 mutants were completely defective in mating, and cst20 and cek1 mutants showed reduced mating efficiency, as in S. cerevisiae . The partial mating defect in cek1 results from the presence of a functionally redundant MAP kinase, Cek2. CEK2 complemented the mating defect of a fus3 kss1 mutant of S. cerevisiae and was expressed only in MTLa or MTL a a a a , but not in MTLa/ a a a a cell types. Moreover, a cek1 cek2 double mutant was completely defective in mating. Our data suggest that the conserved MAP kinase pathway regulates mating in C. albicans . We also observed that C. albicans mating efficiency was greatly affected by medium composition, indicating the potential involvement of nutrient-sensing pathways in mating in addition to the MAP kinase pathway.

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Hyphal Chain Formation in Candida albicans: Cdc28-Hgc1 Phosphorylation of Efg1 Represses Cell Separation Genes

Wang

Raniga

Lane

et al. 2009

Molecular and Cellular Biology

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Cell chain formation is a characteristic of filamentous growth in fungi. How it is regulated developmentally in multimorphic fungi is not known. In Candida albicans, degradation of septa during yeast growth is accomplished by enzymes encoded by Ace2 activated genes expressed in G 1 . We found that phosphorylation of a conserved developmental regulator, Efg1, by the cyclin-dependent kinase Cdc28-Hgc1 (hypha-specific G 1 cyclin) downregulates Ace2 target genes during hyphal growth in G 1 . A strain containing a threonine-to-alanine mutation at a conserved Cdc28 phosphorylation site of Efg1 displays a loss of hypha-specific repression of these genes and impaired cell chain formation, mimicking the hgc1 deletion, whereas a strain containing the threonine to aspartic acid mutation leads to a downregulation of these genes and cell chain formation during yeast growth. Furthermore, the phosphomimic mutation can suppress cell separation defects of hgc1. Efg1 also displays preferential association with Ace2 target gene promoters during hyphal growth. We show that convergent regulation of Ace2 and Efg1 defines the transcriptional program of cell chain formation.

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Shelley Lane

The Flo8 Transcription Factor Is Essential for Hyphal Development and Virulence inCandida albicans

DNA Array Studies Demonstrate Convergent Regulation of Virulence Factors by Cph1, Cph2, and Efg1 in Candida albicans

Regulation of Mating and Filamentation Genes by Two Distinct Ste12 Complexes in Saccharomyces cerevisiae

A conserved mitogen‐activated protein kinase pathway is required for mating in Candida albicans

Hyphal Chain Formation in Candida albicans: Cdc28-Hgc1 Phosphorylation of Efg1 Represses Cell Separation Genes

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