Detection of unknown toxic mycotoxins inAspergillus nidulans using a structure-activity approach

Mycotoxins are secondary metabolites of filamentous fungi that can cause various acute and chronic toxic effects in humans. Previous work by Büngeret al. exhibited that the cytotoxicityof Aspergillus nidulans, one of the most frequent toxigenic moulds in composting plants, could not be explained by its content of identified mycotoxins. The presence of additional mycotoxins or other toxic prinpiples was assumed, which may be detected by a structure-activity approach. An HPLC-diode array detector method was used to separate and characterize the components of theA. nidulans-extract within 50 minutes/analysis. Aliquots of the extract were chromatographed and nine 5-minutes-fractions were collected and lyophilized. Rechromatography of aliquots of the residues confirmed the accuracy of the 5-minutes-cuts. The cytotoxicity of these fractions was estimated in three cell lines (A-549, L-929 and Hep-G2) using the neutral red assay (NRU assay). Ethanol/dichloromethane (1:1, v/v) was proven to be a suitable solvent mixture with a low cytotoxicity. HPLC-fractions were dissolved in this mixture prior to the NRU assay. Three 5-minutes-fractions exhibited a strong cytotoxicity in this screening system and will be further analysed to identify the underlying unknown toxic principles. Presented at the 28^th Mykotoxin-Workshop, Bydgoszcz, Poland, May 29–31, 2006, and the 47^th spring meeting of the DGPT, Mainz, Germany, April 4–6, 2006 Financial support: Deutsche Forschungsgemeinschaft (Project MU 1716–2)     

A single,phosphate-repressible deoxyribonuclease,DNase A,secreted inAspergillus nidulans

High levels of nuclease activities were identified in filtrates ofAspergillus cultures after growth in low- but not in high-phosphate media. Deoxyribonuclease activities, characterized extensively by column chromatography, showed a coincident single peak for ss- and ds-DNase which was distinct from the peak for RNase. Both ss-DNase and ds-DNase are endonucleolytic and showed the highest activity in the presence of Ca²⁺ and Mn²⁺ (atpH 8.0). They also showed identical heat sensitivities suggesting that a single, phosphate-repressible DNase was secreted. This enzyme, therefore, corresponds to the well-characterized extracellular DNase A ofNeurospora. However, theAspergillus DNase A did not cross-react with antisera to secretedNeurospora nucleases and showed different chromatographic properties, and active peptides of different sizes were visualized on DNA activity gels. The increasing derepression ofAspergillus DNase A by decreasing phosphate levels was similar to that of secreted alkaline phosphatase and these increases were both abolished by the regulatory mutantpalcA. This investigation was supported by Grant A2564 from the Natural Science and Engineering Research Council of Canada.     

A case of chronic necrotizing pulmonary aspergillosis due toAspergillus nidulans

A 55-year old man without immunosuppression clinically showed a coin lesion in the right lower lung on the chest radiographs.Aspergillus nidulans was isolated and identified in both trans-bronchial lung biopsy specimen and resected tissue. The specimens revealed characteristics of chronic necrotizing pulmonary aspergillosis pathologically. Very few reports on cases of pulmonary aspergillosis due toA. nidulans exist, and we were not able to find any reports of similar cases. This case may be the first reported case of chronic necrotizing pulmonary aspergillosis due toA. nidulans.     

Effects of methyl benzimidazoIe-2-yl carbamate on microtubule and actin cytoskeleton inAspergillus nidulans

Summary The effects of methyl benzimidazole-2-yl carbamate (MBC) on microtubule and actin cytoskeleton were analyzed by indirect immunofluorescence and transmission electron microscopy in a wild-type strain and a benomyl-resistant mutant (benA ₁₀) ofAspergillus nidulans. The treatment of the wild-type strain with sublethal doses of MBC not only caused depolymerization of cytoplasmic microtubules (MTs), but also changed the pattern of actin at the hyphal tips. In the MBC-treated hyphae, the actin fluorescence was concentrated at the very tip region of the hypha, whereas in the control hyphae, the actin fluorescence was weak at the very tip and strong below the tip. The dose of MBC used for the wild-type strain did not depolymerize the MTs or modify the actin organization at the apex in the mutant strain, which confirmed that the change in actin distribution in the wild-type strain was due to the disruption of MTs. In the mutant strain, a seven times higher concentration of MBC than in the wild-type strain was required to depolymerize MTs and to alter the actin organization at the apex. The ultrastructural study of the MBC-treated hyphae revealed that the area containing apical vesicles was larger and the number of microvesicles was higher than in control hyphae. These changes probably resulted from the disassembly of MTs and the reorientation of actin cytoskeleton in MBC-treated apexes and suggested that MTs would organize the actin at the apex, which in turn would restrict the vesicle fusion to a narrow area at the hyphal tip. In treated hyphae of both strains without cytoplasmic MTs, mitotic spindles were detected although in lower number and with slightly modified morphology.Abbreviations DAPI 4,6-diamidino-2-phenylindole - DMSO dimethyl sulfoxide - EM electron microscopy - ER endoplasmic reticulum - IIP indirect immunofluorescence - MBC methyl benzimidazole-2-yl carbamate - MTs microtubules     

Unusual evolutionary conservation of 5S rRNA pseudogenes inAspergillus nidulans: Similarity of the DNA sequence associated with the pseudogenes with the mouse immunoglobulin switch region

Summary AllAspergillus nidulans 5S rRNA pseudogenes known so far are the result of integration of an approx. 0.2-kbp-long DNA sequence into the 5S rRNA genes. This sequence, called block C, is present in at least five copies in theA. nidulans genome and seems to be associated either with 5S rRNA genes or pseudogenes. In contrast to the 78% sequence conservation of the C-block in pseudogenes, the truncated 5 halves of the pseudogenes are very highly conserved (96.9–100%). We postulate that the 5S rRNA pseudogenes are still a subject of concerted evolution. The C-block sequence shows similarity to the switch region of the mouse heavy chain immunoglobulin gene. A characteristic motif GGGTGAG is repeated several times in both sequences; the sequence conservation is 63%.     

Localisation of several chromosome I genes of Aspergillus nidulans: implications for mitotic recombination

Summary Another laboratory previously reported that the vast majority of mitotic recombinants in chromosome I disomics of Aspergillus nidulans arise from double exchange events involving the centromeric region and a far distal, possibly telomeric, region. This conclusion was based on the assumption that the camC gene is located in a position far distal to the centromere on the left arm of chromosome. I. As a left arm location for camC distal to the centromere was possibly in conflict with mapping data obtained in the context of an unrelated project, camC was partially mapped along with three other previously unlocated chromosome I genes, davA, ornD and uapA. The data presented here indicate that camC is located in a position far distal to the centromere but on the right arm of chromosome I, a conclusion also supported by the previous data. The positioning of uapA and camC in far distal locations on the right arm of chromosome I indicates the existence of a vast, otherwise nearly unmapped region on this chromosome arm.     

Characterization of phiA, a gene essential for phialide development in Aspergillus nidulans

We have previously identified genes and proteins involved in the fungal response to the Streptomyces-produced antibiotics, bafilomycin B1 and concanamycin A, known inhibitors of V-ATPases. Using mRNA differential display we identified an Aspergillus nidulans gene with 30-fold up-regulated expression in the presence of bafilomycin. This gene, here denoted phiA, and its gene product, were further characterized by targeted gene disruption and immunohistochemistry. Phenotypically, the phiA mutation resulted in reduced growth and severely reduced sporulation. The abnormality could be traced to the phialides, which divided several times instead of forming a single flask-shaped cell. The importance of phiA for phialide and conidium development was supported by immunohistochemistry experiments that showed the protein to be mainly present in these two cell types. Attempts to relate phiA to inhibition of V-ATPases did not result in unambiguous conclusions, but suggest the possibility that changed expression of phiA is correlated with growth arrest caused by inhibited V-ATPases.     

Allocation of random amplified polymorphic DNA markers and enzyme activities toAspergillus nidulans andAspergillus tetrazonus chromosomes

Chromosome-substituted haploid segregants of anA. nidulans × A. tetrazonus somatic hybrid were used to allocate several random amplified polymorphic DNA and isoenzyme markers to parental chromosomes. Twenty-six amplified DNA fragments, and nine isoenzyme activities, including lactate dehydrogenase, superoxide dismutase, and arylesterase isoenzymes were assigned to chromosomes. Chromosome-specific markers were found for eachA. nidulans andA. tetrazonus chromosome. These markers could be used to saturate the genetic map ofA. nidulans. The formation of two secondary metabolites was also assigned to chromosomes III and VIII. Attempts were made to allocate extracellular enzyme activities to parental chromosomes, mostly without success, possibly because multiple enzyme forms located on different chromosomes could be responsible for the production of an enzyme activity.     

A mutation affecting amdS expression in Aspergillus nidulans contains a triplication of a cis-acting regulatory sequence

Summary In Aspergillus nidulans expression of the acetamidase structural gene, amdS, is under the control of at least four regulatory genes including the trans-acting amdA regulatory gene. A cis-acting mutation (amdI66) consisting of an 18 by duplication in the 5 region of the amdS gene results in very high levels of acetamidase activity but only in strains carrying semi-dominant mutations in the amdA gene. In selecting for increased amdS expression in an amdI66 amdA ^– strain, an A. nidulans strain with a mutation in the 5 region of the amdS gene was isolated. The nucleotide sequence was determined of the region containing the mutation, designated amdI666. The mutant strain carries three tandem copies of the 18 by sequence that is duplicated in the amdI66 mutation. Thus, from a strain carrying a duplication of an apparent regulatory protein binding site with little effect on gene expression, a strain has been derived that carries a triplication of the site with consequent major effects on regulation. The multiple copies of regulatory sites present in many genes may have been generated by a similar mechanism.     

Synchronization of Anacystis nidulans

A new technique of short alternating lightdark periods was successfully used to synchronize the blue-green alga Anacystis nidulans. Oxygen evolution during the cell cycle is characterized by a maximum in the middle of the cycle and by a minimum at the time of division, a pattern very similar to that found in synchronized green algae.     

Transformation of Aspergillus nidulans with a cloned, oligomycin-resistant ATP synthase subunit 9 gene

Summary An allele (oliC31) of the A. nidulans oliC gene has been cloned using homology with the equivalent gene from N. crassa. OliC31 codes for an oligomycin-resistant, triethyltin-hypersensitive form of subunit 9 of the mitochondrial ATP synthase complex. Direct selection for oligomycin-resistance was possible following transformation of A. nidulans with the oliC31 gene. The phenotypes of transformants cultured in the presence of oligomycin were indicative of the position of integration of the transforming plasmid within the genome. Subsequent recombination events involving the integrated oliC31 gene were also apparent from altered levels of resistance to oligomycin or triethyltin. This gene should prove useful as a marker for transformation of strains lacking auxotrophic lesions and in gene replacement or disruption experiments.     

Cloning and molecular characterisation of the amdR controlled gatA gene of Aspergillus nidulans

Summary The gamma-amino-n-butyrate transaminase gene (gatA) of Aspergillus nidulans is one of several genes under positive control by the regulatory gene amdR (also called intA). The gatA gene has been cloned from a cosmid library by complementation of a gatA mutation. The sequence of a 2.6 kb genomic fragment containing gatA has been determined. An open reading frame of 1497 bp within this sequences is interrupted by three putative introns and predicts a protein of 55 kDa. Northern analysis confirms control of gatA RNA levels by amdR and also indicates that gatA is not strongly regulated by areA-mediated nitrogen metabolite repression. A. nidulans transformants containing multiple copies of a plasmid carrying an 88 bp fragment from the 5 untranscribed region of gatA grew poorly on substrates whose utilisation is dependent on genes controlled by amdR. This indicated titration of limiting amounts of the amdR gene product by this 88 bp fragment. Comparison of this sequence with the 5 region of the coregulated gene, amdS, reveals probable sites of action for the amdR protein.     

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.     

Ultrastructural analysis of conidiophore development in the fungusAspergillus nidulans using freeze-substitution

Summary Conidiation inAspergillus nidulans can be divided conveniently into five morphologically distinct stages. These are development of the conidiophore stalk, formation of the conidiophore vesicle, differentiation of metulae, differentiation of phialides, and production of conidia. The results presented here demonstrate that freeze-substitution fixation greatly facilitates the study of most of these stages. Ultrastructural features of vesicles, mitochondria, microtubules and nuclei were more easily resolved in freeze-substituted samples than in chemically fixed samples. In addition, certain structures and events simply not visible in chemically fixed samples were found routinely in freeze-substituted samples. Examples include Golgi bodies and multivesicular bodies and mitotic divisions associated with various stages of conidiation.Abbreviations C conidium - CI conidium initial - CV conidiophore vesicle - FC foot cell - GB Golgi body - M mitochondrion - ME metula - MT microtubule - MVB multivesicular body - N nucleus - PM plasma membrane - P phialide - RER rough endoplasmic reticulum - S spindle apparatus - SPB spindle pole body - V vacuole - W fungal wall - WB Woronin body     

Regulation of gene expression by pH of the growth medium in Aspergillus nidulans

Summary In the fungus Aspergillus nidulans the levels of a number of enzymes whose location is at least in part extracellular (e.g. acid phosphatase, alkaline phosphatase, phosphodiesterase) and of certain permeases (e.g. that for -amino-n-butyrate) are controlled by the pH of the growth medium. For example, at acidic pH, levels of acid phosphatase are high and those of alkaline phosphatase are low whereas at alkaline pH the reverse is true. Mutations in five genes, palA, B, C, E and F, mimic the effects of growth at acid pH whereas mutations in pacC mimic the effects of growth at alkaline pH. palA, B, C, E and F mutations result in an intracellular pH (pH_in) which is more alkaline than that of the wild type whereas pacC mutations result in a pH_in more acidic than that of the wild type. This indicates that these mutations exert their primary effects on the regulation of gene expression by pH rather than on the pH homeostatic mechanism but that the expression of at least some component(s) of the pH homeostatic mechanism is subject to the pH regulatory system. It is suggested that pacC might be a wide domain regulatory gene whose product acts positively in some cases (e.g. acid phosphatase) and negatively in others (e.g. alkaline phosphatase). The products of palA, B, C, E and F are proposed to be involved in a metabolic pathway leading to synthesis of an effector molecule able to prevent the (positive and negative) action of the pacC product.These genes are, to our knowledge, the first examples of genes involved in the regulation of extracellular enzyme and permease synthesis by the pH of the growth medium to be described in any organism.     

SuppressorssuaC 109 andsuaA 101 ofAspergillus nidulans alter the ribosomal phenotypein vitro

A new homologous, cell-free system for protein synthesis has been devised for use with ribosomes and elongation factors fromAspergillus nidulans. Ribosome preparations from strains with either the suaAlO1 orsuaCl09 mutations have a higher misreading ratio (non-cognate:cognate amino acid incorporation) in the presence of hygromycin than controls. They can be classed as fidelity mutants. These results also prove that the mutations must be in genes coding for ribosomal proteins or enzymes which modify ribosomal proteins post-translationally. Alternatively, the genes could code for translation factors.