Development of antigen-delivery systems,based on the Escherichia coli hemolysin secretion pathway

We describe the development of plasmid vectors carrying the expression sites, an hlyA cassette and the secretion genes of Escherichia coli hemolysin. These allow the synthesis and secretion of heterologous microbial antigens in E. coli and attenuated Salmonella aroA strains. Genes or gene fragments encoding microbial antigens are inserted in-frame into a residual part of the hlyA gene which essentially encodes the HlyA secretion signal (HlyA₈). In general, the fused genes, carrying the hlyA_s sequence at the 3' terminus, are efficiently expressed, and the synthesized antigens are secreted into the culture supernatant of the producing strain. Attenuated Salmonella strains synthesizing either HlyA_s-fused listeriolysin or p60 of Listeria monocytogenes were constructed by this procedure and shown to provide protective immunity against L. monocytogenes in mice. The most effective protection was obtained when these microbial antigens were secreted by the attenuated Salmonella strains. We further present new approaches which may allow the application of this antigen-delivery system to any microbial antigen.     

Enhanced fluorescent properties of an OmpT site deleted mutant of Green Fluorescent Protein

Background  

The green fluorescent protein has revolutionized many areas of cell biology and biotechnology since it is widely used in determining gene expression and for localization of protein expression. Expression of recombinant GFP in E. coli K12 host from pBAD24M-GFP construct upon arabinose induction was significantly lower than that seen in E. coli B cells with higher expression at 30°C as compared to 37°C in E. coli K12 hosts. Since OmpT levels are higher at 37°C than at 30°C, it prompted us to modify the OmpT proteolytic sites of GFP and examine such an effect on GFP expression and fluorescence. Upon modification of one of the two putative OmpT cleavage sites of GFP, we observed several folds enhanced fluorescence of GFP as compared to unmodified GFPuv (Wild Type-WT). The western blot studies of the WT and the SDM II GFP mutant using anti-GFP antibody showed prominent degradation of GFP with negligible degradation in case of SDM II GFP mutant while no such degradation of GFP was seen for both the clones when expressed in BL21 cells. The SDM II GFP mutant also showed enhanced GFP fluorescence in other E. coli K12 OmpT hosts like E. coli JM109 and LE 392 in comparison to WT GFPuv. Inclusion of an OmpT inhibitor, like zinc with WT GFP lysate expressed from an E. coli K12 host was found to reduce degradation of GFP fluorescence by two fold.     

Utilization of Escherichia coli Outer-Membrane Endoprotease OmpT Variants as Processing Enzymes for Production of Peptides from Designer Fusion Proteins

Escherichia coli outer-membrane endoprotease OmpT has suitable properties for processing fusion proteins to produce peptides and proteins. However, utilization of this protease for such production has been restricted due to its generally low cleavage efficiency at Arg (or Lys)-Xaa, where Xaa is a nonbasic N-terminal amino acid of a target polypeptide. The objective of this study was to generate a specific and efficient OmpT protease and to utilize it as a processing enzyme for producing various peptides and proteins by converting its substrate specificity. Since OmpT Asp⁹⁷ is proposed to interact with the P1′ amino acid of its substrates, OmpT variants with variations at Asp⁹⁷ were constructed by replacing this amino acid with 19 natural amino acids to alter the cleavage specificity at Arg (P1)-Xaa (P1′). The variant OmpT that had a methionine at this position, but not the wild-type OmpT, efficiently cleaved a fusion protein containing the amino acid sequence -Arg-Arg-Arg-Ala-Arg↓motilin, in which motilin is a model peptide with a phenylalanine at the N terminus. The OmpT variants with leucine and histidine at position 97 were useful in releasing human adrenocorticotropic hormone (1-24) (serine at the N terminus) and human calcitonin precursor (cysteine at the N terminus), respectively, from fusion proteins. Motilin was produced by this method and was purified up to 99.0% by two chromatographic steps; the yield was 160 mg/liter of culture. Our novel method in which the OmpT variants are used could be employed for production of various peptides and proteins.     

Thrombin and H64A subtilisin cleavage of fusion proteins for preparation of human recombinant parathyroid hormone

Human parathyroid hormone, hPTH, an 84 amino acid polypeptide, was produced intracellularly inEscherichia coli as a fusion protein, linked to the C-terminus of a 15 kD IgG-binding protein. Approximately 100 mg fusion protein was obtained per liter fermentation medium. To test the efficiency of two alternative enzymatic cleavage methods, two fusion proteins differing only in the linker region were constructed. Cleavage of a Phe-Phe-Pro-Arg linker was obtained with bovine thrombin and cleavage of a Phe-Ala-His-Tyr linker with recombinant H64A subtilisin. Both enzmes yielded the correct N-terminus and cleaved their respective linkers quantitatively, although additional internal cleavage sites in hPTH were detected and characterized. The linker cleavage conditions were optimized and hPTH was purified to homogeneity. Thrombin cleavage resulted in a final yield of 5 mg hPTH/L, while H64A subtilisin cleavage was more specific and gave 8 mg/L. The purified recombinant product was identical to native hPTH and exhibited full biological activity in an adenylate cyclase assay.     

Hyperproduction of a recombinant fusion protein of Staphylococcus aureus V8 protease in Escherichia coli and its processing by OmpT protease to release an active V8 protease derivative

The expression of a recombinant fusion protein including Staphylococcus aureus V8 protease was studied by using Escherichia coli as the host strain. When the mature V8 protease was expressed as a fusion protein with a truncated E. coli \-galactosidase (\-gal97S4D), we could not obtain a sufficient amount of the enzyme because of the toxicity resulting from the expressed protease activity. Synthesis of V8 protease was increased by constructing a sandwich-type fusion protein consisting of \-gal197S4D, a V8 protease derivative with the 56 C-terminal amino acids deleted (V856) and a truncated aminoglycoside-3'-phosphotransferase. This fusion protein was successfully produced as inactive inclusion bodies. To release the V856 protease from the fusion protein, we developed a novel processing method using an endogeneous E. coli OmpT protease, which can recognize the dibasic amino acid residues located in the linker peptides of the fusion protein. After solubilizing the inclusion bodies with urea, the V856 protein was automatically released from the fusion protein by the OmpT protease, which was coprecipitated with the inclusion bodies. The V856 protease thus obtained showed the same enzymatic activity as that of the native V8 protease. We demonstrate in this study that the N-terminal prepro sequence and the C-terminal repeated sequence of this enzyme are not necessary for its enzymatic activity and protein folding.     

BPTI and N-terminal extended analogues generated by factor Xa cleavage and cathepsin C trimming of a fusion protein expressed in Escherichia coli

A recombinant gene for BPTI (bovine pancreatic trypsin inhibitor) is expressed in Escherichia coli using a MBP (maltose-binding protein) fusion vector. BPTI is fused through an FX_a (blood coagulation factor X_a protease) target sequence (Ile-Glu-Gly-Arg) to the C-terminus of MBP. The MBP moiety of the hybrid protein enables purification in one step utilizing MBP's affinity to cross-linked amylose, and the FX_a target sequence allows specific cleavage of the hybrid protein. Effective FX_a cleavage is achieved by spacing the FX_a target sequence and Arg-1 of the BPTI sequence with four residues (Met-Glu-Ala-Glu). The resulting N-terminal extended BPTI is readily converted to the wild-type sequence by trimming with cathepsin C exopeptidase, for the activity of which the spacing tetrapeptide is optimized. FX_a cleavage is prohibited when the target sequence is placed next to Arg-1. In this construction, off-target cleavage at a somewhat homologous sequence (Val-Pro-Gly-Arg) results in five- or six-residue extended BPTI, indicating new details of the FX_a specificity. The yield of highly purified recombinant BPTI is 3–6 mg/liter of culture, making the MBP-BPTI expression system convenient for the production of sufficient amounts of protein for NMR studies. ¹H NMR is used to analyze the N-extended BPTI analogues.     

Sequence specificity of Bacillus subtilis DNA gyrase in vivo

Linearization of pBG0 (a hydrid between Escherichia coli plasmid pBR322 and Staphylococcus aureus plasmid pUB110) was performed by lysis of the oxolinic acid treated Bacillus subtilis protoplasts with sodium dodecyl sulfate. This plasmid DNA linearization was used both for a detailed mapping of DNA gyrase cleavage sites of various strength and for the nucleotide sequence determinations at the points of gyrase-mediated scission by introducing the XhoI linker DNA. A total of 40 plasmids carrying inserted XhoI linker were sequenced by labeling 3' termini of XhoI sites; 38 of them were found to contain a duplication of four base-pairs of the plasmid sequence flanking the linker, which were characteristic of the oxolinic acid-induced DNA cleavage by E. coli DNA gyrase in vitro and in vivo. The relative strength of these sequenced sites was established by comparing their positions to the sites mapped on the appropriate plasmid genome. This allowed us to propose a consensus sequence of B. subtilis DNA gyrase in vivo cleavage site:GNAT GATCATNC% MathType!MTEF!2!1!+-% feaafeart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXafv3ySLgzGmvETj2BSbqefm0B1jxALjhiov2D% aebbfv3ySLgzGueE0jxyaibaiiYdd9qrFfea0dXdf9vqai-hEir8Ve% ea0de9qq-hbrpepeea0db9q8as0-LqLs-Jirpepeea0-as0Fb9pgea% 0lrP0xe9Fve9Fve9qapdbaqaaeGacaGaaiaabeqaamaabaabcaGcba% GaaeikaiaabsfacaqGPaGaaeiiaiaabccacaqGGaGaaeiiaiaabcca% caqGOaGaae4raiaabMcacaqGGaGaaeiiaiaabccacaqGGaGaaeiiai% aabccacaqGGaGaaeiiaiaabccacaqGGaGaaeiiaiaabccacaqGGaGa% aeiiaiaabccacaqGOaGaaeyqaiaabMcaaaa!4E92!\[{\rm{(T) (G) (A)}}\]where N is any nucleotide. The bases in parentheses were preferred secondarily. The involvement of DNA gyrase in illegitimate recombination events in Bacillus subtilis is discussed.     

Alkaline phosphatase which lacks its own signal sequence becomes enzymatically active when fused to N-terminal sequences of Escherichia coli haemolysin (HlyA)

Summary Fusion of the alkaline phosphatase gene (phoA) which lacks its own signal peptide sequence to the N-terminal region of hlyA, the structural gene for Escherichia coli haemolysin, leads to active alkaline phosphatase (AP). AP activity depends on the length of the N-terminal region of hlyA. An optimum is reached when 100–200 amino acids of HlyA are fused to PhoA but fusion of as little as 13 amino acids of HlyA to PhoA is sufficient to yield appreciable AP activity. When cells are treated with lysozyme most of the AP activity is found associated with the membrane fraction but a substantial amount is also found in the soluble fraction, most of which may represent, a periplasmic pool of AP. The soluble portion of AP activity is significantly increased when the cells are disrupted by ultrasonication, which indicates that the fusion proteins are only loosely associated with the membrane and that large parts are already located on the outside of the cytoplasmic membrane. The expected fusion proteins were identified in the soluble and the membrane fractions and their amounts in these fractions correlated well with AP activity.     

Construction of a dual-tag system for gene expression, protein affinity purification and fusion protein processing

An E. coli vector system was constructed which allows the expression of fusion genes via a l-rhamnose-inducible promotor. The corresponding fusion proteins consist of the maltose-binding protein and a His-tag sequence for affinity purification, the Saccharomyces cerevisiae Smt3 protein for protein processing by proteolytic cleavage and the protein of interest. The Smt3 gene was codon-optimized for expression in E. coli. In a second rhamnose-inducible vector, the S. cerevisiae Ulp1 protease gene for processing Smt3 fusion proteins was fused in the same way to maltose-binding protein and His-tag sequence but without the Smt3 gene. The enhanced green fluorescent protein (eGFP) was used as reporter and protein of interest. Both fusion proteins (MalE-6xHis-Smt3-eGFP and MalE-6xHis-Ulp1) were efficiently produced in E. coli and separately purified by amylose resin. After proteolytic cleavage the products were applied to a Ni-NTA column to remove protease and tags. Pure eGFP protein was obtained in the flow-through of the column in a yield of around 35% of the crude cell extract.     

Synthesis,Expression and Purification of a Type of Chlorotoxin-like Peptide from the Scorpion, <Emphasis Type="Italic">Buthus martensii</Emphasis> Karsch,and its Acute Toxicity Analysis

A gene, rBmK Cta, encoding a chlorotoxin-like peptide from the scorpion, Buthus martensii Karsch, was synthesized according to the sequence optimized for codon usage in Escherichia coli and was expressed in E.␣coli BL21 (DE3) using a pExSecI expression system in which the IgG-binding domain-ZZ of protein A is fused to the N-terminal of rBmK CTa. The fusion protein, ZZ-rBmK CTa, was expressed in soluble form (7.8 mg l⁻¹) and was purified to give a single band on SDS-PAGE. The domain-ZZ of fusion protein ZZ-rBmK CTa was removed by cleavage of an Asn–Gly peptide bond with hydroxylamine. The rBmK CTa was separated from the IgG-binding moiety by a second passage through the IgG affinity column. Western blot analysis demonstrated that this protein was rBmK CTa. Acute toxicity assay in mice demonstrated that the rBmK CTa had an LD₅₀ value of 4.3 mg kg⁻¹.     

Expression of an AT-rich xylanase gene from the anaerobic fungus <Emphasis Type="Italic">Orpinomyces</Emphasis> sp. strain PC-2 in and secretion of the heterologous enzyme by <Emphasis Type="Italic">Hypocrea jecorina</Emphasis>

The catalytic domain encoded by an adenine–thymine (AT)-rich xylanase gene (xynA) of the anaerobic fungus Orpinomyces was expressed in Hypocrea jecorina under the control of the cel7A promoter and terminator. No XynA protein was detected in H. jecorina culture supernatants when the original sequence was fused to the H. jecorina cel5A region coding for its signal peptide, carbohydrate-binding module, and hinge. Replacing the xynA (56% AT content) with a synthetic sequence containing lower AT content (39%) supported the extracellular production (150 mg l⁻¹) of the fusion xylanase by H. jecorina. Northern analysis revealed that successful production after the decrease in AT content was related to higher levels of the xylanase-specific mRNA. Another construct with an RDKR-coding sequence inserted between the cel5A linker and the xynA catalytic domain allowed production of the fully processed active xylanase catalytic domain. Both the fusion (40 kDa) and the fully processed (28 kDa) forms displayed enzymatic properties of family 11 xylanases. Both the R and the Kex2-like KR sites were recognized during secretion, resulting in a mixture of two amino termini for the 28-kDa xylanase. The work demonstrated for the first time that glycoside hydrolases derived from anaerobic fungi can be produced by H. jecorina. The mention of firm names or trade products does not imply that they are endorsed or recommended by the US Department of Agriculture over other firms or similar products not mentioned.     

Location of the ompT gene relative to that of appY on the physical map of the Escherichia coli chromosome

Results concerning the precise location of the ompT gene (encoding the outer membrane protease OmpT) on the Escherichia coli chromosome were obtained which disagree with published restriction sites in the gene. It is shown that the gene, together with appY, is present on a 3.075 PstI fragment, encompassing positions 596–598 of the E. coli physical map.     

The H1 histone variant of tomato, H1-S, is targeted to the nucleus and accumulates in chromatin in response to water-deficit stress

 Water deficit has a significant impact on patterns of gene expression. Based on the deduced amino acid sequence, it has been proposed that the drought and abscisic acid-induced gene (his1-s) of tomato (Lycopersicon esculentum Mill.) encodes an H1 histone variant. To study the role of H1-S it is important to understand the expression characteristics of the protein. To identify the his1-s product in vivo the his1-s cDNA was fused to a (His)₆ tag and overexpressed in Escherichiacoli. The H1-S fusion protein was used to generate an antibody that recognized a protein with an apparent molecular weight of 31 kDa that accumulates in response to water deficit in the whole plant and detached leaves. A time course of his1-s expression showed that protein accumulation is delayed compared to the mRNA accumulation in both the whole plant and detached leaves. Cellular fractionation, immunofluorescence and H1-S::β-glucuronidase fusion analyses in transgenic tissues were used to determine the cellular localization of H1-S. The results showed that H1-S accumulates in nuclei and is associated with chromatin of wilted tomato leaves. The drought- and abscisic acid-induced gene his1-s encodes a linker-histone subtype specifically accumulated in the nuclei and chromatin of tomato leaves subjected to water-deficit conditions. Although the molecular mechanism of H1-S function is still unclear, the expression characteristics of H1-S are consistent with a potential role of this protein in the regulation of gene expression in response to water deficit. Received: 1 October 1999 / Accepted: 3 December 1999     

Improvement of Posttranslational Bottlenecks in the Production of Penicillin Amidase in Recombinant Escherichiacoli Strains

Using periplasmic penicillin amidase (PA) from Escherichia coli ATCC 11105 as a model recombinant protein, we reviewed the posttranslational bottlenecks in its overexpression and undertook attempts to enhance its production in different recombinant E. coli expression hosts. Intracellular proteolytic degradation of the newly synthesized PA precursor and translocation through the plasma membrane were determined to be the main posttranslational processes limiting enzyme production. Rate constants for both intracellular proteolytic breakdown (k_d) and transport (k_t) were used as quantitative tools for selection of the appropriate host system and cultivation medium. The production of mature active PA was increased up to 10-fold when the protease-deficient strain E. coli BL21(DE3) was cultivated in medium without a proteinaceous substrate, as confirmed by a decrease in the sum of the constants k_d and k_t. The original signal sequence of pre-pro-PA was exchanged with the OmpT signal peptide sequence in order to increase translocation efficiency; the effects of this change varied in the different E. coli host strains. Furthermore, we established that simultaneous coexpression of the OmpT pac gene with some proteins of the Sec export machinery of the cell resulted in up to threefold-enhanced PA production. In parallel, we made efforts to increase PA flux via coexpression with the kil gene (killing protein). The primary effects of the kil gene were the release of PA into the extracellular medium and an approximately threefold increase in the total amount of PA produced per liter of bacterial culture.     

A conditional expression vector for the cyanobacteriaSynechocystis sp. strains PCC6803 and PCC6714 orSynechococcus sp. strains PCC7942 and PCC6301

An expression vector, pFC1, has been constructed based on the promiscuous plasmid RSF1010, which provides autonomous replication in several cyanobacteria of the generaSynechocystis andSynechococcus [Mermet-Bouvier et al., Curr Microbiol 26:323–327]. pFC1 harbors the cI857 repressor-encoding gene andp _R promoter, followed by the cro ribosome-binding site and ATG translation initiation codon. The latter is located within the uniqueNdeI restriction site (CATATG) of pFC1 and can be exposed after cleavage with this enzyme for in-frame fusion with the protein-coding sequence to be expressed. TheEscherichia coli lacZ reporter gene cloned in pFC1 appeared to be highly expressed in heat-inducedE. coli or cyanobacterial cells. In every case, -galactosidase amounted to at least 10% of soluble proteins.     

Omptin proteins: an expanding family of outer membrane proteases in Gram-negative Enterobacteriaceae (Review)

The Escherichia coli K-12 outer membrane protein OmpT is a prototype of a unique family of bacterial endopeptidases known as the omptins. This family includes OmpT and OmpP of E. coli, SopA of Shigella flexneri, PgtE of Salmonella enterica, and Pla of Yersinia pestis. Despite their sequence similarities, the omptins vary in their reported functions. The OmpT protease is characterized by narrow cleavage specificity defined by the extracellular loops of the β-barrel protruding above the lipid bilayer. It employs a distinct proteolytic mechanism that involves a histidine and an aspartate residue. Most of the omptin proteins have been implicated in bacterial pathogenesis. As a result, the omptins are potential targets for antimicrobial drug and vaccine development. This review summarizes recent developments in omptins structure and function, emphasizes their role in pathogenesis, proposes evolutionary relation among the existing omptins, and offers possible directions for future research.     

Activation of a Refolded, Berberine-specific, Single-chain Fv Fragment by Addition of Free Berberine

A single-chain variable fragment (scFv) specific for berberine was produced in Escherichia coli. The anti-berberine scFv gene was cloned from hybridoma 1D5-3B-7 producing the monoclonal antibody. The variable regions of the heavy (V_H) and light chain (V_L) genes were connected with a flexible linker using an assembly PCR. The V_H-linker-V_L gene was inserted into a plasmid, pET28a (+), then overexpressed in E. coli BL21 (DE3). The active of the scFv by refolding based on stepwise dialysis methods and an artificial chaperone was determined by direct and competitive enzyme-linked immunosorbent assay (ELISA). The results of direct ELISA showed that the anti-berberine scFv retained specific binding activity to berberine. In competitive ELISA, however, activity was increased depending on the concentration of berberine.     

Mini-TnhlyAs: a new tool for the construction of secreted fusion proteins

A simple and efficient procedure for the construction of secreted fusion proteins inEscherichia coli is described that uses a new minitransposon, termed TnhlyAs, carrying the secretion signal (HlyAs) ofE. coli hemolysin (HlyA). This transposon permits the generation of random gene fusions encoding proteins that carry the HlyAs at their C-termini. For the construction of model gene fusions we usedlacZ, encoding the cytoplasmic-galactosidase (-Gal), andphoA, encoding the periplasmic alkaline phosphatase, as target genes. Our data suggest that all-Gal-HlyAs fusion proteins generated are secreted, albeit with varying efficiencies, by the HlyB/HlyD/TolC hemolysin secretion machinery under Sec-proficient conditions. In contrast, the PhoA-HlyAs fusion proteins are efficiently secreted in asecA mutant strain only under SecA-deficient conditions.     

Expression of Antimicrobial Peptide (AMP), Cecropin B,in a Fused Form to SUMO Tag With or Without Three-Glycine Linker in Escherichia coli and Evaluation of Bacteriolytic Activity of the Purified AMP

Current antibiotics have limited action mode, which makes it difficult for the antibiotics dealing with the emergence of bacteria resisting the existing antibiotics. As a need for new bacteriolytic agents alternative to the antibiotics, AMPs have long been considered substitutes for the antibiotics. Cecropin B was expressed in a fusion form to six-histidine and SUMO tags in Escherichia coli. Six-histidine tag attached to SUMO was for purification of SUMO-cecropin B fusion proteins and removal of the SUMO tag from cecropin B. Chimeric gene was constructed into pKSEC1 vector that was designed to be functional in both Escherichia coli and chloroplast. To maximize translation of the fusion protein, sequences were codon-optimized. Four different constructs were tested for the level of expression and solubility, and the construct with a linker, 6xHisSUMO3xGly-cecropin B, showed the highest expression. In addition, cleavage of the SUMO tag by SUMOase in the three fusion constructs which have no linker sequence (3xGly, three glycines) was not as efficient as the construct with the linker between SUMO and cecropin B. The cleaved cecropin B showed bacteriolytic activity against Bacillus subtilis at a concentration of 0.0625 μg/μL, while cecropin B fused to SUMO had no activity at a higher concentration, 0.125 μg/μL. As an expression system for AMPs in prokaryotic hosts, the use of tag proteins and appropriate codon-optimization strategy can be employed and further genetic modification of the fusion construct should help the complete removal of the tag proteins from the AMP in the final step of purification.

     

Non-specific DNAases from the rumen bacteriumPrevotella bryantii

Extracellular non-specific nucleases were observed in some strains belonging to the ruminal species of the genusPrevotella, mostlyP. brevis andP. bryantii. The nuclease fromP. bryantii appeared to be extracellular; it mediates the degradation of the supercoiled plasmid DNAvia an open circle intermediate. The cleavage is not site specific although a preference for certain cleavage sites does seem to exist. Our attempts to clone the wild-typeP. bryantii B₁4 nuclease inE. coli strain ER1992 that reports on the DNA damage sustained, were unsuccessful probably due to excessive intracellular nuclease activity that killed the cells bearing the gene for the nuclease. On the other hand, the nuclease from a related strain TC1-1, which has a less active enzyme of the same type, was successfully cloned.