HWP1 Functions in the Morphological Development of Candida albicans Downstream of EFG1, TUP1, and RBF1

The morphological plasticity of Candida albicans is an important determinant of pathogenicity, and nonfilamentous mutants are avirulent. HWP1, a hypha-specific gene, was identified in a genetic screen for developmentally regulated genes and encodes a cell surface protein of unknown function. Heterozygous and homozygous deletions of HWP1 resulted in a medium-conditional defect in hyphal development. HWP1 expression was blocked in a Deltaefg1 mutant, reduced in an Deltarbf1 mutant, and derepressed in a Deltatup1 mutant. Therefore, HWP1 functions downstream of the developmental regulators EFG1, TUP1, and RBF1. Mutation of CPH1 had no effect on HWP1 expression, suggesting that the positive regulators of hyphal development, CPH1 and EFG1, are components of separate pathways with different target genes. The expression of a second developmentally regulated gene, ECE1, was similarly regulated by EFG1. Since ECE1 is not required for hyphal development, the regulatory role of EFG1 apparently extends beyond the control of cell shape determinants. However, expression of ECE1 was not influenced by TUP1, suggesting that there may be some specificity in the regulation of morphogenic elements during hyphal development.     

The Ess1 prolyl isomerase is required for growth and morphogenetic switching in Candida albicans.

Prolyl-isomerases (PPIases) are found in all organisms and are important for the folding and activity of many proteins. Of the 13 PPIases in Saccharomyces cerevisiae only Ess1, a parvulin-class PPIase, is essential for growth. Ess1 is required to complete mitosis, and Ess1 and its mammalian homolog, Pin1, interact directly with RNA polymerase II. Here, we isolate the ESS1 gene from the pathogenic fungus Candida albicans and show that it is functionally homologous to the S. cerevisiae ESS1. We generate conditional-lethal (ts) alleles of C. albicans ESS1 and use these mutations to demonstrate that ESS1 is essential for growth in C. albicans. We also show that reducing the dosage or activity of ESS1 blocks morphogenetic switching from the yeast to the hyphal and pseudohyphal forms under certain conditions. Analysis of double mutants of ESS1 and TUP1 or CPH1, two genes known to be involved in morphogenetic switching, suggests that ESS1 functions in the same pathway as CPH1 and upstream of or in parallel to TUP1. Given that switching is important for virulence of C. albicans, inhibitors of Ess1 might be useful as antifungal agents.     

Transcriptional profiling of the early stages of germination in Candida albicans by real-time RT-PCR

By using real-time RT-PCR, we profiled the expression of CGR1, CaMSI3, EFG1, NRG1, and TUP1 in Candida albicans strains JCM9061 and CAI4 under several conditions, including induction of morphological transition, heat shock, and treatment with calcium inhibitors. Expression of CaMSI3 changed under these growth conditions except during heat shock. CGR1 expression increased during the early stages of hyphal growth in JCM9061, while expression was strain-dependent during heat shock. Both EFG1 and NRG1 were similarly expressed under hypha-inducing conditions and heat shock. Expression of TUP1 was slightly different from the expression of EFG1 or NRG1.     

荧光定量PCR检测不同状态下白念珠菌CPH1、EFG1基因的表达

目的 检测转录因子CPH1和EFG1基因在游离态及生物膜态呼吸道白念珠菌临床分离株的表达差异,探讨其在生物膜形成过程中的作用.方法 选取10株白念珠菌临床分离株,分别提取游离态及生物膜态白念珠菌总RNA,用荧光定量PCR的方法测定两种状态下CPH1和EFG1基因的表达,用△△Ct的方法计算其相对表达量.结果 白念珠菌生物膜态转录因子EFG1的表达是游离态表达水平的1.42 ～7.14倍,差异有显著意义(P＜0.05),而转录因子CPH1的表达有8株菌生物膜态较游离态增高,1株降低,1株无明显变化,差异无显著意义(P＞0.05).结论 白念珠临床株转录因子CPH1和EFG1参与生物膜形成的调控,并需在体内实验中进一步研究.     

Candida albicans MTLalpha tup1Delta mutants can reversibly switch to mating-competent, filamentous growth forms

Candida albicans strains that are homozygous at the mating type locus (MTLa or MTLalpha) 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 tup1Delta mutants of the MTLalpha 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(-4). Deletion of TUP1 resulted in deregulated expression of phase-specific 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 tup1Delta 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 MTLalpha cells affects cellular morphology and gene expression patterns, the mutants can still reversibly switch between mating-competent and -incompetent cell types and mate with a partner of the opposite mating type.     

白色念珠菌CaBEM1基因的克隆及其在酿酒酵母丝状生长中的作用

白色念珠菌在不同的生长条件下能发生显著的形态变化 ,这种变化由多种调控因子与信号转导途径所调控。酿酒酵母的G1期细胞周期蛋白Cln1和Cln2参与其形态发生 ,cln1/cln1、cln2 /cln2双缺失株不能形成菌丝。把白色念珠菌基因组文库导入cln1/cln1、cln2 /cln2缺失株 ,筛选能校正菌丝形成缺陷的基因 ,分离得到白色念珠菌中的CaBEM 1基因。从核苷酸序列推导 ,CaBEM1编码一种 6 32个氨基酸的蛋白质 ,氨基酸序列分析表明在其N端有 2个SH3结构域 ,中部有 1个PX结构域 ,C端有 1个PB1结构域 ;CaBem1的氨基酸序列与酿酒酵母的Bem1同源性达 38% ,与裂殖酵母的Scd2同源性达 32 %。在酿酒酵母的缺失株中异源表达CaBEM1,能够部分校正它们在氮源缺乏条件下的菌丝形成缺陷。这种菌丝形成的校正作用绕过MAPK途径和cAMP/PKA途径 ,表明CaBem1在菌丝形成中的作用可能位于这两条信号转导途径的下游     

Many of the genes required for mating in Saccharomyces cerevisiae are also required for mating in Candida albicans

Candida albicans is the single, most frequently isolated human fungal pathogen. As with most fungal pathogens, the factors which contribute to pathogenesis in C. albicans are not known, despite more than a decade of molecular genetic analysis. Candida albicans was thought to be asexual until the discovery of the MTL loci homologous to the mating type (MAT) loci in Saccharomyces cerevisiae led to the demonstration that mating is possible. Using Candida albicans mutants in genes likely to be involved in mating, we analysed the process to determine its similarity to mating in Saccharomyces cerevisiae. We examined disruptions of three of the genes in the MAPK pathway which is involved in filamentous growth in both S. cerevisiae and C. albicans and is known to control pheromone response in the former fungus. Disruptions in HST7 and CPH1 blocked mating in both MTLa and MTL(alpha) strains, whereas disruptions in STE20 had no effect. A disruption in KEX2, a gene involved in processing the S. cerevisiae pheromone Mf(alpha), prevented mating in MTL(alpha) but not MTLa cells, whereas a disruption in HST6, the orthologue of the STE6 gene which encodes an ABC transporter responsible for secretion of the Mfa pheromone, prevented mating in MTLa but not in MTL(alpha) cells. Disruption of two cell wall genes, ALS1 and INT1, had no effect on mating, even though ALS1 was identified by similarity to the S. cerevisiae sexual agglutinin, SAG1. The results reveal that these two diverged yeasts show a surprising similarity in their mating processes.