Dynamic changes of the cell wall surface of Candida albicans associated with germination and adherence

The distribution of mannoproteins at the cell wall surface of Candida albicans was analyzed during the process of germination in conditions favoring adherence of germ tubes to a plastic matrix. Three cytochemical methods allowing the detection of concanavalin A binding sites, anionic sites and the enzyme acid phosphatase, respectively were used. All three methods gave similar results, indicating a spatial and temporal reorganization of some cell wall mannoproteins: a strong labeling was observed on blastoconidia; in contrast, as soon as the emergence of germ tubes took place, these reactions decreased dramatically at the surface of mother cells, whereas the germ tube surface was strongly stained. Some new components with multiple biological activities were detected at the germ-tube surface. Indeed, among mannoproteins responsible for an enhanced adhesion to plastic surfaces, two components with molecular weights of 68 and 60 to 62 kDa were shown to interact with laminin, fibrinogen, and C3d. This study therefore indicates that germination, and then adherence of germ tubes, imply a degradation of surface mannoproteins, and a simultaneous presentation of new molecules which can interact with their nonbiological materials or host proteins.     

Hyphal Elongation Is Regulated Independently of Cell Cycle in Candida albicans

The mechanism for apical growth during hyphal morphogenesis in Candida albicans is unknown. Studies from Saccharomyces cerevisiae indicate that cell morphogenesis may involve cell cycle regulation by cyclin-dependent kinase. To examine whether this is the mechanism for hyphal morphogenesis, the temporal appearance of different spindle pole body and spindle structures, the cell cycle-regulated rearrangements of the actin cytoskeleton, and the phosphorylation state of the conserved Tyr19 of Cdc28 during the cell cycle were compared and found to be similar between yeast and serum-induced hyphal apical cells. These data suggest that hyphal elongation is not mediated by altering cell cycle progression or through phosphorylation of Tyr19 of Cdc28. We have also shown that germ tubes can evaginate before spindle pole body duplication, chitin ring formation, and DNA replication. Similarly, tip-associated actin polarization in each hypha occurs before the events of the G(1)/S transition and persists throughout the cell cycle, whereas cell cycle-regulated actin assemblies come and go. We have also shown that cells in phases other than G(1) can be induced to form hyphae. Hyphae induced from G(1) cells have no constrictions, and the first chitin ring is positioned in the germ tube at various distances from the base. Hyphae induced from budded cells have a constriction and a chitin ring at the bud neck, beyond which the hyphae continue to elongate with no further constrictions. Our data suggest that hyphal elongation and cell cycle morphogenesis programs are uncoupled, and each contributes to different aspects of cell morphogenesis.     

Septin function in Candida albicans morphogenesis

The septin proteins function in the formation of septa, mating projections, and spores in Saccharomyces cerevisiae, as well as in cell division and other processes in animal cells. Candida albicans septins were examined in this study for their roles in morphogenesis of this multimorphic, opportunistically pathogenic fungus, which can range from round budding yeast to elongated hyphae. C. albicans green fluorescent protein labeled septin proteins localized to a tight ring at the bud and pseudohyphae necks and as a more diffuse array in emerging germ tubes of hyphae. Deletion analysis demonstrated that the C. albicans homologs of the S. cerevisiae CDC3 and CDC12 septins are essential for viability. In contrast, the C. albicans cdc10Delta and cdc11Delta mutants were viable but displayed conditional defects in cytokinesis, localization of cell wall chitin, and bud morphology. The mutant phenotypes were not identical, however, indicating that these septins carry out distinct functions. The viable septin mutants could be stimulated to undergo hyphal morphogenesis but formed hyphae with abnormal curvature, and they differed from wild type in the selection of sites for subsequent rounds of hyphal formation. The cdc11Delta mutants were also defective for invasive growth when embedded in agar. These results further extend the known roles of the septins by demonstrating that they are essential for the proper morphogenesis of C. albicans during both budding and filamentous growth.     

Regeneration of the cell wall in protoplasts of Candida albicans

To assess the dynamics of synthesis of the wall by regenerating Candida albicans protoplasts deposition of chitin and mannoproteins were investigated ultrastructurally using wheat germ agglutinin conjugated with either horseradish peroxidase or colloidal gold, and Concanavalin A coupled to ferritin respectively.Freshly prepared protoplasts lacked wheat germ agglutinin receptor sites but after 1–2 h of regeneration, they were detected. After 4–5 h of regeneration, the cell wall showed a discrete structure which was only labelled with wheat germ agglutinin in thin sections. At this stage of regeneration the outermost layer of the wall was labelled with clusters of Concanavalin A-ferritin particles.After 8 h regeneration, the cell wall appeared compact, and homogenously marked with wheat germ agglutinin whereas only the surface layers appeared consistently labelled with Concanavalin A-ferritin.From these observations we conclude that C. albicans protoplasts are able to regenerate in liquid medium a cell wall consisting of a network of chitin fibrils and mannoproteins at least (glucan polymers were not determined in the present cytological study). The former are the fundamental component of the inner layers at early stages of regeneration, whereas the latter molecules are predominant in the outer layers of the wall.Abbreviations WGA-HRP wheat germ agglutinin conjugated with horseradish peroxidase - WGA-Au wheat germ agglutinin conjugated with colloidal gold - Con A-ferritin Concanavalin A coupled to ferritin     

Morphological studies of N-acetylglucosamine induced germ tube formation by Candida albicans

In N-acetylglucosamine induced germ tube formation by Candida albicans, multiple (up to five) protuberances appeared within 90 min at 37 degrees C on each yeast cell. The protuberances were extensions of the cytosol and contained vesiclelike structures. Usually only one protuberance subsequently developed into a germ tube. The germ tubes emanated from all aspects of the cell surface but seldom from the budding (long axis) poles. Pseudohyphae, which originated from the budding pole, exhibited a marked constriction at the site of emergence and were 0.6-2.5 microns in diameter compared with a diameter of 0.6-0.8 micron for germ tubes. The presence of septa confirmed that germ tubes are precursors of septate mycelia. Ultrathin-section transmission electron microscopy of aldehyde plus osmium fixed cells revealed electron-lucent walls with a thin electron-dense outer layer. A fibrillar border was also routinely associated with germ tubes. Poststaining with potassium permanganate revealed, in addition, a previously invisible fuzzy layer on the outer region of the cell wall which extended over bud scars and germ tubes and which coalesced at sites of contact between cells.     

Morphological anomalies induced by Congo red in Aspergillus niger

Aspergillus niger germ tubes were exposed for 6 h to 0.15 mg/ml of Congo red, a stain which prevents chitin microfibril assembly. The most evident alterations, detected under ultraviolet light and by transmission and scanning electron microscopy, concerned the hyphal tips which burst or, most frequently, expanded into bulges. In the latter structures, new hyphal tips appeared which, after giving rise to more or less developed hyphae, were themselves converted into new bulges. Therefore, segments derived from isotropic and polarized growth alternated in the organisms exposed to the dye.An interpretation of these abnormalities is advanced based upon the assumption that the maintainance of a regular gradient of wall viscosity in the hyphal extension zone depends primarily on the capability of glycan chains to form crystalline aggregates of increasing complexity.     

Phr1p, a glycosylphosphatidylinsitol-anchored β(1,3)-glucanosyltransferase critical for hyphal wall formation, localizes to the apical growth sites and septa in Candida albicans

Cell wall biogenesis is a dynamic process relying on the coordinated activity of several extracellular enzymes. PHR1 is a pH-regulated gene of Candida albicans encoding a glycosylphosphatidylinositol-anchored β(1,3)-glucanosyltransferase of family GH72 which acts as a cell wall remodelling enzyme and is crucial for morphogenesis and virulence. In order to explore the function of Phr1p, we obtained a green fluorescent protein (GFP) fusion to determine its localization. During induction of vegetative growth, Phr1p-GFP was concentrated in the plasma membrane of the growing bud, in the mother-bud neck, and in the septum. Phr1p-GFP was recovered in the detergent-resistant membranes indicating its association with the lipid rafts as the wild type Phr1p. Upon induction of hyphal growth, Phr1p-GFP highly concentrated at the apex of the germ tubes and progressively distributed along the lateral sides of the hyphae. Phr1p-GFP also labelled the hyphal septa, where it colocalized with chitin. Localization to the hyphal septa was perturbed in nocodazole-treated cells, whereas inhibition of actin polymerization hindered the apical localization. Electron Microscopy analysis of the hyphal wall ultrastructure of a PHR1 null mutant showed loss of compactness and irregular organization of the surface layer. These observations indicate that Phr1p plays a crucial role in hyphal wall formation, a highly regulated process on which morphogenesis and virulence rely.     

甾醇生物合成抑制剂粉锈宁对苹果黑星病菌发育的影响

采用电子显微镜和细胞化学技术,研究了杀菌剂粉锈宁（甾醇生物合成抑制剂）对苹果黑星病菌在苹果叶片上发育的影响。观察结果表明,接种前24h施药对病菌入侵有明显的影响。表现为分生孢子的萌发受阻,推迟萌发及萌发率降低;并引起芽管畸形,不能形成附着胞。接种后6天（显症前）施药,可引起叶片角质层下菌丝细胞和子座细胞的原生质坏死、细胞壁不规则增厚及液泡增大, 从而使菌丝进一步发育受阻。接种后12天（显症后）施药,不仅导致菌丝、子座细胞发生上述变化, 而且引起分生孢子和分生孢子梗塌陷、畸形,阻止了病菌的进一步产孢和扩展。细胞化学定位分析结果表明,?-1,3-葡聚糖和几丁质这两种胞壁主要成分在对照菌丝和药剂处理后的菌丝细胞壁内含量有很大差异。在药剂处理的菌丝细胞壁中,这两种成分的标记密度明显高于对照菌丝,表明杀菌剂对病菌质膜透性的不利影响使?-1,3-葡聚糖和几丁质在菌丝细胞壁中过度累积。     

Assembly of the yeast cell wall. Crh1p and Crh2p act as transglycosylases in vivo and in vitro

The cross-linking of polysaccharides to assemble new cell wall in fungi requires mechanisms by which a preexisting linkage is broken for each new one made, to allow for the absence of free energy sources outside the plasma membrane. Previous work showed that Crh1p and Crh2p, putative transglycosylases, are required for the linkage of chitin to beta(1-3)glucose branches of beta(1-6)glucan in the cell wall of budding yeast. To explore the linking reaction in vivo and in vitro, we used fluorescent sulforhodamine-linked laminari-oligosaccharides as artificial chitin acceptors. In vivo, fluorescence was detected in bud scars and at a lower level in the cell contour, both being dependent on the CRH genes. The linking reaction was also shown in digitonin-permeabilized cells, with UDP-N-acetylglucosamine as the substrate for nascent chitin production. Both the nucleotide and the Crh proteins were required here. A gas1 mutant that overexpresses Crh1p showed very high fluorescence both in intact and permeabilized cells. In the latter, fluorescence was still incorporated in patches in the absence of UDP-GlcNAc. Isolated cell walls of this strain, when incubated with sulforhodamine-oligosaccharide, also showed Crhp-dependent fluorescence in patches, which were identified as bud scars. In all three systems, binding of the fluorescent material to chitin was verified by chitinase digestion. Moreover, the cell wall reaction was inhibited by chitooligosaccharides. These results demonstrate that the Crh proteins act by transferring chitin chains to beta(1-6)glucan, with a newly observed high activity in the bud scar. The importance of transglycosylation for cell wall assembly is thus firmly established.     

Lectin Binding Studies on the Cell Walls of Soybean Rust (Phakopsora pachyrhizi Syd.)

Walls of uredospores, infection structures, intercellular hyphae and haustoria of the soybean rust fungus (Phakopsora pachyrhizi) were studied by electron microscopy using gold-labeled wheat germ lectin (WGL) and Concanavalin A (ConA) as cytochemical probes. Receptors for WGL (probably chitin) were detected in all fungal walls included in this study. WGL-binding occurred throughout the entire walls (uredospores, appressorial cone, penetration hyphae, haustorial mother cells) or only to the inner wall layers (germ tubes, appressoria, intercellular hyphae).     

A Candida albicans Temperature-Sensitive cdc12-6 Mutant Identifies Roles for Septins in Selection of Sites of Germ Tube Formation and Hyphal Morphogenesis

Septins were identified for their role in septation in Saccharomyces cerevisiae and were subsequently implicated in other morphogenic processes. To study septins in Candida albicans hyphal morphogenesis, a temperature-sensitive mutation was created that altered the C terminus of the essential Cdc12 septin. The cdc12-6 cells grew well at room temperature, but at 37°C they displayed expected defects in septation, nuclear localization, and bud morphogenesis. Although serum stimulated the cdc12-6 cells at 37°C to form germ tube outgrowths, the mutant could not maintain polarized hyphal growth and instead formed chains of elongated cell compartments. Serum also stimulated the cdc12-6 mutant to induce a hyphal reporter gene (HWP1-GFP) and a characteristic zone of filipin staining at the leading edge of growth. Interestingly, cdc12-6 cells shifted to 37°C in the absence of serum gradually displayed enriched filipin staining at the tip, which may be due to the altered cell cycle regulation. A striking difference from the wild type was that the cdc12-6 cells frequently formed a second germ tube in close proximity to the first. The mutant cells also failed to form the diffuse band of septins at the base of germ tubes and hyphae, indicating that this septin band plays a role in preventing proximal formation of germ tubes in a manner analogous to bud site selection. These studies demonstrate that not only are septins important for cytokinesis, but they also promote polarized morphogenesis and selection of germ tube sites that may help disseminate an infection in host tissues.     

Presence of a large β(1-3)glucan linked to chitin at the Saccharomyces cerevisiae mother-bud neck suggests involvement in localized growth control

Previous results suggested that the chitin ring present at the yeast mother-bud neck, which is linked specifically to the nonreducing ends of β(1-3)glucan, may help to suppress cell wall growth at the neck by competing with β(1-6)glucan and thereby with mannoproteins for their attachment to the same sites. Here we explored whether the linkage of chitin to β(1-3)glucan may also prevent the remodeling of this polysaccharide that would be necessary for cell wall growth. By a novel mild procedure, β(1-3)glucan was isolated from cell walls, solubilized by carboxymethylation, and fractionated by size exclusion chromatography, giving rise to a very high-molecular-weight peak and to highly polydisperse material. The latter material, soluble in alkali, may correspond to glucan being remodeled, whereas the large-size fraction would be the final cross-linked structural product. In fact, the β(1-3)glucan of buds, where growth occurs, is solubilized by alkali. A gas1 mutant with an expected defect in glucan elongation showed a large increase in the polydisperse fraction. By a procedure involving sodium hydroxide treatment, carboxymethylation, fractionation by affinity chromatography on wheat germ agglutinin-agarose, and fractionation by size chromatography on Sephacryl columns, it was shown that the β(1-3)glucan attached to chitin consists mostly of high-molecular-weight material. Therefore, it appears that linkage to chitin results in a polysaccharide that cannot be further remodeled and does not contribute to growth at the neck. In the course of these experiments, the new finding was made that part of the chitin forms a noncovalent complex with β(1-3)glucan.     

Lysis of cell walls ofMucor ramannianus möller by aStreptomyces sp.

A study has been made of some chemical and ultrastructural changes that occur in the hyphal, arthrospore and sporangiospore walls ofMucor ramannianus during lysis by a soil streptomycete.Arthrospore and hyphal walls, which were shown to contain chitin, chitosan, other polysaccharides and phosphate (principally as polyphosphate), were lysed by culture fluid of the streptomycete after this organism had been grown on the same material. Alcohol-insoluble material found in the supernatants of the incubation mixtures gave on hydrolysis glucosamine, galactose, mannose and fucose. No laminarinase activity was detected in these culture fluids. Culture fluids of the streptomycete after growth on chitin and chitosan were also found to lyse the walls of arthrospores and hyphae.Despite the chemical similarities the walls were very different in thin section.A major component in the sporangiospore walls was glucan and an active laminarinase was shown to be present in the culture fluids of the streptomycete after growth on them. Further, ultrathin sections showed that an inner fibrillar layer of the sporangiospore wall was lysed leaving an outer electron-dense layer.     

Dynamics of cell wall components of Magnaporthe grisea during infectious structure development

Oligosaccharides derived from cell wall of fungal pathogens induce host primary immune responses. To understand fungal strategies circumventing the host plant immune responses, cell wall polysaccharide localization was investigated using fluorescent labels during infectious structure differentiation in the rice blast fungus Magnaporthe grisea . α-1,3-glucan was labelled only on appressoria developing on plastic surfaces, whereas it was detected on both germ tubes and appressoria on plant surfaces. Chitin, chitosan and β-1,3-glucan were detected on germ tubes and appressoria regardless of the substrate. Major polysaccharides labelled at accessible surface of infectious hyphae were α-1,3-glucan and chitosan, but after enzymatic digestion of α-1,3-glucan, β-1,3-glucan and chitin became detectable. Immunoelectron microscopic analysis showed α-1,3-glucan and β-1,3-glucan intermixed in the cell wall of infectious hyphae; however, α-1,3-glucan tended to be distributed farther from the fungal cell membrane. The fungal cell wall became more tolerant to chitinase digestion upon accumulation of α-1,3-glucan. Accumulation of α-1,3-glucan was dependent on the Mps1 MAP kinase pathway, which was activated by a plant wax derivative, 1,16-hexadecanediol. Taken together, α-1,3-glucan spatially and functionally masks β-1,3-glucan and chitin in the cell wall of infectious hyphae. Thus, a dynamic change of composition of cell wall polysaccharides occurs during plant infection in M. grisea .     

Secretion of glycoproteins through the cell wall of Candida albicans

A monoclonal antibody raised against the pathogenic phase of Candida albicans has been coupled to colloidal gold and used to detect the corresponding epitope in cell wall and culture medium of blastoconidia grown as germ tubes in vitro. Immunogold silver staining of Western blots of culture supernatants demonstrated release of the epitope into the culture medium. The stain revealed 3 well defined bands of 205,000, 66,000 and 30,000 Mr and a smear from the top of the gel to an Mr of 120,000. Immunoelectron microscopy of ultrathin frozen sections of the corresponding growth forms showed that epitope accumulated first in the periplasmic space, generally corresponding to plasmalemma invaginations within the cytoplasm. From these sites, it was possible to follow continuous lines of epitope distribution through the cell wall and antigenic extrusion at the cell surface. In tangential sections of intensely labeled walls, these preferential excretion ways appeared to be organized as a parallel network. Antigen emergence at the cell surface corresponded to patches of material which tended to coalesce in an easily dissociated layer, probably corresponding to the fuzzy coat. These experiments demonstrate, for the first time, preferential ways for cellular secretion through the yeast cell wall.     

Adhesins in Candida albicans.

The adherent properties of Candida albicans blastoconidia and germ tubes have long been appreciated, but little is known about the mechanisms responsible for adherence. Recently, three genes, ALA1, ALS1 and HWP1, encoding proteins with adherent properties and motifs consistent with linkage to the beta-1, 6-glucan of C. albicans cell walls have provided insight into the topology of protein adhesins. Hwp1, a developmentally regulated adhesin of germ tubes and hyphae, attaches to buccal epithelial cells by an unconventional, transglutaminase-mediated mechanism of adhesion.     

戊唑醇对赤霉病菌生长发育影响的细胞学和免疫细胞化学研究

本文采用电子显微镜和免疫细胞化学技术研究了三唑类杀菌剂戊唑醇 (Tebuconazole) 对小麦赤霉病菌Fusarium graminearum菌丝的形态结构、细胞壁成份和毒素产生的影响。结果表明,戊唑醇不但强烈抑制了培养基上菌丝的生长,而且可引起菌丝形态和结构的明显畸形。电镜观察发现,药剂处理后菌丝呈现不规则的肿胀、过度分枝;菌丝细胞壁不规则加厚,尤其是菌丝顶端部位加厚明显;菌丝形成的不完整隔膜增多,且隔膜壁不规则增厚;菌丝细胞内液泡增加、脂肪粒累积,细胞器排列紊乱,原生质最终坏死。有时在坏死菌丝内可发现新的子菌丝,但子菌丝细胞壁不规则加厚、细胞质坏死、也呈不正常状态,并可再度形成新的菌丝。免疫细胞化学标记表明,药剂处理后菌丝细胞中毒素的标记密度明显低于对照菌丝,表明毒素的产生受到了抑制;而菌丝细胞壁的主要成份几丁质和-1,3-葡聚糖的标记密度明显高于对照处理,表明药剂处理可引起菌丝细胞壁中几丁质和-1,3-葡聚糖的过度累积。     

Polarity in filamentous fungi: moving beyond the yeast paradigm

Filamentous fungi grow by the polar extension of hyphae. This polar growth requires the specification of sites of germ tube or branch emergence, followed by the recruitment of the morphogenetic machinery to those sites for localized cell wall deposition. Researchers attempting to understand hyphal morphogenesis have relied upon the powerful paradigm of bud emergence in the yeast Saccharomyces cerevisiae. The yeast paradigm has provided a useful framework, however several features of hyphal morphogenesis, such as the ability to maintain multiple axes of polarity and an extremely rapid extension rate, cannot be explained by simple extrapolation from yeast models. We discuss recent polarity research from filamentous fungi focusing on the position of germ tube emergence, the relaying of positional information via RhoGTPase modules, and the recruitment of morphogenetic machinery components including cytoskeleton, polarisome and ARP2/3 complexes, and the vesicle trafficking system.     

SUMO modification of septin-interacting proteins in Candida albicans

The initiation of bud and hyphal growth in the opportunistic fungal pathogen Candida albicans both involve polarized morphogenesis. However, there are many differences including the function of the septin proteins, a family of proteins involved in membrane organization in a wide range of organisms. Septins form a characteristic ring on the inner surface of the plasma membrane at the bud neck, whereas the septins are diffusely localized across emerging hyphal tips. In addition, septin rings are maintained at sites of septum formation in hyphae rather than being disassembled immediately after cytokinesis. The possibility that C. albicans septins are regulated by the small ubiquitin-like protein SUMO was examined in this study because the Saccharomyces cerevisiae septins were shown previously to be modified by SUMO (Smt3p). However, SUMO conjugation to septins was not detected during budding or hyphal morphogenesis in C. albicans. These results are supported by the lack of conserved SUMO consensus motifs between septins from the two organisms even after adjusting the predicted Cdc3p and Cdc12p septin sequences to account for mRNA splicing in C. albicans. Interestingly, a homolog of the Smt3p SUMO was identified in the C. albicans genome, and an epitope tagged version of Smt3p was conjugated to a variety of proteins. Immunofluorescence analysis showed prominent Smt3p SUMO localization at bud necks and sites of septum formation in hyphae similar to the septins. However, Smt3p was primarily detected on the mother cell side of the septin ring. A subset of these Smt3p-modified proteins co-immunoprecipitated with the septin Cdc11p. These results indicate that septin-associated proteins and not the septins themselves are the key target of SUMO modification at the bud neck in C. albicans.     

Aspects of the dimorphism of Histoplasma farciminosum: a light and electron microscopic study.

Within 48h following the induction of mycelial to yeast-like phase conversion of Histoplasma farcininosum, randomly occurring hyphal cells were observed to contain multiple nuclei and markedly increased numbers of mitochondria. Yeast-like cells arose as buds from swollen tips of terminal hyphae, as sessile buds along the hyphae, and as buds from chlamydospores. Yeast-like cells were characterized by the presence of numerous buds over the surface of the mother cell. Bud scars were evident in the cell wall of the mother cell following abscission of the bud cell. Little similarity was noted between the fine structure of yeast-like H. farciminosum and that reported for H. capsulatum. The yeast-like cells of H. frciminosum underwent rapid transformation to the mycelial phase at 25 degrees C. The hyphal cell wall originated from the inner layer of cell wall of the yeast-like form. The cytoplasm of the hyphal cell usually contained a single nucleus, scattered mitochondria and occasional lipid storage bodies. Occasionally, Woronin bodies were observed at the septal pore.