白念珠菌MAPK信号通路研究进展

白念珠菌是人类最常见的条件致病菌。促分裂素原活化蛋白激酶（MAPK链）是真核生物信号传递网络中的重要途径之一,在基因表达调控和细胞质功能活动中发挥关键作用。在白念珠菌中主要有4条MAPK途径：Mkcl途径、Cekl途径、Cek2途径和HOG途径。其中HOG途径在白念珠菌MAPK信号通路起着重要的作用。对于白念珠菌MAPK信号通路的作用及相关调控机制的了解,可以为寻找新的药物作用靶点,治疗念珠菌病提供帮助。     

Gpr1, a putative G-protein-coupled receptor, regulates morphogenesis and hypha formation in the pathogenic fungus Candida albicans

In response to various extracellular signals, the morphology of the human fungal pathogen Candida albicans switches from yeast to hypha form. Here, we report that GPR1 encoding a putative G-protein-coupled receptor and GPA2 encoding a Galpha subunit are required for hypha formation and morphogenesis in C. albicans. Mutants lacking Gpr1 (gpr1/gpr1) or Gpa2 (gpa2/gpa2) are defective in hypha formation and morphogenesis on solid hypha-inducing media. These phenotypic defects in solid cultures are suppressed by exogenously added dibutyryl-cyclic AMP (dibutyryl-cAMP). Biochemical studies also reveal that GPR1 and GPA2 are required for a glucose-dependent increase in cellular cAMP. An epistasis analysis indicates that Gpr1 functions upstream of Gpa2 in the same signaling pathway, and a two-hybrid assay reveals that the carboxyl-terminal tail of Gpr1 interacts with Gpa2. Moreover, expression levels of HWP1 and ECE1, which are cAMP-dependent hypha-specific genes, are reduced in both mutant strains. These findings support a model that Gpr1, as well as Gpa2, regulates hypha formation and morphogenesis in a cAMP-dependent manner. In contrast, GPR1 and GPA2 are not required for hypha formation in liquid fetal bovine serum (FBS) medium. Furthermore, the gpr1 and the gpa2 mutant strains are fully virulent in a mouse infection. These findings suggest that Gpr1 and Gpa2 are involved in the glucose-sensing machinery that regulates morphogenesis and hypha formation in solid media via a cAMP-dependent mechanism, but they are not required for hypha formation in liquid medium or during invasive candidiasis.     

A CUG codon adapted two-hybrid system for the pathogenic fungus Candida albicans

The genetics of the most common human pathogenic fungus Candida albicans has several unique characteristics. Most notably, C. albicans does not follow the universal genetic code, by translating the CUG codon into serine instead of leucine. Consequently, the use of Saccharomyces cerevisiae as a host for yeast two-hybrid experiments with C. albicans proteins is limited due to erroneous translation caused by the aberrant codon usage of C. albicans. To circumvent the need for heterologous expression and codon optimalization of C. albicans genes we constructed a two-hybrid system with C. albicans itself as the host with components that are compatible for use in this organism. The functionality of this two-hybrid system was shown by successful interaction assays with the protein pairs Kis1–Snf4 and Ino4-Ino2. We further confirmed interactions between components of the filamentation/mating MAP kinase pathway, including the unsuspected interaction between the MAP kinases Cek2 and Cek1. We conclude that this system can be used to enhance our knowledge of protein–protein interactions in C. albicans.     

Purification and characterization of lysophospholipase-transacylase of pathogenic fungus Candida albicans

A lysophospholipase-transacylase was purified to homogeneity from the culture broth of Candida albicans by ammonium sulfate precipitation and chromatographs on DEAE-cellulose, Ultrogel AcA-44, first Mono Q, hydroxyapatite, TSKgel-3000 and second Mono Q columns. The purified protein was a single band (Mr 41,000) as inferred by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. It had a specific activity of 78 mumol/min per mg protein for fatty acid release and 320 mumol/min per mg protein for phosphatidylcholine formation. Fatty acid release obeyed Michaelis-Menten kinetics and the apparent Km was 76 microM of 1-palmitoyl-sn-glycero-3-phosphatidylcholine, but Lineweaver-Burk plots of transacylase activity was parabolic. The ratio of hydrolase to transacylase activity of the purified enzyme was varied depending upon the concentration of lysophosphatidylcholine. Transacylation was prominent at high concentration of substrate and the ratio of hydrolase to transacylase was 0.24. Low concentration of palmitoylcarnitine (50 microM) inhibited markedly phosphatidylcholine formation but stimulated fatty acid release. The degree of esterification of 1-acyllysophosphatidylcholine was altered with mixtures of different molecular species of substrate, demonstrating acyl chain selectivity in the transfer process. These results suggest that C. albicans lysophospholipase-transacylase is different from the corresponding mammalian enzymes in enzymatic properties.     

MAPKKK-independent regulation of the Hog1 stress-activated protein kinase in Candida albicans

The Hog1 stress-activated protein kinase regulates both stress responses and morphogenesis in Candida albicans and is essential for the virulence of this major human pathogen. Stress-induced Hog1 phosphorylation is regulated by the upstream MAPKK, Pbs2, which in turn is regulated by the MAPKKK, Ssk2. Here, we have investigated the role of phosphorylation of Hog1 and Pbs2 in Hog1-mediated processes in C. albicans. Mutation of the consensus regulatory phosphorylation sites of Hog1 (Thr-174/Tyr-176) and Pbs2 (Ser-355/Thr-359), to nonphosphorylatable residues, resulted in strains that phenocopied hog1Δ and pbs2Δ cells. Consistent with this, stress-induced phosphorylation of Hog1 was abolished in cells expressing nonphosphorylatable Pbs2 (Pbs2(AA)). However, mutation of the consensus sites of Pbs2 to phosphomimetic residues (Pbs2(DD)) failed to constitutively activate Hog1. Furthermore, Ssk2-independent stress-induced Hog1 activation was observed in Pbs2(DD) cells. Collectively, these data reveal a previously uncharacterized MAPKKK-independent mechanism of Hog1 activation in response to stress. Although Pbs2(DD) cells did not exhibit high basal levels of Hog1 phosphorylation, overexpression of an N-terminal truncated form of Ssk2 did result in constitutive Hog1 activation, which was further increased upon stress. Significantly, both Pbs2(AA) and Pbs2(DD) cells displayed impaired stress resistance and attenuated virulence in a mouse model of disease, whereas only Pbs2(AA) cells exhibited the morphological defects associated with loss of Hog1 function. This indicates that Hog1 mediates C. albicans virulence by conferring stress resistance rather than regulating morphogenesis.     

The mitogen-activated protein kinase homolog HOG1 gene controls glycerol accumulation in the pathogenic fungus Candida albicans.

The Candida albicans HOG1 gene (HOG1CA) was cloned by functional complementation of the osmosensitive phenotype associated with Saccharomyces cerevisiae hog1 delta mutants. HOG1CA codes for a 377-amino-acid protein, 78% identical to S. cerevisiae Hog1p. A C. albicans hog1 null mutant was found to be sensitive to osmotic stress and failed to accumulate glycerol on high-osmolarity media.     

MAPK转导通路在白念珠菌菌体抗氧化应激中的作用

目的探讨MAPK通路在念珠菌抗氧化应激中的作用。方法采用不同浓度过氧化氢刺激白念珠菌,通过流式细胞仪检测念珠菌的凋亡率,并计算其增殖指数;通过实时荧光定量PCR检测MAPK通路中8种基因的表达水平。结果随着过氧化氢的刺激浓度增高,白念珠菌的凋亡率逐渐升高,而其增殖指数下降。在不同的过氧化氢浓度刺激下,MAPK通路中各基因表达水平基本一致,即在较低的过氧化氢浓度刺激下,各基因表达水平均有一定的上升,而随着浓度增高,在高浓度的过氧化氢刺激下,各基因表达水平趋于稳定。结论在低浓度的过氧化氢刺激下,白念珠菌的凋亡率虽有所上升,但其相应的增殖指数也有所上升,即生长加快。这可能与其MAPK通路中各基因表达增强有一定的关系。     

番茄早疫病菌Hog1 MAPK同源基因AsHog1的表达特性及其与抗药性的关联性

根据几种丝状真菌Hog1 MAPK(丝裂原活化蛋白激酶)的保守氨基酸序列设计简并引物,从番茄早疫病菌Alternaria solani中扩增出MAPK同源基因的部分片段,命名为AsHog1。用Real-timeRT-PCR技术比较了AsHog1在异菌脲敏感菌株和抗性菌株中的表达特性。结果表明,敏感菌株QX21经0.8mol/L NaCl和2mg/L异菌脲处理后,AsHog1相对表达量持续升高,在12h达到最大值,分别为对照的4.12倍和25.23倍,16h略有降低;而室内诱导抗性突变体和田间抗性菌株经相同处理后的AsHog1表达量变化不大,且明显低于敏感菌株。由此推测,番茄早疫病菌AsHog1基因表达特征与其对异菌脲抗药性相关。研究结果为深入研究病原菌对异菌脲抗药性的分子机理、建立抗药性分子监测技术、延缓和防止抗药性的产生及发展奠定了一定的理论基础。     

Activation of the cAMP cascade by steroidogenic hormones and glucagon in the pathogenic fungus Candida albicans

Incubation of Candida albicans yeast cells with human luteinizing hormone (hLH), human chorionic gonadotrophin (hCG) or glucagon produced a significant rise in cAMP total levels. The effect of these hormones in permeabilized cells of the fungus produced a 2-3 fold increase in the Mg2+, GTP-dependent adenylyl cyclase activity as well as full activation of the cAMP-dependent protein kinase (PKA) activity. These results indicate that the interaction of the mammalian hormones with the fungus triggered the cAMP activation cascade in a similar way to that found in higher eukaryotic organisms.     

番茄早疫病菌Hogl MAPK同源基因AsHogl的表达特性及其与抗药性的关联性

根据几种丝状真菌Hogl MAPK(丝裂原活化蛋白激酶)的保守氨基酸序列设计简并引物,从番茄早疫病菌Alternaria solani中扩增出MAPK同源基因的部分片段,命名为AsHogl.用Real-time RT-PCR技术比较了AsHogl在异菌脲敏感菌株和抗性菌株中的表达特性.结果表明,敏感菌株QX21经0.8mol/L NaCl和2mg/L异菌脲处理后,AsHogl相对表达量持续升高,在12h达到最大值,分别为对照的4.12倍和25.23倍,16h略有降低;而室内诱导抗性突变体和田间抗性菌株经相同处理后的AsHogl表达量变化不大,且明显低于敏感菌株.由此推测,番茄早疫病菌AsHogl基因表达特征与其对异菌脲抗药性相关.研究结果为深入研究病原菌对异菌脲抗药性的分子机理、建立抗药性分子监测技术、延缓和防止抗药性的产生及发展奠定了一定的理论基础.     

A novel suppressor tRNA from the dimorphic fungus Candida albicans

Unfractionated tRNAs from a number of prokaryotes and eukaryotes were examined for their ability to promote termination codon readthrough in a cell-free system isolated from Saccharomyces cerevisiae. tRNA from the dimorphic fungus Candida albicans was found to have significant UGA and UAG readthrough activity and this activity was present in tRNA extracted from both the yeast and the hyphal phase of the fungus. Unusually the efficiency of readthrough activity in vitro was not affected by the [psi] determinant. C. albicans tRNA was fractionated by one-dimensional and two-dimensional gel electrophoresis and both readthrough activities appeared to be associated with a single species of tRNA.     

Virulence genes in the pathogenic yeast Candida albicans

In recent years, the incidence of fungal infections has been rising all over the world. Although the amount of research in the field of pathogenic fungi has also increased, there is still a need for the identification of reliable determinants of virulence. In this review, we focus on identified Candida albicans genes whose deletant strains have been tested in experimental virulence assays. We discuss the putative relationship of these genes to virulence and also outline the use of new different systems to examine the precise effect in virulence of different genes.     

Roles of three histidine kinase genes in hyphal development and virulence of the pathogenic fungus Candida albicans

The pathogenic fungus Candida albicans harbors three histidine kinase genes called CaSLN1, CaNIK1, and CaHK1. The disruption of any one of these three genes impaired the hyphal formation and attenuated the virulence of C. albicans in a mouse systemic candidiasis model. The effects of the disruption on hyphal formation and virulence were most severe in the cahk1Delta null mutants. Although the double disruption of CaSLN1 and CaNIK1 was impossible, further deletion of CaSLN1 or CaNIK1 in the cahk1Delta null mutants partially restored the serum-induced hypha-forming ability and virulence. When incubated with radiolabelled ATP, the recombinant CaSln1 and CaNik1 proteins, which contained their own kinase and response regulator domains, were autophosphorylated, whereas CaHk1p was not. These results imply that in C. albicans, CaSLN1 and CaNIK1 function upstream of CaHK1 but are in distinct signal transmission pathways.     

Role of the mitogen-activated protein kinase Hog1p in morphogenesis and virulence of Candida albicans

The relevance of the mitogen-activated protein (MAP) kinase Hog1p in Candida albicans was addressed through the characterization of C. albicans strains without a functional HOG1 gene. Analysis of the phenotype of hog1 mutants under osmostressing conditions revealed that this mutant displays a set of morphological alterations as the result of a failure to complete the final stages of cytokinesis, with parallel defects in the budding pattern. Even under permissive conditions, hog1 mutants displayed a different susceptibility to some compounds such as nikkomycin Z or Congo red, which interfere with cell wall functionality. In addition, the hog1 mutant displayed a colony morphology different from that of the wild-type strain on some media which promote morphological transitions in C. albicans. We show that C. albicans hog1 mutants are derepressed in the serum-induced hyphal formation and, consistently with this behavior, that HOG1 overexpression in Saccharomyces cerevisiae represses the pseudodimorphic transition. Most interestingly, deletion of HOG1 resulted in a drastic increase in the mean survival time of systemically infected mice, supporting a role for this MAP kinase pathway in virulence of pathogenic fungi. This finding has potential implications in antifungal therapy.