Characterization of chitin and chitin synthase from the cellulosic cell wall fungusSaprolegnia monoi¨ca

The presence of chitin in hyphal cell walls and regenerating protoplast walls ofSaprolegnia monoi¨ca was demonstrated by biochemical and biophysical analyses. α-Chitin was characterized by X-ray diffraction, electron diffraction, and infrared spectroscopy. In hyphal cell walls, chitin appeared as small globular particles while cellulose, the other crystalline cell wall component, had a microfibrillar structure. Chitin synthesis was demonstrated in regenerating protoplasts by the incorporation of radioactiveN-acetylglucosamine into a KOH-insoluble product. Chitin synthase activity of cell-free extracts was particulate. This activity was stimulated by trypsin and inhibited by the competitive inhibitor polyoxin D (K_i 20 μM). The reaction product was insoluble in 1M KOH or 1M acetic acid and was hydrolyzed by chitinase into diacetylchitobiose. Fungal growth and cell wall chitin content were reduced when mycelia were grown in the presence of polyoxin D. However, hyphal morphology was not altered by the presence of the antibiotic indicating that chitin does not seem to play an important role in the morphogenesis ofSaprolegnia.     

Construction of an RNAi expression vector and transformation into Penicillium chrysogenum

In this work, we constructed an RNAi vector for attenuation of the class III chitin synthase gene chs4, which plays a major role in hyphal growth and conidia formation. To achieve a high transformation frequency, factors affecting the preparation and regeneration of protoplasts were analyzed. The maximum numbers of protoplasts (1.41?×?10⁷ mL^?1) were released when mycelia cultured for 48 h were incubated at 30 °C for 5 h in a buffer containing 4 mg mL^?1 lysing enzyme. The maximum regeneration rate (33 %) was obtained when mycelia were digested for 4 h and plated on a regeneration medium containing 1 % overlaid agar. Quantitative real-time PCR was performed to validate the transformation efficiency, and it revealed knockdown of chs4 gene in randomly selected transformants at different levels. Dramatic reductions in the formation of conidia and the hyphal growth rate were observed in most of the transformants.     

Chitin and β(1–3) glucan synthases in the protoplastic entomophthorales

(1–3) glucan and chitin synthases were studied in spontaneously produced protoplasts and in the mycelium (hyphal body) of the entomopathogenic Entomophthorale species Entomophaga aulicae, Conidiobolus obscurus and Entomophthora muscae. The absence of wall in protoplasts was correlated to an absence of chitin synthase and to a very low (1–3) glucan synthase activity, whereas these two polysaccharide synthases were present and active in the walled hyphal bodies. Physicochemical properties of chitin and (1–3) glucan synthases such as localization, optimum pH and temperature, activation by disaccharides and proteases were similar to those found in other fungi unable to spontaneously produce protoplasts and could not be related to the ability for protoplastic Entomophthorale species to produce and proliferate under a protoplast form. The absence or the low chitin and glucan synthase activites in Entomophthorale protoplasts was not due to an absence of proteolytic activation of the enzyme. However, all protoplast fractions contained inhibitory substances of glucan and chitin synthase activities. These inhibitors were stable and specific of the protoplast stage. They were not glucanase nor chitinase. These results suggest that the absence of wall synthesis in Entomophthorale protoplasts is due to a continuous inhibition of (1–3) glucan and chitin synthase activities by intracellular compounds and also for glucan synthase by protoplast medium constituents such as NaCl and fetal calf serum.Abbreviations BSA bovine serum albumin - DFP diisopropylfluorophosphate - EDTA ethylenediamine tetraaoetic acid - FCS fetal calf serum - GlcNAc N-acetylglucosamine - TCA trichloroacetic acid - 2 k pellet 2,000 g wall fraction - 140 k pellet 140,000 g particulate fraction - 140 k supernatant 140,000 g soluble fraction     

Chemical analysis of cell wall regeneration and reversion of protoplasts from Schizophyllum commune.

In the presence of MgSo4 as osmotic stabilizer, nucleated protoplasts of Schizophyllum commune developed a large vacuole and could be isolated on the basis of their low buoyant density. All these protoplasts were capable of wall regeneration and about 50 percent reverted to the hyphal mode of growth in liquid medium. The kinetics of the formation of three main cell-wall components, S-glucan (alpha-1,3-glucan), R-glucan (beta-1,3, beta-1,6-glucan) and chitin were studied from the onset of regeneration. S-glucan and chitin accumulation as well as RNA and protein synthesis started simultaneously after a short lag, but R-glucan formation was delayed. The reversion of hyphal tubes only began after several hours of rapid R-glucan synthesis. Cycloheximide (0.5 mug/ml), inhibiting protein synthesis by 98% inhibited the formation of R-glucan and the reversion to hyphal growth but the formation of chitin and S-glucan did start and continued seemingly unimpaired for several hours. This indicates that the enzymes responsible for the synthesis of S-glucan and chitin remained intact during protoplast preparation. Polyoxin D inhibited both the synthesis of chitin and R-glucan and also the reversion to hyphal growth. However, the synthesis of S-glucan was not suppressed. These inhibitor studies as well as the kinetics of R-glucan formation during normal regeneration suggest that the synthesis of R-glucan is required for the initiation of hyphal morphogenesis.     

Cloning and characterization of chsD, a chitin synthase-like gene of Aspergillus fumigatus

Abstract A chitin synthase-like gene ( chsD ) was isolated from an Aspergillus fumigatus genomic DNA library. Comparisons with the predicted amino acid sequence from chsD reveals low but significant similarity to chitin synthases, to other N acetylglucosaminyltransferases (NodC from Rhizopus spp., HasA from Streptococcus spp. and DG42 from vertebrates. A chsD⁻ mutant strain constructed by gene disruption has a 20% reduction in total mycelial chitin content; however, no differences between the wild-type strain and the chsD⁻ strain were found with respect to morphology, chitin synthase activity or virulence in a neutropenic murine model of aspergillosis. The results show that the chsD product has an important but inessential role in the synthesis of chitin in A. fumigatus .     

Potential chitinase activating factor from yeast cells of Candida albicans

D.J. JACKSON, V.A. SAUNDERS AND A.M. HUMPHREYS. 1996. Microsomal chitinase from yeast and hyphal cells of Candida albicans was activated endogenously by incubation at 30°C and exogenously by trypsin. The putative activating factor of yeast cells was separated from chitinase activity by fractionation of lysed protoplasts on an Iodixanol density gradient. The vacuole fraction contained no significant chitinase activity, but was enriched in chitinase activating factor. Activity of microsomal chitinase increased upon incubation with this, but no other gradient factor. Results suggest that the regulatory system governing microsomal chitinase activity, like that governing chitin synthase, involves a 'vacuolar'activating factor in Candida albicans .     

Relationships between phosphatidylcholine content, chitin synthesis, growth, and morphology of Aspergillus nidulans choC

The phosphatidylcholine (PC) content of Aspergillus nidulans choC was varied by growing the auxotroph in medium containing various concentrations of choline chloride. Direct linear correlations were observed between PC content and in vivo chitin synthase activity, between in vivo chitin synthase activity and mean hyphal extension rate, and between mean hyphal extension rate and hyphal growth unit length; hyphal growth unit length is a measure of hyphal branching. Further, there was a correlation between PC content and colony radial growth rate. Thus, membrane composition is an important determinant of both hyphal (and colony) extension rate and mycelial morphology.     

Cellular localization of acid carboxypeptidase inAspergillus oryzae

Fresh mycelia ofAspergillus oryzae were shown to have strong acid carboxypeptidase (EC 3.4.12.-) activity. The cellular localization of acid carboxypeptidase was investigated using the broken mycelia and the protoplasts of the fungusAspergillus oryzae IAM 2640. In the broken mycelia, about 40% of the total activity was found in the “cell wall” fraction (2,000×g), with most of the remainder in the soluble fraction (100,000×g supernatant). During the formation of protoplasts, most of the acid carboxypeptidase in the mycelia was solubilized and released. The specific activity of acid carboxypeptidase in the lysed protoplasts was about 10-fold lower than that found in the broken mycelial preparation. These data indicate that most of the acid carboxypeptidase is probably located in the cell surface, which includes the cell wall, the periplasm, and the cell membrane.     

Chemical analysis of cell wall regeneration and reversion of protoplasts from Schizophyllum commune

In the presence of MgSO₄ as osmotic stabilizer, nucleated protoplasts of Schizophyllum commune developed a large vacuole and could be isolated on the basis of their low buoyant density. All these protoplasts were capable of wall regeneration and about 50 percent reverted to the hyphal mode of growth in liquid medium. The kinetics of the formation of three main cell-wall components, S-glucan (α-1,3-glucan), R-glucan (β-1,3, β-1,6-glucan) and chitin were studied from the onset of regeneration. S-glucan and chitin accumulation as well as RNA and protein synthesis started simultaneously after a short lag, but R-glucan formation was delayed. The reversion to hyphal tubes only began after several hours of rapid R-glucan synthesis. Cycloheximide (0.5 μg/ml), inhibiting protein synthesis by 98% inhibited the formation of R-glucan and the reversion to hyphal growth but the formation of chitin and S-glucan did start and continued seemingly unimpaired for several hours. This indicates that the enzymes responsible for the synthesis of S-glucan and chitin remained intact during protoplast preparation. Polyoxin D inhibited both the synthesis of chitin and R-glucan and also the reversion to hyphal growth. However, the synthesis of S-glucan was not suppressed. These inhibitor studies as well as the kinetics of R-glucan formation during normal regeneration suggest that the synthesis of R-glucan is required for the initiation of hyphal morphogenesis.     

Isolation of a chitin synthase gene (CHS1) from Candida albicans by expression in Saccharomyces cerevisiae

Chitin synthase activity was studied in yeast and hyphal forms of Candida albicans. pH-activity profiles showed that yeast and hyphae contain a protease-dependent activity that has an optimum at pH 6.8. In addition, there is an activity that is not activated by proteolysis in vitro and which shows a peak at pH 8.0. This suggests there are two distinct chitin synthases in C. albicans. A gene for chitin synthase from C. albicans (CHS1) was cloned by heterologous expression in a Saccharomyces cerevisiae chs1 mutant. Proof that the cloned chitin synthase is a C. albicans membrane-bound zymogen capable of chitin biosynthesis in vitro was based on several criteria. (i) the CHS1 gene complemented the S. cerevisiae chs1 mutation and encoded enzymatic activity which was stimulated by partial proteolysis; (ii) the enzyme catalyses incorporation of [14C]-GlcNAc from the substrate, UDP[U-14C]-GlcNAc, into alkali-insoluble chitin; (iii) Southern analysis showed hybridization of a C. albicans CHS1 probe only with C. albicans DNA and not with S. cerevisiae DNA; (iv) pH profiles of the cloned enzyme showed an optimum at pH 6.8. This overlaps with the pH-activity profiles for chitin synthase measured in yeast and hyphal forms of C. albicans. Thus, CHS1 encodes only part of the chitin synthase activity in C. albicans. A gene for a second chitin synthase in C. albicans with a pH optimum at 8.0 is proposed. DNA sequencing revealed an open reading frame of 2328 nucleotides which predicts a polypeptide of Mr 88,281 with 776 amino acids. The alignment of derived amino acid sequences revealed that the CHS1 gene from C. albicans (canCHS1) is homologous (37% amino acid identity) to the CHS1 gene from S. cerevisiae (sacCHS1).     

灭蚊真菌——大链壶菌原生质体形成和再生的研究

采用1％纤维素酶与1％真菌脱壁酶混合液作脱壁酶,0.6mol/L山梨醇为渗透压稳定剂,从摇床培养的12—14小时菌龄的大链壶菌(Lagenidium giganteum)菌丝体获得原生质体。酶解3—5小时后,产量可达1.4—2.0×10~6/mL。并在双层培养基上初步实现了原生质体再生。     

Cell wall biogenesis in a double chitin synthase mutant (chsG-/chsE-) of Aspergillus fumigatus

Previous studies (Aufauvre-Brown et al., 1997; Mellado et al., 1996a,b ) have shown that only two genes of the Aspergillus fumigatus chitin synthase family, chsG and chsE, play a role in the morphogenesis of this fungal species. An A. fumigatus strain lacking both chsG (class III CHS) and chsE (class V CHS) genes was constructed by gene replacement of the chsE gene with a copy that has its conserved coding region interrupted by the hph resistance cassette in an A. fumigatus chsG- genetic background. Unexpectedly the double disruption was not lethal. The double mutant AfchsG-/chsE- strain (i) has reduced chitin synthase activity with or without trypsin stimulation, (ii) has a reduced colony radial growth rate, (iii) produces highly branched hyphae, (iv) exhibits aberrant features, such as periodic swellings along the length of the hyphae and a block in conidiation that can be partially restored by an osmotic stabilizer (v) shows alterations in the shape and germination capacity of the conidia, and (vi) has a cell wall that contains half the chitin of the parental strain and is, unexpectedly, highly enriched in alpha-(1-3) glucan.     

Isolation and characterization of plasma membranes from the fungus Podospora anserina

This paper describes a method for separating and isolating plasma membranes from the septated fungus Podospora anserina. Plasma membranes were isolated from protoplasts (young cell plasma membranes) and mycelia (both young and aged cell plasma membranes). The procedure of fractionation consisted of a combination of differential and isopycnic centrifugations. Characterization of cellular membranes and enrichment of the fractions with plasmalemma were carried out by assays on enzymatic activities. A plasma membrane fraction was isolated in a buoyant density peak of 1.087 g/cm3, where three enzymatic activities bound to plasma membrane, adenylate cyclase, chitin synthase, and beta-glucan synthase at low affinity for UDP-Glc, peaked together. Good purity of this fraction was determined by the absence or the very low level of other enzymatic activities used as markers for intracellular membranes, i.e., succinate dehydrogenase, alpha-mannosidase, NADPH cytochrome c reductase, and beta-glucan synthase at high affinity for UDP-Glc activities.     

Aspergillus nidulans class V and VI chitin synthases CsmA and CsmB, each with a myosin motor-like domain, perform compensatory functions that are essential for hyphal tip growth

The polarized synthesis of cell wall components such as chitin is essential for the hyphal tip growth of filamentous fungi. The actin cytoskeleton is known to play important roles in the determination of hyphal polarity in Aspergillus nidulans. Previously, we suggested that CsmA, a chitin synthase with a myosin motor-like domain (MMD), was involved in polarized chitin synthesis in a manner dependent on the interaction between the MMD and the actin cytoskeleton. The genome database indicates that A. nidulans possesses another gene encoding another chitin synthase with an MMD. In this study, we characterized this gene, which we designated csmB. The csmB null mutants examined were viable, although they exhibited defective phenotypes, including the formation of balloons and intrahyphal hyphae and the lysis of subapical regions, which were similar to those obtained with csmA null mutants. Moreover, csmA csmB double null mutants were not viable. Mutants in which csmB was deleted and the expression of csmA was under the control of the alcA promoter were viable but severely impaired in terms of hyphal growth under alcA-repressing conditions. We revealed that CsmB with three copies of a FLAG epitope tag localized at the hyphal tips and forming septa, and that the MMD of CsmB was able to bind to actin filaments in vitro. These results suggest that CsmA and CsmB perform compensatory functions that are essential for hyphal tip growth.     

The Aspergillus nidulans phsB4 mutation alters colonial growth and development of the mould at acidic pH

The phsB4 mutant of the mould Aspergillus nidulans, identified as showing increased sensitivity to acid pH, is mitotically unstable and its conidia swell and lyse, forming protoplasts during germination and early development in shaken liquid cultures. On solid medium, we observed balloon-shaped hyphal swellings, a phenotype also exhibited by the chitin synthase gene (chsD) disruptants. We also observed that lysis was osmotically remediable with 0.5 M NaCl, but the balloon-shaped hyphal swelling was remedied in a pH-dependent way i.e., this phenotype was remedied only at pH values above 6.5. Based on the nature of our mutant selection, the pH sensitive phenotype of the selected strains, the known occurrence of hyphal swelling in cell wall mutants of A. nidulans, and the transformation with cosmids that hybridize to chsD gene, the phsB and chsD genes are possibly alleles.     

Aspergillus fumigatus chsE: A Gene Related to CHS3 of Saccharomyces cerevisiae and Important for Hyphal Growth and Conidiophore Development but Not Pathogenicity

The Aspergillus fumigatus chsE (AfchsE) gene was isolated from an A. fumigatus DNA library on the basis of hybridization to a segment of Saccharomyces cerevisiae CHS3 (ScCHS3). The amino acid sequence derived from AfchsE is 28% identical with ScCHS3 and 80% identical with the product of Aspergillus nidulans chsD (AnchsD). A mutant strain constructed by disruption of AfchsE has reduced levels of mycelial chitin, periodic swellings along the length of hyphae, and a block in conidiation that can be partially restored by growth in osmotic stabilizer. This phenotype is different from that reported for an AnchsD mutant, in which germinating conidia and hyphal tips undergo lysis and the colonial growth rate is significantly reduced. Despite the defects associated with the AfchsE- strain, its virulence was not significantly reduced when compared with the wild-type parental strain in a mouse model of pulmonary aspergillosis.     

Glycoprotein hypersecretion alters the cell wall in Trichoderma reesei strains expressing the Saccharomyces cerevisiae dolichylphosphate mannose synthase gene

Expression of the Saccharomyces cerevisiae DPM1 gene (coding for dolichylphosphate mannose synthase) in Trichoderma reesei (Hypocrea jecorina) increases the intensity of protein glycosylation and secretion and causes ultrastructural changes in the fungal cell wall. In the present work, we undertook further biochemical and morphological characterization of the DPM1-expressing T. reesei strains. We established that the carbohydrate composition of the fungal cell wall was altered with an increased amount of N-acetylglucosamine, suggesting an increase in chitin content. Calcofluor white staining followed by fluorescence microscopy indicated changes in chitin distribution. Moreover, we also observed a decreased concentration of mannose and alkali-soluble beta-(1,6) glucan. A comparison of protein secretion from protoplasts with that from mycelia showed that the cell wall created a barrier for secretion in the DPM1 transformants. We also discuss the relationships between the observed changes in the cell wall, increased protein glycosylation, and the greater secretory capacity of T. reesei strains expressing the yeast DPM1 gene.     

Effect of cerulenin and sodium butyrate on chitin synthesis in Candida albicans

Experiments were conducted to gain insight concerning the mechanism(s) whereby cerulenin and sodium butyrate affect chitin synthesis in Candida albicans. In vitro studies with isolated membrane-bound chitin synthase from C. albicans, strain 4918, showed that neither agent affected the level of either unactivated or trypsin-activated enzyme activity. Subsequent studies utilizing protoplasts revealed that early in the cell wall regeneration process, cells treated with cerulenin or butyrate synthesized chitin at a rate equal to untreated controls, as measured by the incorporation of [3H]-N-acetylglucosamine (GlcNAc) into acid-alkali insoluble material. However, after 40 min of incubation, the incorporation of [3H]GlcNAc into chitin is reduced in cells treated with either agent. On the other hand, samples taken during the same time intervals and analyzed by flow cytometry suggested that the amount of chitin synthesis in treated and untreated cells was identical. A marked decrease in fluorescence was observed in similar experiments using polyoxin D, a direct inhibitor of chitin synthase activity. Experiments that measured uptake of [3H]GlcNAc into both whole cells and protoplasts demonstrated that cerulenin and butyrate had no effect on the transport of the chitin precursor.