Expression ofEscherichia coliPhoE protein in avirulentSalmonella typhimurium aroAandgalEstrains

Characterization of Salmonella typhi OmpC and OmpF porins engineered with HIV-gp41 epitope on the surface loops

Porins form trimers in the outer membrane and help transport nutrients and waste products across the bacterial cell membrane. Porin loops are suitable candidates as display systems due to their high immunogenicity and presentation at the bacterial cell surface. In this study, Salmonella typhi porins (OmpC and OmpF) engineered with the Kennedy peptide from gp41 of HIV were characterised. The chimeric OmpC carrying the Kennedy peptide in loop7 did not trimerise, whereas the chimeric OmpF with the epitope in loop5 formed trimers and also was recognised by the antibodies in the HIV patient serum. The results suggest that chimeric S. typhi OmpF may be taken further as a potential candidate to develop as an epitope display system. Proteins 2017; 85:657-664. © 2016 Wiley Periodicals, Inc.

Display of proteins on bacteria

Display of heterologous proteins on the surface of microorganisms, enabled by means of recombinant DNA technology, has become an increasingly used strategy in various applications in microbiology, biotechnology and vaccinology. Gram-negative, Gram-positive bacteria, viruses and phages are all being investigated in such applications. This review will focus on the bacterial display systems and applications. Live bacterial vaccine delivery vehicles are being developed through the surface display of foreign antigens on the bacterial surfaces. In this field, 'second generation' vaccine delivery vehicles are at present being generated by the addition of mucosal targeting signals, through co-display of adhesins, in order to achieve targeting of the live bacteria to immunoreactive sites to thereby increase immune responses. Engineered bacteria are further being evaluated as novel microbial biocatalysts with heterologous enzymes immobilized as surface exposed on the bacterial cell surface. A discussion has started whether bacteria can find use as new types of whole-cell diagnostic devices since single-chain antibodies and other type of tailor-made binding proteins can be displayed on bacteria. Bacteria with increased binding capacity for certain metal ions can be created and potential environmental or biosensor applications for such recombinant bacteria as biosorbents are being discussed. Certain bacteria have also been employed for display of various poly-peptide libraries for use as devices in in vitro selection applications. Through various selection principles, individual clones with desired properties can be selected from such libraries. This article explains the basic principles of the different bacterial display systems, and discusses current uses and possible future trends of these emerging technologies.

Activation by gene amplification of pitB, encoding a third phosphate transporter of Escherichia coli K-12

Two systems for the uptake of inorganic phosphate (P(i)) in Escherichia coli, PitA and Pst, have been described. A revertant of a pitA pstS double mutant that could grow on P(i) was isolated. We demonstrate that the expression of a new P(i) transporter, PitB, is activated in this strain by a gene amplification event.

Autoamplification of a two-component regulatory system results in "learning" behavior

We have tested the hypothesis that the autoamplification of two-component regulatory systems results in "learning" behavior, i.e., that bacteria respond faster or more extensively to a signal when a similar signal has been perceived in the past. Indeed, the induction of alkaline phosphatase activity upon phosphate limitation was faster if the cultures had been limited for phosphate previously, and this faster response correlated with the autoamplification of the cognate two-component system.

Role of the carboxy-terminal phenylalanine in the biogenesis of outer membrane protein PhoE of Escherichia coli K-12

Most bacterial outer membrane proteins contain a phenylalanine at their C terminus. It has been shown that this residue has an important role in the efficient and correct assembly of PhoE protein into the Escherichia coli outer membrane, since its substitution or deletion resulted in the accumulation of trypsin-sensitive monomers of this normally trimeric protein. Here, the role of the C-terminal Phe in the assembly of PhoE was studied in further detail. Immunocytochemical labelling on ultrathin cryosections revealed that a mutant PhoE protein that lacks the C-terminal Phe accumulates in the periplasm. However, when the expression levels of the altered species were reduced, the efficiency of outer membrane incorporation was increased and the lethal effects were alleviated. The role of the C-terminal Phe in protein folding, trimerization and outer membrane incorporation was further studied in vitro. Deletion of this residue interfered with the efficiency of the formation of an assembly-competent folded monomer, and the stability of this PhoE form was affected. The in vitro trimerization and insertion into outer membranes were not affected by the mutation.

Induction of the phoE promoter upon invasion of Salmonella typhimurium into eukaryotic cells

Live attenuated Salmonella typhimurium strains expressing foreign antigens can be used for vaccination purposes. Due to deleterious effects of constitutive, high-level expression of the heterologous antigens, there is often strong selection pressure against plasmids encoding these antigens, resulting in rapid segregation in vivo. In vivo-inducible promoters may be a good alternative for constitutive promoters. The outer membrane protein PhoE of Escherichia coli is being used as a carrier for foreign antigenic determinants. Here we studied whether its expression from a plasmid is induced in S. typhimurium upon invasion of eukaryotic cells. This appeared to be the case. Furthermore, a S. typhimurium phoE mutant was constructed and the effects of the mutation on invasion, intracellular survival and virulence were studied. Survival in HEp-2 cells or in the macrophage-like cell line J744 was not, or only slightly, affected. Furthermore, the mutant appeared to be as virulent for mice as the wild-type strain.

The pho regulon of Shigella flexneri

Growth of Escherichia coli K-12 in low-phosphate conditions results in the induction of the synthesis of many proteins, including the outer membrane porin PhoE, alkaline phosphatase, and the Pst system for the transport of phosphate (P1). This response is controlled by a two-component regulatory system of which PhoB and PhoR are the response-regulator and the sensor/kinase, respectively. When Shigella flexneri was starved for P1, neither PhoE nor alkaline phosphatase was produced. However, induction of the synthesis of the PstS protein was observed, indicating that S. flexneri contains a functional PhoB/PhoR regulatory system. Consistent with this notion, the introduction of the E. coli phoA gene in S. flexneri resulted in the induction of alkaline phosphatase synthesis under phosphate limitation. However, introduction of phoE on a plasmid did not lead to the expression of PhoE protein, indicating that S. flexneri PhoB does not recognize the phoE promoter region. The phoB gene was cloned and sequenced and in the deduced amino acid sequence two deviations from that of E. coli PhoB were detected. Site-directed mutagenesis revealed that one of these deviations, i.e. Leu-172, which is Arg in E. coli PhoB, is responsible for the lack of expression of the PhoE protein in S. flexneri.

Construction of phoE-caa, a novel PCR- and immunologically detectable marker gene for Pseudomonas putida

In this paper we describe the construction and use in Pseudomonas putida WCS358 of phoE-caa, a novel hybrid marker gene, which allows monitoring both at the protein level by immunological methods and at the DNA level by PCR. The marker is based on the Escherichia coli outer membrane protein gene phoE and 75 bp of E. coli caa, which encode a nonbacteriocinic fragment of colicin A. This fragment contains an epitope which is recognized by monoclonal antibody (MAb) 1C11. As the epitope is contained in one of the cell surface-exposed loops of PhoE, whole cells of bacteria expressing the protein can be detected by using the MAb. The marker gene contains only E. coli sequences not coding for toxins and therefore can be considered environmentally safe. The hybrid PhoE-ColA protein was expressed in E. coli under conditions of phosphate starvation, and single cells could be detected by immunofluorescence microscopy with MAb 1C11. Using a wide-host-range vector the phoE-caa gene was introduced into P. putida WCS358. The gene appeared to be expressed under phosphate limitation in this species, and the gene product was present in the membrane fraction and reacted with MAb 1C11. The hybrid PhoE-ColA protein could be detected on whole cells of WCS358 mutant strains lacking (part of) the O-antigen of the lipopolysaccharide but not on wild-type WCS358 cells, unless these cells had previously been washed with 10 mM EDTA. In addition to immunodetection, the phoE-caa marker gene could be specifically detected by PCR with one primer directed to a part of the phoE sequence and a second primer that annealed to the caa insert.

Effect of mutations in the -10 region of the phoE promoter in Escherichia coli on regulation of gene expression

The phoE promoter region in Escherichia coli contains a -10 region, typical of sigma 70-dependent promoters and, instead of a normal -35 region, a so-called pho box, to which the transcriptional activator phospho-PhoB binds under low phosphate conditions. A second pho box is present upstream of the first one and is required for full expression of phoE during phosphate starvation. To determine whether the lack of expression under high phosphate conditions is due solely to the absence of a genuine -35 box, the -10 region was further optimized towards the consensus -10 sequence and promoter activity was measured using alkaline phosphatase as a reporter. The mutations resulted in a drastic increment in the basal level of expression under high phosphate conditions, indicating that the deviations from consensus in the -10 region also play a role in determining the poor expression of the wild-type promoter under these conditions. The expression under high phosphate conditions was partly dependent on the presence of the phoB gene, showing that a small amount of active PhoB must be present under these circumstances. During phosphate starvation, the activity of the mutant promoters was further induced. The upstream pho box was not required for full expression from the mutant promoters under these conditions. Apparently, the wild-type phoE promoter is carefully balanced by deviations from the optimal Pribnow box sequence that reduce expression under high phosphate conditions and by the presence of several copies of the pho box, which enhance expression under phosphate starvation.

Immunogenicity of a mycobacterial T-cell epitope expressed in outer membrane protein PhoE of Escherichia coli

The outer membrane protein PhoE of Escherichia coli can be used for the expression of foreign antigenic determinants. Previously, a T-cell epitope of the 65 kDa heat shock protein (hsp65) of Mycobacterium tuberculosis, comprising amino acids 180 to 188, was expressed in PhoE. The hybrid protein induced proliferation of epitope-specific T-cell clones in vitro. In this report, the potential of the hybrid protein to induce an in vivo T-cell response against the 180-188 T-cell epitope was assessed. Popliteal lymph node cells, isolated from rats immunized with PhoE containing the hsp65 epitope, showed high proliferative responses to a synthetic peptide consisting of amino acids 180 to 188 of hsp65, indicating that the epitope is immunogenic in the PhoE-associated conformation.

Molecular characterization of enterobacterial pldA genes encoding outer membrane phospholipase A

The pldA gene of Escherichia coli encodes an outer membrane phospholipase A. A strain carrying the most commonly used mutant pldA allele appeared to express a correctly assembled PldA protein in the outer membrane. Nucleotide sequence analysis revealed that the only difference between the wild type and the mutant is the replacement of the serine residue in position 152 by phenylalanine. Since mutants that lack the pldA gene were normally viable under laboratory conditions and had no apparent phenotype except for the lack of outer membrane phospholipase activity, the exact role of the enzyme remains unknown. Nevertheless, the enzyme seems to be important for the bacteria, since Western blotting (immunoblotting) and enzyme assays showed that it is widely spread among species of the family Enterobacteriaceae. To characterize the PldA protein further, the pldA genes of Salmonella typhimurium, Klebsiella pneumoniae, and Proteus vulgaris were cloned and sequenced. The cloned genes were expressed in E. coli, and their gene products were enzymatically active. Comparison of the predicted PldA primary structures with that of E. coli PldA revealed a high degree of homology, with 79% of the amino acid residues being identical in all four proteins. Implications of the sequence comparison for the structure and the structure-function relationship of PldA protein are discussed.

PhoE protein as a carrier for foreign epitopes

Outer membrane protein PhoE of E. coli appears to be a suitable carrier for the expression of foreign antigenic determinants at the bacterial cell-surface. Insertion of stretches of amino acids in the cell-surface exposed regions of PhoE does not interfere with the biogenesis of the protein. Dependent on the cell-surface exposed loop used for insertion and the character of the inserted amino acids up to 50 amino acids could be inserted. Both B-cell epitopes and T-cell epitopes remain antigenic and immunogenic in the PhoE-associated conformation. However, flanking amino acids can interfere with the antigenicity and immunogenicity of T-cell epitopes inserted in PhoE. Because E. coli PhoE can be expressed in attenuated Salmonella and Shigella strains, it seems to be a suitable vaccine carrier candidate.

Effect of different positively charged amino acids, C-terminally of the signal peptidase cleavage site, on the translocation kinetics of a precursor protein in Escherichia coli K-12

Introduction of positively charged amino acids immediately downstream of the signal sequence in prokaryotic precursor proteins is known to affect the export process. However, it is not clear whether different positively charged amino acids affect the export process similarly. To investigate this, the glutamate at position +2 of outer membrane protein PhoE was substituted by arginine, lysine or histidine. Pulse-chase experiments revealed that the Lys and Arg residues at position +2 caused a reduced processing rate, and that the effect was markedly more severe in the case of the Arg residue. Trypsin accessibility experiments revealed that the accumulated precursors were present in the cytoplasm. Since the degree of the inhibitory effect corresponded to the pKa of the different positively charged amino acids, this suggests that the positively charged residues must be deprotonated during the secretory process.

Topology of PhoE porin: the 'eyelet' region

A model for the topology of the PhoE porin has been proposed according to which the polypeptide traverses the outer membrane sixteen times mostly as amphipathic beta-sheets, thereby exposing eight loops at the cell surface. Until now, no evidence has been obtained for the surface exposure of the third loop. Recently, the structure of porin of Rhodobacter capsulatus has been determined. The proposed model of PhoE is very similar to the structure of the R. capsulatus porin, which has an 'eyelet' region, extending into the interior of the pore. The proposed third external loop of PhoE might form a similar 'eyelet' region. To determine the location of the predicted third external loop of PhoE, multiple copies of an oligonucleotide linker encoding an antigenic determinant of VP1 protein of foot-and-mouth disease virus (FMDV) were inserted. All hybrid proteins were properly inserted in the outer membrane. The monoclonal antibody MA11, directed against the linear FMDV epitope, was able to bind only to intact cells expressing a hybrid PhoE protein with at least three copies of the FMDV epitope present. Antibiotic sensitivity tests and single-channel conductance measurements revealed that the insertions influenced the channel size. These results are consistent with a location of the third loop of PhoE within the pore channel.

Characterization of the Salmonella typhimurium phoE gene and development of Salmonella-specific DNA probes

In Escherichia coli K-12, the phoE gene, encoding a phosphate-limitation-inducible outer membrane pore protein (PhoE), is closely linked to the genes proA and proB. When the corresponding fragment of the Salmonella typhimurium chromosome was transferred to E. coli K-12 using an RP4::miniMu plasmid, pULB113, no production of S. typhimurium PhoE could be detected. Nevertheless, DNA hybridization studies revealed that the corresponding plasmid did contain S. typhimurium phoE. Production of S. typhimurium PhoE in E. coli was detected only after subcloning the gene in a multicopy vector. Nucleotide (nt) sequence analysis showed extensive homology of S. typhimurium phoE to the E. coli gene and suggested possible explanations for the low expression of S. typhimurium phoE in E. coli. In addition, the sequence information was used to develop Salmonella-specific DNA probes. Two oligodeoxyribonucleotides were synthesized based on nt sequences encoding the fifth and eighth cell-surface-exposed regions of PhoE. When used in polymerase chain reactions, these probes turned out to be specific, i.e., no crossreactions occurred with the non-Salmonella strains, whereas 132 out of 133 tested Salmonella strains were recognized.

Outer membrane protein PhoE as a carrier for the exposure of foreign antigenic determinants at the bacterial cell surface

PhoE protein is an abundant outer membrane protein of the Escherichia coli K-12 outer membrane. This protein can be used as an exposure system to produce foregin antigenic determinants and for their transport to the bacterial cell surface. The system is very flexible, since insertions varying in length and nature could be made in different cell surface-exposed regions of PhoE, without interfering with the assembly process of the mutant proteins into the outer membrane. Two antigenic determinants of the structural VP1 protein of foot-and-mouth disease virus were inserted in different combinations in four cell surface-exposed regions of PhoE. The epitopes were exposed at the bacterial cell surface and they keep their antigenic and immunogenic properties in this PhoE-associated conformation. Immunization of guinea pigs with one hybrid protein, containing a combination of the two epitopes inserted in the fourth exposed region, resulted in complete protection against challenge with the virus. A T-cell epitope of the 65 kDa heat shock protein of Mycobacterium tuberculosis was inserted in the fourth exposed region of PhoE and in vitro proliferation of two T-cell specific clones was demonstrated. Thus, the PhoE exposure system has been shown to be suitable for presentation of both B-cell and T-cell determinants to the immune system. Furthermore, good expression of the hybrid protein in attenuated Salmonella strains, which can be used as live oral vaccines, was shown.

Efficient recognition by rat T cell clones of an epitope of mycobacterial hsp 65 inserted in Escherichia coli outer membrane protein PhoE

PhoE is a pore-forming protein, abundantly expressed in the Escherichia coli outer membrane. Previous investigations have shown the possibility of inserting antigenic determinants in cell surface-exposed regions of PhoE by recombinant DNA techniques without disturbing the biogenesis and the functioning of the protein. This method proved to be successful for foot-and-mouth disease virus B cell determinants. We have now shown for the first time that PhoE can also be used as a carrier molecule for T cell epitopes. A well-characterized T cell epitope (180-188) of the 65-kDa heat-shock protein (hsp 65) of Mycobacterium tuberculosis was expressed in PhoE and tested for recognition by specific T cell clones. Specific and efficient T cell proliferation was found after stimulation with this protein construct in vitro. Interestingly, paraformaldehyde fixation of antigen-presenting cells did not abrogate T cell recognition. Thus, in contrast to hsp 65 itself, recognition of epitope 180-188 in the context of PhoE appeared to be independent of antigen-processing events. At the level of polyclonal T cell responses the epitope in the context of PhoE is recognized more efficiently than 180-188 as synthetic peptide or in the context of the hsp 65 molecule itself. These findings indicate that PhoE may serve as attractive vaccine carrier not only for B, but also for T cell epitopes. Furthermore, the possibility for expression of PhoE constructs in attenuated Salmonella typhimurium strains offers the exciting prospect of new types of live oral vaccines expressing selected combinations of B and T cell epitopes.

Protection of guinea-pigs against foot-and-mouth disease virus by immunization with a PhoE-FMDV hybrid protein

A hybrid protein was constructed containing two antigenic determinants of the structural protein VP1 of foot-and-mouth disease virus, inserted in a cell surface-exposed region of Escherichia coli outer membrane protein PhoE. Immunization of guinea-pigs with partially purified protein resulted in high levels of neutralizing antibodies and complete protection against challenge with the virus.

Outer-membrane PhoE protein of Escherichia coli K-12 as an exposure vector: possibilities and limitations

The phosphate-limitation-inducible outer-membrane protein (PhoE) of Escherichia coli K-12 can be used in an expression system as a carrier for foreign antigenic determinants, facilitating their transport to the bacterial cell surface. The system is very flexible, since insertions varying in length and nature can be made in different cell-surface-exposed regions of PhoE protein, without interfering with the assembly process into the outer membrane. Multiple insertions of an antigenic determinant can be made in the second and eighth exposed regions, resulting in a total insert length of up to 30 and 50 amino acid (aa) residues. Insertions can be made in two exposed regions, simultaneously. However, some limitations were encountered, e.g., insertion of eight or more hydrophobic aa residues affected both the translocation process across the inner membrane and the assembly process into the outer membrane. Also, the insertion of sequences containing many charged residues resulted in accumulation of precursor protein in the cytoplasm.

Outer membrane PhoE protein of Escherichia coli as a carrier for foreign antigenic determinants: immunogenicity of epitopes of foot-and-mouth disease virus

Outer membrane protein PhoE of Escherichia coli was used for the expression of antigenic determinants of foot-and-mouth disease virus. Five hybrid PhoE proteins were constructed containing different combinations of two antigenic determinants of VP1 protein of the virus. The hybrid proteins were expressed in two E. coli strains and the proteins were correctly assembled into the outer membrane. The inserted epitopes were exposed at the surface of the cell and were antigenic in this PhoE-associated conformation. Immunization experiments, performed with partially purified protein, resulted in all cases in a significant anti-peptide antibody titre. In one case in which the hybrid protein with the largest insert was used, a neutralizing antibody response was detected.

Role of the cell surface-exposed regions of outer membrane protein PhoE of Escherichia coli K12 in the biogenesis of the protein

To investigate the role of the cell surface-exposed regions of outer membrane protein PhoE of Escherichia coli K12 in the biogenesis of the protein, deletions were generated in two presumed cell surface-exposed regions of the protein. Intact cells expressing these mutant proteins were recognized by PhoE-specific monoclonal antibodies, which recognize conformational epitopes on the cell surface-exposed parts of the protein and/or were sensitive to a PhoE-specific phage. This shows that the polypeptides were normally incorporated into the outer membrane. When the deletions extended four amino acid residues into the seventh presumed membrane-spanning segment, the polypeptides accumulated in the periplasm. In conclusion, exposed regions of PhoE protein apparently do not play an essential role in outer membrane localization, which is consistent with the observation that these regions are hypervariable when PhoE is compared to the related proteins OmpF and OmpC. In contrast, the membrane-spanning segments are essential for the assembly process.

The role of the carboxy-terminal membrane-spanning fragment in the biogenesis of Escherichia coli K12 outer membrane protein PhoE

PhoE protein of Escherichia coli K12 is an outer membrane protein which is supposed to span the membrane sixteen times. By creating a deletion which removes the last membrane-spanning fragment and studying the localization of the truncated PhoE, we show that this fragment is indispensable for trimerization and outer membrane localization. In addition, circumstantial evidence for the proposed topology model of the protein was obtained. An insertion mutation in a region supposed to be cell surface-exposed, interferes with the binding of a monoclonal antibody which recognizes a cell surface-exposed epitope of the protein.