A full length cDNA clone for the alkaline protease from Aspergillus oryzae: structural analysis and expression in Saccharomyces cerevisiae

Yeast extracellular proteases

Many species of yeast secrete significant amounts of protease(s). In this article, results of numerous surveys of yeast extracellular protease production have been compiled and inconsistencies in the data and limitations of the methodology have been examined. Regulation, purification, characterization, and processing of yeast extracellular proteases are reviewed. Results obtained from the sequences of cloned genes, especially the Saccharomyces cerevisiae Bar protease, the Candida albicans acid protease, and the Yarrowia lipolytica alkaline protease, have been emphasized. Biotechnological applications and the medical relevance of yeast extracellular proteases are covered. Yeast extracellular proteases have potential in beer and wine stabilization, and they probably contribute to pathogenicity of Candida spp. Yeast extracellular protease genes also provide secretion and processing signals for yeast expression systems designed for secretion of heterologous proteins. Coverage of the secretion of foreign proteases such as prochymosin, urokinase, and tissue plasminogen activator by yeast in included.

An Aspergillus fumigatus alkaline protease mutant constructed by gene disruption is deficient in extracellular elastase activity

Invasive pulmonary aspergillosis, usually caused by Aspergillus fumigatus, is a life-threatening condition of immunosuppressed patients. We have created a mutant strain of this fungus that lacks an extracellular alkaline protease (AFAlp). This was accomplished by transformation of A. fumigatus with a plasmid containing a selectable marker for hygromycin B resistance, and a 504 bp segment of the AFAlp gene, obtained by polymerase-chain-reaction-based amplification of A. fumigatus genomic DNA. Approximately 25% of transformants resulted from disruption of the AFAlp gene. SDS-polyacrylamide gel electrophoresis of proteins from the culture filtrate of a strain carrying the AFAlp gene disruption showed that it lacked a major protein of 33 kDa. Furthermore, in contrast to the culture filtrate from wild-type cells, the mutant had undetectable activity on azocollagen and elastin-Congo red, over a broad pH range. This shows that AFAlp accounts for most, if not all, of the extracellular elastinolytic activity of A. fumigatus, and that the mutant strain will be useful in assessing the role of AFAlp in pathogenicity.

Molecular cloning and regulatory analysis of the cuticle-degrading-protease structural gene from the entomopathogenic fungus Metarhizium anisopliae

The proteinaceous insect cuticle is an effective barrier against most microbes, but entomopathogenic fungi can breach it using extracellular proteases. We report here the isolation and characterization of a cDNA clone of the cuticle-degrading protease (Pr1) of Metarhizium anisopliae. The cDNA sequence revealed that Pr1 is synthesized as a large precursor (40.3 kDa) containing a signal peptide, a propeptide and the mature protein predicted to have a molecular mass of 28.6 kDa. The primary structure of Pr1 has extensive similarity with enzymes of the subtilisin subclass of serine endopeptidases and the serine, histidine and aspartate components of the active site in subtilisins are preserved. Proteinase K demonstrated the closest sequence similarity to Pr1 (61%) but Pr1 was twofold more effective than proteinase K at degrading isolated cuticles of Manduca sexta and 33-fold more effective at degrading structural proteins bound to the cuticle by covalent bonds. We postulate that the additional positively charged residues on the surface of the Pr1 molecule, as determined using proteinase K, may facilitate electrostatic binding to cuticle proteins which is a prerequisite for activity. Northern-blot analysis of RNA and nuclear run-on assays demonstrated transcriptional control of the expression of Pr1 during nutrient deprivation and during the formation of infection structures. Southern-blot analysis demonstrated that genes with significant homologies to Metarhizium Pr1 were present in the entomopathogens Aspergillus flavus and Verticillium lecanii but not Zoophthora (= Erynia) radicans.

Purification and properties of the elastase from Aspergillus fumigatus

Elastase, a potential virulence factor from the opportunistic pathogen Aspergillus fumigatus, was purified 220-fold from culture broth by fast-performance liquid chromatography employing anion exchange (Q Sepharose fast flow), cation exchange (S Sepharose fast flow), and gel filtration (Superose 12). Purified to near homogeneity, the elastase had an apparent molecular mass of 32 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (silver stain) but a mass of about 19.1 kDa as determined by gel filtration on Superdex 75. The elastase is not glycosylated and is positively charged at neutral pH, having a pI of 8.75. Inhibition by 0.2 mM phenylmethylsulfonyl fluoride (100%) and 0.21 mM leupeptin (60%) implies that the elastase is a serine protease. However, the enzyme is also inhibited by 5 mM EDTA (100%) and 10 mM 1,10-orthophenanthroline (30%), suggesting a requirement for divalent cations. The enzyme acts optimally at pH 7.4 and 45 degrees C in 50 mM sodium borate buffer, but in Tris HCl, the pH optimum shifts to 8.8.

Molecular cloning and sequencing of the gene for a halophilic alkaline serine protease (halolysin) from an unidentified halophilic archaea strain (172P1) and expression of the gene in Haloferax volcanii

The gene of a halophilic alkaline serine protease, halolysin, from an unidentified halophilic archaea (archaebacterium) was cloned and its nucleotide sequence was determined. The deduced amino acid sequence showed that halolysin consists of 411 amino acids, with a molecular weight of 41,963. The highest homology was found with thermitase from Thermoactinomyces vulgaris. Halolysin has a long C-terminal extension of approximately 120 amino acids which has not been found in other extracellular subtilisin type serine proteases. The gene, hly, was expressed in another halophilic archaea, Haloferax volcanii, in a medium containing 18% salts by using a plasmid shuttle vector which has a novobiocin resistance determinant as a selectable marker.

Nucleotide sequence and expression of the glucoamylase-encoding gene (glaA) from Aspergillus oryzae

The glucoamylase-encoding gene (glaA) from Aspergillus oryzae was cloned using its cDNA as a probe, which had been isolated previously. From comparison of nucleotide (nt) sequences of genomic clones with its cDNA, the glaA gene was found to contain four short putative introns, 45-56 nt in length. The A. oryzae glaA gene shared 62% homology at the nt level with the A. niger glaA gene with the four introns located at the same position. The 5'-flanking region contained a TATA box at nt-72 from the start codon, and two putative CAAT sequences at nt-87 and -331. Genomic Southern analysis and physical mapping showed that the glaA gene is located on the smallest chromosome (3.4 Mb) of six separated bands of chromosomes. Clones containing the glaA gene, when re-introduced intro A. oryzae, resulted in a three- to eightfold increase in glucoamylase activity.

Cloning and molecular characterization of the acetamidase-encoding gene (amdS) from Aspergillus oryzae

We have isolated an acetamidase-encoding gene (amdS) from Aspergillus oryzae by heterologous hybridization using the corresponding Aspergillus nidulans gene as a probe. The gene is located on a 3.5-kb SacI fragment and its nucleotide (nt) sequence was determined. Compared with the A. nidulans amdS gene, the coding region of A. oryzae gene consists of seven exons interrupted by six introns and encodes 545 amino acid (aa) residues. The deduced aa sequence has a high degree of homology with that of the A. nidulans acetamidase protein. Three introns (IVS-1, IVS-2, and IVS-4) exist at the same positions as those of A. nidulans amdS, whilst three additional introns (IVS-3, IVS-5, and IVS-6) are also present. There is no preference in its codon usage (G + C content in the third position of codons is 51%). Gene disruption experiments demonstrate that the resulting mutants show significantly reduced growth on acetamide-containing medium, indicating that the A. oryzae amdS gene encodes a functional acetamidase that is required for acetamide utilization. Transcriptional analysis by Northern blot reveals a 1.8-kb transcript in RNA extracted from mycelium grown in medium containing acetamide or acetate plus beta-alanine as the sole carbon and nitrogen sources.

Cloning and selective overexpression of an alkaline protease-encoding gene from Aspergillus oryzae

The gene alpA encoding Aspergillus oryzae alkaline protease (ALP) was isolated from a genomic library of an industrial strain used in Thailand by using oligodeoxyribonucleotide probes based on the published cDNA sequence [Tatsumi et al., Agric. Biol. Chem. 52 (1988) 1887-1888]. The entire nucleotide sequence of the genomic clone obtained was determined. By comparison with the published cDNA sequence, it was found that ALP is encoded by four exons of 314, 445, 89 and 351 bp. Three introns, which interrupt the coding sequence, are 50, 59 and 56 bp in length. The gene contains a typical TATA box 103 bp upstream from the start codon, and a consensus polyadenylation signal, AATAAA, 189 bp from the stop codon. The alpA gene, introduced into a protease deficient strain (A. oryzae U1638) by cotransformation, directed the secretion of enzymatically active ALP into the culture medium. Cotransformants of the high-level ALP-producing strain U212 containing multiple copies of the alpA gene were able to secrete up to five times more ALP than the parental strain.

Cloning and expression in yeast of a cDNA clone encoding Aspergillus oryzae neutral protease II, a unique metalloprotease

The neutral protease II (NpII) from Aspergillus oryzae is a zinc-containing metalloprotease with some unique properties. To elucidate its structure, we isolated a full-length cDNA clone for NpII. Sequence analysis reveals that NpII has a prepro region consisting of 175 amino acids preceding the mature region, which consists of 177 amino acids. As compared with other microbial metalloproteases, NpII is found to be unique in that it shares only a limited homology with them around two zinc ligand His residues and that the positions of the other zinc ligand (Glu) and the active site (His) cannot be established by homology. When a plasmid designed to express the prepro NpII cDNA was introduced into Saccharomyces cerevisiae and the transformant was cultured in YPD medium (2% glucose, 2% polypeptone, 1% yeast extract), it secreted a proNpII. However, in a culture of the same medium containing 0.2 mM ZnCl2, it secreted a mature NpII with a specific activity and N-terminus identical to those of native NpII. This observation suggests that either an autoproteolytic activity or a yeast protease effected the processing.

Cloning and nucleotide sequence of the genomic ribonuclease T2 gene (rntB) from Aspergillus oryzae

Using synthetic oligonucleotide probes, we have cloned a genomic DNA sequence encoding a ribonuclease (RNase) T2 gene (rntB) from Aspergillus oryzae on a 4.8 kb HindIII fragment. DNA sequence analysis of the RNase T2 revealed the following: (1) The gene is arranged as five exons and four introns; (2) The deduced amino acid sequence contains 239 amino acid residues of the mature enzyme. In addition, there exist 17 amino acid residues thought to be a signal peptide sequence at the N-terminus and 20 amino acid residues at the C-terminus; (3) The nucleotide sequence of the rntB gene is homologous to those of the RNase Rh gene from Rhizopus niveus and the S2 stylar glycoprotein gene of Nicotiana alata with degree of about 51% and 47%, respectively; (4) A. oryzae and A. nidulans transformed with the cloned rntB gene had much higher ribonuclease T2 activity than wild-type strains.

Proteolytic events in the processing of secreted proteins in fungi

Secreted heterologous proteins have been found to be produced much less efficiently by fungi than secreted homologous ones. This could be due, at least in part, to proteolytic cleavage by site-specific endoproteases of the secretory pathway, similar to the yeast KEX2 protease and the mammalian dibasic endoproteinases found in secretory pathways. Mature secreted fungal proteins may be protected from such cleavage due to the absence of cleavable sites in exposed regions. A comparison of the dipeptide distributions of 33 secreted and 34 cytoplasmic proteins from fungal producers of extracellular enzymes indicated a significant bias for some doublets, including the basic dipeptides Lys-Arg, Arg-Arg and Arg-Lys which have also been demonstrated to be KEX2 substrates. Other combinations were also found to be rare in secreted proteins, which could indicate either a broader specificity of the considered endopeptidase, or the presence either in the secretory organelles or among the secreted proteins of additional proteases with different specificities. Experimental evidence that the Lys-Arg site is processed in Tolypocladium geodes was provided by cloning a synthetic prosequence upstream of a phleomycin resistance (Sh ble) gene and analyzing the N-terminus of the corresponding protein purified from the culture supernatant. This system also provides a tool for further studies of specific proteases of fungi.