UPR-independent dithiothreitol stress-induced genes in Aspergillus niger.

A subtraction library was prepared from cultures of Aspergillus niger that had or had not been exposed to dithiothreitol (DTT), in order to identify genes involved in the unfolded protein response (UPR) or in the response to reductive stress. A large fraction of the clones in the library (40%) encoded two putative methyltransferases (MTs) whose function has yet to be determined. Other stress-responsive genes included a homologue of the Mn2+-containing superoxide dismutase gene (sodB) and a number of genes predicted to code for products that function in protein turnover and in intra- and extracellular transport of molecules. Transcriptional microarray analysis was carried out with a group of 15 genes, comprising 11 from the cDNA library, two genes linked to the putative MT genes but not represented in the library, and two UPR control genes (bipA and pdiA). Eleven of the 15 genes were inducible with DTT. This was either reflected by the presence of transcripts in cells subjected to DTT stress compared to absence under control conditions, or by an induction ratio of between 1.4 and 8.0 in cases where transcripts were already detectable under control conditions. The MT genes were among the four most highly induced. None of the genes, apart from bipA and pdiA, showed significant induction in response to other stresses that are known to induce the UPR in fungi. We conclude that DTT alone does not provide for specific induction of UPR genes and that other stress conditions must also be examined.

The role of the Aspergillus niger furin-type protease gene in processing of fungal proproteins and fusion proteins. Evidence for alternative processing of recombinant (fusion-) proteins.

We have characterized growth and protein processing characteristics of Aspergillus niger strains carrying a disrupted allele of the previously cloned and characterized kexB gene [Appl. Environ. Microbiol. 66 (2000) 363] encoding a furin-type endoprotease. Deletion of the single-copy gene confirms it to be non-essential but disruptant strains exhibit a morphologically distinct phenotype characterized by hyperbranching. Processing of homologous pro-proteins and fusion proteins comprised of a heterologous protein fused down-stream of glucoamylase and separated at the fusion junction by an endoproteolytic cleavage site was compared in wildtype and mutant strains of A. niger. We show that maturation of the native glucoamylase requires KexB, whereas maturation of aspergillopepsin does not. The processing of fusion proteins carrying Lys-Arg requires KexB, although alternative endoproteases are capable of cleaving protein fusions at sites adjacent to Lys-Arg.

Isolation and characterisation of a calnexin homologue, clxA, from Aspergillus niger.

We describe the isolation of a gene (clxA) encoding calnexin from laboratory and industrial strains of Aspergillus niger. Calnexin is a chaperone, which specifically recognises monoglucosylated glycoproteins in the endoplasmic reticulum, and is thus an essential component of the process that assesses the folded state of nascent secreted glycoproteins. Manipulation of chaperones has previously been adopted in attempts to overcome some of the problems associated with the secretion of heterologous proteins from filamentous fungi. The A. niger clxA gene encodes a 562-residue protein with strong homology to the calnexin of Schizosaccharomyces pombe. The clxAgene product complements a S. pombe cnx1 mutant. Motifs associated with genes controlled via the Unfolded Protein Response (UPR) were identified by sequence homology in the promoter of clxA. Steady-state levels of clxA mRNA were elevated in a strain expressing bovine prochymosin fused to the catalytic domain of glucoamylase. The ORF is punctuated by four introns, and contains two sets of four repeated peptide motifs that are characteristic of the calnexin family, together with a putative membrane-spanning domain. Deletion studies indicate that clxA is not an essential gene in A. niger.

A defined level of protein disulfide isomerase expression is required for optimal secretion of thaumatin by Aspegillus awamori.

Thaumatin, a 22-kDa protein containing eight disulfide bonds, is secreted by the filamentous fungus Aspergillus awamori at levels which are dependent upon the extent of overexpression of protein disulfide isomerase (PDIA). Additional copies of the PDIA-encoding gene pdiA were introduced into a strain of A. awamori that expresses a cassette encoding thaumatin. Transformants with different levels of pdiA mRNA and measured PDIA levels were chosen for examination of the impact that PDIA levels had on thaumatin secretion. The secretion of two native proteins, alpha-amylase and acid phosphatase, was also examined in relation to varying levels of PDIA. Over a range of PDIA levels of 1-8, relative to the native level in strains with just one copy of the pdiA gene, the fraction of alpha-amylase and acid phosphatase in the total secreted protein was unaffected. In contrast, a peak level of thaumatin, about 5-fold higher than in the strain with one copy of pdiA, was found in strains with a relative PDIA level of between two and four. Improved thaumatin production was confirmed in 5-1 fermenters using a strain of A. awamori with six pdiA gene copies, containing 3.2-fold higher levels of PDIA than wild-type strains.

Protein-glutaminase from Chryseobacterium proteolyticum, an enzyme that deamidates glutaminyl residues in proteins. Purification, characterization and gene cloning.

A novel protein-deamidating enzyme was purified to homogeneity from Chryseobacterium proteolyticum and the gene encoding it was cloned. The enzyme is a monomer with a pI of 10.0, a measured M(r) of approximately 20,000 and a calculated M(r) of 19,860. Extensive comparison with Streptoverticillium transglutaminase showed that the protein-deamidating enzyme lacked transglutaminase activity in terms of hydroxamate-formation between benzyloxycarbonyl-Gln-Gly and hydroxylamine, or monodansylcadaverine incorporation into casein. The enzyme deamidated the two glutaminyl residues in the oxidized insulin A chain and deamidated both casein and the oxidized insulin B chain with higher catalytic efficiencies (k(cat)/K(m)) than with short peptides. The enzyme was active against several proteins, including insoluble wheat gluten, but did not deamidate asparaginyl residues in peptides, free glutamine or other amides. The enzyme was therefore named protein-glutaminase (EC 3.5.1). The gene encoding the protein was cloned and, when expressed in Escherichia coli, the protein product had protein-glutaminase activity and cross-reacted with antiserum raised against the purified enzyme. The protein-glutaminase was shown to be expressed as a prepro-protein with a putative signal peptide of 21 amino acids and a pro-sequence of 114 amino acids. The amino-acid sequence had no obvious homology to any published sequence and is therefore a novel protein-glutaminase.

A glucoamylase::GFP gene fusion to study protein secretion by individual hyphae of Aspergillus niger.

Although Aspergillus niger is used as a host for heterologous protein production, yields are generally lower than those obtained for homologous proteins. Mechanisms of protein secretion and the secretory pathway in filamentous fungi are poorly characterised, although there is evidence to suggest that secretion occurs by a mechanism similar to that in other eukaryotes, but with proteins destined for secretion being directed to the hyphal tip. We report on a method using a glucoamylase: GFP gene fusion which allows us for the first time to monitor, in vivo, protein secretion in A. niger at the single hyphal level. A synthetic green fluorescent protein (sGFP(S65T)) was fused to truncated A. niger glucoamylase (GLA:499). Southern blot analysis of transformants confirmed that the gene fusion had successfully integrated into the A. niger genome. Confocal and fluorescence microscopy revealed that the GLA::GFP fusion protein is fluorescent in A. niger and appears to be directed to the hyphal tip. In young mycelia, hyphal cell wall fluorescence is apparent and immunogold labelling of GFP confirmed that GFP was partially localised within the hyphal cell wall. Using Western blotting, extracellular GLA::GFP was detected only in culture filtrates of young mycelia grown in a soya milk medium. The actin inhibitor latrunculin B was used to disrupt the secretion process, and its effects on the distribution of GLA::GFP were monitored.

Characterization of a foldase, protein disulfide isomerase A, in the protein secretory pathway of Aspergillus niger.

Protein disulfide isomerase (PDI) is important in assisting the folding and maturation of secretory proteins in eukaryotes. A gene, pdiA, encoding PDIA was previously isolated from Aspergillus niger, and we report its functional characterization here. Functional analysis of PDIA showed that it catalyzes the refolding of denatured and reduced RNase A. pdiA also complemented PDI function in a Saccharomyces cerevisiae Deltapdi1 mutant in a yeast-based killer toxin assay. Levels of pdiA mRNA and PDIA protein were raised by the accumulation of unfolded proteins in the endoplasmic reticulum. This response of pdiA mRNA levels was slower and lower in magnitude than that of A. niger bipA, suggesting that the induction of pdiA is not part of the primary stress response. An increased level of pdiA transcripts was also observed in two A. niger strains overproducing a heterologous protein, hen egg white lysozyme (HEWL). Although overexpression of PDI has been successful in increasing yields of some heterologous proteins in S. cerevisiae, overexpression of PDIA did not increase secreted yields of HEWL in A. niger, suggesting that PDIA itself is not limiting for secretion of this protein. Downregulation of pdiA by antisense mRNA reduced the levels of microsomal PDIA activity by up to 50%, lowered the level of PDIA as judged by Western blots, and lowered the secreted levels of glucoamylase by 60 to 70%.

Effect of pH on hen egg white lysozyme production and evolution of a recombinant strain of Aspergillus niger.

An Aspergillus niger strain (B1) transformed to produce mature hen egg white lysozyme (HEWL) from a glucoamylase fusion protein under control of the A. niger glucoamylase promoter was grown in glucose-limited chemostat culture at a dilution rate of 0.07 h-1 at various pH values. Maximum HEWL production (9.3 mg g-1; specific production rate = 0.65 mg g-1 per h) was obtained at pH 4.5. However, in chemostat culture, HEWL production was not stable at any pH tested. After 240 h in steady state, specific production decreased to only 0.03 +/- 0.01 and 0.24 +/- 0.02 mg g-1 per h at pH 6.5 and 4.5, respectively. Some isolates removed from the chemostat cultures had lost copies of the HEWL gene and when grown in shake flask cultures all of the isolates produced less HEWL than the parental strain. Morphological mutants with similar phenotypes were isolated at all pHs, but their rate of increase in the population was pH dependent, with cultures at low pH (< 4.5) being more morphologically stable than cultures at high (> 4.5) pH. The selective advantage of these mutants was also generally dependent on pH. Both yellow pigment producing mutants and brown sporulation mutants had higher selective advantages over the parental strain at high than at low pH, regardless of the pH at which they were isolated. However, the selective advantage of densely sporulating mutants was independent of pH.

Expression, purification, and characterization of the recombinant calcium-binding equine lysozyme secreted by the filamentous fungus Aspergillus niger: comparisons with the production of hen and human lysozymes.

Equine lysozyme (EqL) has been expressed from a synthetic gene and secreted from a heterologous host, the filamentous fungus Aspergillus niger. By including 100 mM Ca2+ in the growth medium, secreted yields of more than 50 mg/liter could be achieved using polyvinylpyrrolidone (PVP) complete medium. In a soya medium yields of up to 150 mg/liter were achieved. The production of recombinant human lysozyme (HuL) from A. niger with yields of over 40 mg/liter was also achieved using PVP medium. Addition of Ca2+ to the growth medium reduced the yield of both HuL and hen egg white lysozyme (HEWL). Sequence differences between the three lysozymes, EqL, HuL, and HEWL, resulted in different susceptibilities to cleavage by A. niger proteases. An improved procedure for the purification of EqL and HuL from A. niger allowed separation of the proteins from pigments produced by the fungus. Detailed spectroscopic analysis, including 2D 1H NMR, for recombinant EqL and recombinant HuL confirm that both proteins possess their native structure and are purified to homogeneity.

Homologs of aflatoxin biosynthesis genes and sequence of aflR in Aspergillus oryzae and Aspergillus sojae.

The presence, but not expression, of homologs of three structural genes and a regulatory gene necessary for aflatoxin biosynthesis in Aspergillus parasiticus and A. flavus was shown for A. oryzae and A. sojae. Homologs of the regulatory gene aflR were cloned and sequenced from A. oryzae and A. sojae.

Determinants of the fidelity of processing glucoamylase-lysozyme fusions by Aspergillus niger.

Fusion proteins are used to enhance the yields of heterologous proteins secreted from filamentous fungi. In Aspergillus niger, the target protein is normally fused downstream of the carrier protein glucoamylase with a Lys-Arg KEX2-like cleavage site at the junction. This is cleaved in vivo to release mature protein but the processing is not always accurate. We have used N-terminal mutant lysozymes to vary the sequence immediately downstream of the KEX site, and also varied the amino acid sequence upstream of the KEX processing site, to study the fidelity of processing. The sequences both upstream and downstream of the KEX2 site affected the fidelity of cleavage. With some constructs, a range of processing sites were apparent and the relative proportions were time dependent in batch cultures of A. niger. Aberrant processing was related to the secondary-structure preferences of the amino acids in and around the KEX site. Downstream of the processing site, the fidelity of processing decreased in proportion to the tendency for helix formation.

Isolation and characterisation of a novel stress-inducible PDI-family gene from Aspergillus niger.

Current strategies to improve the secretion of heterologous proteins in Aspergillus niger include the manipulation of chaperones and foldases specific to the endoplasmic reticulum (ER). A family of ER-specific proteins which share active-site homology wit protein disulfide isomerase (PDI) has been identified from other systems, many of which are inducible by agents which cause malfolding of proteins in the ER. Here we report identification of tigA from Aspergillus niger and erp38 from Neurospora crassa, two novel members of the PDI superfamily of proteins. TIGA and ERp38 show 66% identity at the amino acid level and are putative ER proteins. Both proteins show tandemly linked thiol-oxidoreductase domains followed by a functionally uncharacterised C-terminal domain. The most distal active site in TIGA is created by excision of a 66-bp intron. Although no Unfolded Protein Response elements can be seen in the tigA promoter, sequence homology has identified associated with protein trafficking (ERPTRE) in a gene encoding the related mammalian protein, ERp72, as well as a second motif conserved amongst the glucose-related protein family. Southern and dot blot analysis indicate that the tigA gene is present in single copy. Both the A. niger and N. crassa proteins show homology with a stress-inducible alfalfa, G1. Transcription of tigA is induced 2-3-fold after treatment with tunicamycin, an inhibitor of N-linked glycosylation. Strains overexpressing a heterologous protein show no increased tigA mRNA levels.

Isolation and characterisation of a gene encoding protein disulphide isomerase, pdiA, from Aspergillus niger.

Current strategies to improve the secretion of heterologous proteins from Aspergillus niger include the manipulation of chaperones and foldases specific to the endoplasmic reticulum (ER). Here we report the isolation of a gene, pdiA, encoding a putative protein disulphide isomerase (PDI) from A. niger using the Saccharomyces cerevisiae PDI gene as a probe. Sequencing of a genomic clone and RT-PCR products predict a 515-aa protein comprising a 20-aa ER-translocation signal sequence and a 495-aa mature protein (Mr = 54.3 kDa). The predicted protein also contains two thiol oxidoreductase active sites with a -CGHC- motif and a carboxy terminal -HDEL ER-retention signal. Three introns were identified within the pdiA gene and Southern- and dot-blot analysis indicates that the gene is present in a single copy. Northern-blot analysis shows a transcript of the predicted size. Sequence homology to a motif associated with protein trafficking and the induction of chaperones has been identified in the pdiA promoter. Transcription of pdiA is induced 3-4-fold after treatment with tunicamycin, an inhibitor of N-linked glycosylation. The kinetics of induction suggest that pdiA expression is not part of the primary stress response.

Structural determinants of protein dynamics: analysis of 15N NMR relaxation measurements for main-chain and side-chain nuclei of hen egg white lysozyme.

15N-labeled hen lysozyme has been studied by 2D and 3D NMR in order to characterize its dynamic behavior. The resonances of all main-chain amide nitrogen atoms were assigned, as were resonances of nitrogen atoms in 28 side chains. Relaxation measurements for the main-chain and arginine and tryptophan side-chain 15N nuclei used standard methods, and those for the 15N nuclei of asparagine and glutamine side chains used pulse sequences designed to remove unwanted relaxation pathways in the NH2 groups. The calculated order parameters (S2) show that the majority of main-chain amides undergo only small amplitude librational motions on a fast time scale (S2 > or = 0.8). Increased main-chain motion (0.5 < S2 < 0.8) is observed for a total of 19 residues located at the C-terminus, in loop and turn regions, and in the first strand of the main beta-sheet. Order parameters derived for the side chains range from 0.05 to 0.9; five of the six tryptophan residues have high order parameters (S2 > or = 0.8), consistent with their location in the closely packed core of the protein, whereas the order parameters between 0.05 and 0.3 for arginine residues confirm increased side-chain mobility at the protein surface. Order parameters for the side chains of asparagine and glutamine residues range from 0.2 to 0.8; high values are found for side chains that have low solvent accessible surfaces and well-defined chi 1 values, as measured by 3J alpha beta coupling constants. Many of the main-chain and side-chain groups with low order parameters have higher than average temperature factors in X-ray crystal structures and increased positional uncertainty in NMR solution structures. They also tend to lack persistent hydrogen bond interactions and protection against amide hydrogen exchange. The most significant correlations are found between residues with low order parameters and high surface accessibility in both crystal and solution structures. The results suggest that a lack of van der Waals contacts is a major determinant of side-chain and main-chain mobility in proteins.

Crystal structure of the mutant D52S hen egg white lysozyme with an oligosaccharide product.

The crystal structure of a mutant hen egg white lysozyme, in which the key catalytic residue aspartic acid 52 has been changed to a serine residue (D52S HEWL), has been determined and refined to a crystallographic R value of 0.173 for all data F > 0 between 8 and 1.9 A resolution. The D52S HEWL structure is very similar to the native HEWL structure (r.m.s. deviation of main-chain atoms 0.20 A). Small shifts that result from the change in hydrogen bonding pattern on substitution of Asp by Ser were observed in the loop between beta-strands in the region of residues 46 to 49. D52S HEWL exhibits less than 1% activity against the bacterial cell wall substrate. Cocrystallisation experiments with the hexasaccharide substrate beta(1-4) polymer of N-acetyl-D-glucosamine (GlcNAc6) resulted in crystals between 5 days and 14 days after the initial mixing of enzyme and substrate. Analysis by laser absorption mass spectrometry of the oligosaccharides present after incubation with native and D52S HEWL under conditions similar to those used for crystal growth showed that after 14 days with native HEWL complete catalysis to GlcNAc3. GlcNAc2 and GlcNac had occurred but with D52S HEWL only partial catalysis to the major products GlcNAc4 and GlcNAc2 had occurred and at least 50% of the GlcNAc6 remained intact. X-ray analysis of the D52S-oligosaccharide complex crystals showed that they contained the product GlcNAc4. The structure of the D52S HEWL-GlcNAc4 complex has been determined and refined to an R value of 0.160 for data between 8 and 2 A resolution. GlcNAc4 occupies sites A to D in the active site cleft. Careful refinement and examination of 2Fo-Fc electron density maps showed that the sugar in site D has the sofa conformation, a conformation previously observed with the HEWL complex with tetra-N-acetylglucosamine lactone transition state analogue, the HEWL complex with the cell wall trisaccharide and the phage T4 lysozyme complex with a cell wall product. The semi-axial C(5)-C(6) geometry of the sofa is stabilised by hydrogen bonds from the O-6 hydroxyl group to the main-chain N of Val109 and main-chain O of Ala107. The sugar in site D adopts the alpha configuration, seemingly in conflict with the observation that the hydrolysis of beta (1-4) glycosidie linkage by HEWL proceeds with 99.9% retention of beta-configuration.(ABSTRACT TRUNCATED AT 400 WORDS)

Transcriptional and post-transcriptional events affect the production of secreted hen egg white lysozyme by Aspergillus niger.

The relationship between heterologous gene copy number, mRNA and secreted protein yields has been studied in Aspergillus niger transformants containing either the hen egg-white lysozyme (HEWL) cDNA gene or a glucoamylase-HEWL gene fusion (incorporating the A. niger glaA gene). The results support a direct relationship between HEWL gene copy number, mRNA and secreted HEWL protein levels at low (< 25) copy numbers. High protein yields are associated with multiple copies of the recombinant gene at a single site. Fusion of the HEWL gene to the glucoamylase gene resulted in higher steady-state levels of heterologous mRNA. Transformants with the HEWL cDNA alone exhibited a ten-fold higher mRNA:protein ratio than transformants with the gene fusion indicating that post-transcriptional events significantly affect final secreted protein yields.

Physiological optimization of secreted protein production by Aspergillus niger.

Physiological factors affecting hen eggwhite lysozyme and native glucoamylase production by Aspergillus niger have been examined in batch culture. Expression of the genes encoding both proteins was controlled by the glucoamylase promoter. In standard expression medium (ACMS/N/P), secreted lysozyme yields were found to be maximal at 20-25 degrees C (8-10 mg l-1) and markedly reduced at 30-37 degrees C (3-5 mg l-1). Production of lysozyme exhibited similar induction or repression profiles to that of endogenous glucoamylase such that secreted lysozyme yields could be ordered with respect to growth on the following carbon sources: soluble starch > maltose > glucose >> xylose. Significantly higher yields of up to 30-60 mg l-1 were obtained in a richer medium containing soya milk, although in contrast to growth in ACMS/N/P, the highest levels of secreted lysozyme were achieved at 37 degrees C. This improvement is attributed partly to an increase in culture biomass concentration and to a reduction in medium acidification. Growth in this medium produced a markedly different pellet morphology.

A pyruvate decarboxylase gene from Aspergillus parasiticus.

A gene encoding a putative pyruvate decarboxylase (EC 4.1.1.1) was isolated from a genomic library of the filamentous fungus Aspergillus parasiticus strain SU-1. The deduced amino acid sequence showed 37% homology to PDC1 from Saccharomyces cerevisiae. Although A. parasiticus has an obligate growth requirement for oxygen, it produced ethanol in shake flask cultures indicating a response to anoxic conditions mediated by pyruvate decarboxylase.

Strategies for improving heterologous protein production from filamentous fungi.

Despite the naturally high capacity for protein secretion by many species of filamentous fungi, secreted yields of many heterologous proteins have been comparatively low. The strategies for yield improvement have included the use of strong homologous promoters, increased gene copy number, gene fusions with a gene encoding a naturally well-secreted protein, protease-deficient host strains and screening for high yields following random mutagenesis. Such approaches have been effective with some target heterologous proteins but not others. Approaches used in heterologous protein production from filamentous fungi are discussed and a perspective on emerging strategies is presented.