Project description:The cyclic AMP-protein kinase A pathway has a central role in the biology of Candida albicans, a prominent fungal pathogen of humans. The two catalytic subunits for cyclic AMP-dependent protein kinase, Tpk1 (orf19.4892) and Tpk2 (orf19.2277), have divergent roles, and most studies indicate a more pronounced role for Tpk2. Here we dissect two Tpk1-responsive properties: adherence and cell wall integrity. Homozygous tpk1/tpk1 mutants are hyperadherent, and a Tpk1 defect enables biofilm formation in the absence of Bcr1, a central transcriptional regulator of biofilm adhesins. Microarray analysis revealed an enrichment for cell wall and surface functions among Tpk1-repressed genes, and overexpression of individual target genes indicates that cell surface proteins Als1, Als2, Als4, Csh1, and Csp37 contribute to Tpk1-regulated adherence. Tpk1 is also required for cell wall integrity, but has no role in the cell wall integrity gene expression response. Interestingly, increased expression of the adhesin gene ALS2 conferred a cell wall defect, as manifested in hypersensitivity to the cell wall inhibitor caspofungin and a shallow cell wall structure. Our findings indicate that Tpk1 has a central role in C. albicans cell wall properties that is exerted through repression of select cell surface protein genes.

Project description:The cyclic AMP-protein kinase A pathway has a central role in the biology of Candida albicans, a prominent fungal pathogen of humans. The two catalytic subunits for cyclic AMP-dependent protein kinase, Tpk1 (orf19.4892) and Tpk2 (orf19.2277), have divergent roles, and most studies indicate a more pronounced role for Tpk2. Here we dissect two Tpk1-responsive properties: adherence and cell wall integrity. Homozygous tpk1/tpk1 mutants are hyperadherent, and a Tpk1 defect enables biofilm formation in the absence of Bcr1, a central transcriptional regulator of biofilm adhesins. Microarray analysis revealed an enrichment for cell wall and surface functions among Tpk1-repressed genes, and overexpression of individual target genes indicates that cell surface proteins Als1, Als2, Als4, Csh1, and Csp37 contribute to Tpk1-regulated adherence. Tpk1 is also required for cell wall integrity, but has no role in the cell wall integrity gene expression response. Interestingly, increased expression of the adhesin gene ALS2 conferred a cell wall defect, as manifested in hypersensitivity to the cell wall inhibitor caspofungin and a shallow cell wall structure. Our findings indicate that Tpk1 has a central role in C. albicans cell wall properties that is exerted through repression of select cell surface protein genes. Two-color microarrays using a closed-loop experimental design to determine the effects of a M-bM-^HM-^Ftpk1 deletion in the absence or presence of the antifungal Caspofungin (CF)

Project description:The protein kinase Tor1 regulates adhesin expression in Candida albicans

Project description:The conserved cAMP-dependent protein kinase (PKA) holoenzyme is composed of two catalytic and two regulatory subunits. It plays critical roles in the regulation of many biological processes in eukaryotic organisms. In the human fungal pathogen Candida albicans, the PKA kinase has been extensively investigated for its importance in the regulation of morphological transitions and virulence. It has been long thought that the PKA catalytic subunit is essential for cell viability in C. albicans. Paradoxically, the single adenylyl cyclase-encoding gene, CRY1, which is required for the production of cAMP in C. albicans, is not essential for cell growth. In this study, we successfully generated a null double mutant of TPK1 and TPK2 (tpk2/tpk2 tpk1/tpk1 or t2t1), which encode two isoforms of the PKA catalytic subunit in C. albicans. We reevaluated the roles of the PKA catalytic subunit in cell growth and phenotypic transitions. Inactivation of the PKA catalytic subunit by deletion of both TPK1 and TPK2 blocked filamentation and dramatically attenuated the ability of white-to-opaque switching, but promoted sexual mating in C. albicans. Tpk2 plays a major role in these regulations, while Tpk1 generally functions as a negative regulator in morphological transitions and sexual mating. A comparative transcriptomic analysis demonstrated that the t2t1 and cyr1/cyr1 mutants exhibited similar global gene expression profiles. Compared to the WT strain, the general transcriptional activity and expression of genes involved in metabolism, translation, biosynthesis, adhesion and filamentation are significantly decreased in both the t2t1 and cyr1/cyr1 mutants. And a portion of stress-response and cell wall-related genes were upregulated in these mutants, which is consistent with their increased ability of anti-stresses. To further explore the global regulatory role of the PKA kinase, we performed quantitative phosphoproteomics analysis. Combining with bioinformatics analyses, we identified 181 potential PKA phosphorylation targets, which represent 148 unique proteins involved in a wide spectrum of biological processes. Cell wall and membrane-related proteins (e.g. Ecm3, Bni1, and Smi1) were enriched in Tpk1-specific targets, while Tpk2-specific substrates include transporters, filamentation and cytoskeleton-related proteins (e.g. Smf3, Sep7, and Mhp1). There were also many Tpk1 and Tpk2 overlapped and coordinately regulated-substrates. Our study clarifies the essentiality of the PKA catalytic subunit and shed new insights into the global regulatory features of the cAMP/PKA pathway in C. ablicans. The t2t1 null mutant generated in this study would also be a new resource for the field to study this important pathway.

Project description:Candida albicans Cell Wall Mutants Whole Genome Sequencing

Project description:Cas5, a transcriptional regulator of Candida albicans, has profound effects on the biosynthesis of cell wall proteins through regulating Candida albicans cell wall remodeling

Project description:Human serum amyloid A (SAA) is a major acute phase protein and shows a massive increase of concentration in plasma during inflammation. In the current study, we report that recombinant human and mouse SAA1 (rhSAA1 and rmSAA1) have a potent antifungal activity against the major fungal pathogen Candida albicans. rhSAA1 binds to the cell surface of C. albicans and promotes cell aggregation. At high concentrations, rhSAA1 disrupts the membrane integrity and induces rapid cell death of C. albicans. Further investigation demonstrates that rhSAA1 targets on the cell wall adhesin Als3 of C. albicans. Inactivation of ALS3 in C. albicans leads to remarkably decreased cell aggregation and death upon rhSAA1 treatment, implying that Als3 plays a critical role in SAA1 sensing. Moreover, deletion of the ALS3 transcriptional regulators such as AHR1, BCR1, and EFG1 in C. albicans results in a similar effect on cell responses to that of the als3/als3 mutant upon rhSAA1 treatment. Global gene expression profiling analysis indicates that rhSAA1 has a remarkable impact on the expression of cell wall- and metabolism-related genes in C. albicans. Our finding of the antifungal activity of rhSAA1 against C. albicans expands the function of this protein and would provide new insights into the understanding of the host-Candida interaction during infections.

Project description:Disruption of STE18 gene which encodes a γ subunit of a heterotrimeric G protein in Candida albicans is shown to block pheromone-induced gene expression. Ectopic expression of either the Gα or the Gβ subunit of the heterotrimeric G protein is able to restore pheromone-induced gene expression.

Project description:CaGAL102 is a sequence homolog of Rmlb. In Candida knock out of this gene causes abnormal hyphal morphogenesis and increased sensitivity to cell wall damaging agents. The knock out strain is also avirulent in mouse model of systemic infection. To get a larger insight into the function of the protein product of this gene we carried out global transcription analysis through micro array experiment. The gene is expressed under normal growth conditions and the knock out causes the cells to become hyphal under these conditions. Many of the cell wall proteins were upregulated recapitulating the cell morphology. Keywords: Candida albicans, Gene knockout, genome wide transcription profiling study

Project description:Candida albicans