Protein localization in E. coli: Is there a common step in the secretion of periplasmic and outer-membrane proteins?

An E. coli strain carrying a fusion of the malE and lacZ genes is induced for the synthesis of a hybrid protein, consisting of the N-terminal part of the maltose-binding protein and the enzymatically active C-terminal part of β-galactosidase, by addition of maltose to cells. The secretion of the protein is initiated by the signal peptide attached to the N terminus of the maltose-binding protein sequence, but is not completed, presumably because the β-galactosidase moiety of the hybrid protein interferes with the passage of the polypeptide through the cytoplasmic membrane. Thus the protein becomes stuck to the cytoplasmic membrane. Under such conditions, periplasmic proteins, including maltose-binding protein (encoded by the malE gene) and alkaline phosphatase, and the major outer-membrane proteins, including OmpF, OmpA and probably lipoprotein, are synthesized as precursor forms with unprocessed signal sequences. This effect is observed within 15 min after high levels of induction are achieved. The simplest explanation for these results and those of pulse-chase experiments is that specific sites in the cytoplasmic membrane become progressively occupied by the hybrid protein, resulting in an inhibition of normal localization and processing of periplasmic and outer-membrane proteins. These results suggest that most of the periplasmic and outer-membrane proteins share a common step in localization before the polypeptide becomes accessible to the processing enzyme. If this interpretation is correct, we can estimate that an E. coli cell has roughly 2 × 10⁴ such sites in the cytoplasmic membrane. A system is described for detecting the precursor of any exported protein.     

Cloning and Expression of a β-Galactosidase Gene of Bacillus circulans

A gene of β-galactosidase from Bacillus circulans ATCC 31382 was cloned and sequenced on the basis of N-terminal and internal peptide sequences isolated from a commercial enzyme preparation, Biolacta^®. Using the cloned gene, recombinant β-galactosidase and its deletion mutants were overexpressed as His-tagged proteins in Escherichia coli cells and the enzymes expressed were characterized.     

Evidence that residues −15 to −46 of the haemolysin secretion signal are involved in early steps in secretion, leading to recognition of the translocator

We previously identified three well-dispersed mutations, E⁹⁷⁸-K, F⁹⁸⁹-L and D¹⁰⁰⁹-R within the haemolysin A signal region, located at positions –46, –35 and –15, with respect to the C-terminus, respectively. Each mutation reduces the efficiency of secretion two- to threefold leaving 30–45% of the wild-type activity. We have constructed by in vitro manipulations double mutants of HlyA carrying all combinations of these mutations and a triple mutant carrying all three mutations. The effects on secretion were determined and the results, including residual levels of secretion with the triple mutant of only 0.6%, compared with the wild type, indicated that these residues may interact to form a single function in the wild-type signal. To test this further, we developed a secretion competition assay in order to classify signal mutations. We demonstrated that a CIZ-HlyA fusion protein, containing the C-terminal 81 kDa of HlyA fused to virtually the whole LacZ protein, strongly inhibits the secretion of the wild-type HlyA co-expressed In the same cell. The properties of the fusion indicate that it blocks the translocator. The three mutations singly and in combinations were recombined in vitro into the 3′-end of the hybrid gene. In every case, the presence of a mutation in the secretion signal of the hybrid protein alleviated the inhibition of secretion of the co-expressed HiyA. All the mutations are therefore essentially recessive and we propose that they all affect an early function, probably recognition of the translocator, rather than a subsequent step involved in translocation or final release of the toxin to the medium. This would indicate that residues involved in recognition for steps     

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.     

Recombinant Protein Secretion in Pseudozyma flocculosa and Pseudozyma antarctica with a Novel Signal Peptide

Secretion of recombinant proteins aims to reproduce the correct posttranslational modifications of the expressed protein while simplifying its recovery. In this study, secretion signal sequences from an abundantly secreted 34-kDa protein (P34) from Pseudozyma flocculosa were cloned. The efficiency of these sequences in the secretion of recombinant green fluorescent protein (GFP) was investigated in two Pseudozyma species and compared with other secretion signal sequences, from S. cerevisiae and Pseudozyma spp. The results indicate that various secretion signal sequences were functional and that the P34 signal peptide was the most effective secretion signal sequence in both P. flocculosa and P. antarctica. The cells correctly processed the secretion signal sequences, including P34 signal peptide, and mature GFP was recovered from the culture medium. This is the first report of functional secretion signal sequences in P. flocculosa. These sequences can be used to test the secretion of other recombinant proteins and for studying the secretion pathway in P. flocculosa and P. antarctica.     

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 cytoplasmicβ-galactosidase (β-Gal), andphoA, encoding the periplasmic alkaline phosphatase, as target genes. Our data suggest that allβ-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.     

Comparison of barley malt α-amylase isozymes 1 and 2: construction of cDNA hybrids by in vivo recombination and their expression in yeast

Germinating barley produces two α-amylase isozymes, AMY1 and AMY2, having 80% amino acid (aa) sequence identity and differing with respect to a number of functional properties. Recombinant AMY1 (re-AMYI) and AMY2 (re-AMY2) are produced in yeast, but whereas all re-AMYI is secreted, re-AMY2 accumulates within the cell and only traces are secreted. Expression of AMY1::AMY2 hybrid cDNAs may provide a means of understanding the difference in secretion efficiency between the two isozymes. Here, the efficient homologous recombination system of the yeast, Saccharomyces cerevisiae, was used to generate hybrids of barley AMY with the N-terminal portion derived from AMY1, including the signal peptide (SP), and the C-terminal portion from AMY2. Hybrid cDNAs were thus generated that encode either the SP alone, or the SP followed by the N-terminal 21, 26, 53, 67 or 90 aa from AMY1 and the complementary C-terminal sequences from AMY2. Larger amounts of re-AMY are secreted by hybrids containing, in addition to the SP, 53 or more aa of AMY1. In contrast, only traces of re-AMY are secreted for hybrids having 26 or fewer aa of AMY1. In this case, re-AMY hybrid accumulates intracellularly. Transformants secreting hybrid enzymes also accumulated some re-AMY within the cell. The AMY1 SP, therefore, does not ensure re-AMY2 secretion and a certain portion of the N-terminal sequence of AMY1 is required for secretion of a re-AMYI::AMY2 hybrid.     

Secretion of active truncated CD4 into Escherichia coli periplasm

Summary A truncated molecule containing the first 183 amino acid residues of the HIV-1 receptor, CD4, was made by periplasmic secretion in Escherichia coli. The signal sequence from the E. coli proteins OmpA, PhoA, or OmpF was fused to the truncated CD4, under the control of either the trp or the lac promoter. The processed material secreted into the periplasm reacted with monoclonal antibodies and exhibited binding activity to the HIV-1 envelope protein gp120. Not all of the processed product was recovered in the periplasm by osmotic shock, suggesting that either the material aggregated in the periplasm or, during secretion, the molecule assumed some transient conformation that interfered with its translocation across the inner membrane. A mutation in prlA (a gene involved in secretion) increased the level of processing, suggesting that secretion of a heterologous protein in E. coli can be optimized by manipulating the host secretion apparatus. Offprint requests to: C.-S. C. Tomich     

Novel export control of a Legionella Dot/Icm substrate is mediated by dual,independent signal sequences

The Legionella pneumophila Dot/Icm T4SS injects ～ 300 protein effector proteins into host cells. Dot/Icm substrates have been proposed to contain a carboxy‐terminal signal sequence that is necessary and sufficient for export, although both traits have been demonstrated for only a small fraction of these proteins. In this study, we discovered that export of the substrate SidJ is mediated by dual signal sequences that include a conventional C‐terminal domain and a novel internal motif. The C‐terminal signal sequence facilitates secretion of SidJ into host cells at early points of infection, whereas the internal signal sequence mediates secretion at later time points. Interestingly, only the internal signal sequence is necessary for complementation of the intracellular growth defect of a ΔsidJ mutant. Although this is the first report of a Dot/Icm substrate being secreted by an internal signal sequence, many other substrates may be exported in a similar manner. In addition, efficient translocation of SidJ is dependent on the chaperone‐like type IV adaptors IcmS/IcmW. Five IcmS/IcmW binding domains that are distinct from both signal sequences were elucidated and, interestingly, only secretion mediated by the internal signal sequence requires IcmS/IcmW. Thus, Legionella employs multiple sophisticated molecular mechanisms to regulate the export of SidJ.     

Genetic screen for signal peptides in Hydra reveals novel secreted proteins and evidence for non-classical protein secretion

We have screened a Hydra cDNA library for sequences encoding N-terminal signal peptides using the yeast invertase secretion vector pSUC [Jacobs et al., 1997. A genetic selection for isolating cDNAs encoding secreted proteins. Gene 198, 289–296]. We isolated and sequenced 907 positive clones; 88% encoded signal peptides; 12% lacked signal peptides. By searching the Hydra EST database we identified full-length sequences for the selected clones. These encoded 37 known proteins with signal peptides and 40 novel Hydra-specific proteins with signal peptides. Localization of two signal peptide-containing sequences, VEGF and ferritin, to the secretory pathway was confirmed with GFP fusion proteins. In addition, we isolated 105 clones which lacked signal peptides but which supported invertase secretion from yeast. Isolation of plasmids from these clones and retransformation in invertase-negative yeast cells confirmed the phenotype. A GFP fusion protein of one such clone encoding the foot morphogen pedibin was localized to the cytoplasm in transfected Hydra cells and did not enter the ER/Golgi secretory pathway. Secretion of pedibin and other proteins lacking signal peptides appears to occur by a non-classical protein secretion route.     

The effect of signal sequences on the efficiency of secretion of a heterologous phosphotriesterase by Streptomyces lividans

Summary A heterologous phosphotriesterase (parathion hydrolase) containing the native Flavobacterium species signal sequence was previously shown to be secreted by Streptomyces lividans. Western blot analysis of the recombinant phosphotriesterase produced by S. lividans demonstrated only the mature form extracellular but both processed and unprocessed forms in cell-associated samples. To investigate the efficiency of secretion in Streptomyces, a construction was made that substituted a native Streptomyces -galactosidase signal sequence for the Flavobacterium signal sequence. This resulted in a higher proportion of hydrolase in the extracellular fluid and a lower proportion of parathion hydrolase remaining cell-associated. These results suggest that use of a native Streptomyces signal sequence may result in more efficient secretion of heterologous proteins.Correspondence to: M. K. Speedie     

Role of the mature protein sequence of maltose-binding protein in its secretion across the E. coli cytoplasmic membrane

Secretion of amber fragments of an E. coli periplasmic protein, the maltose-binding protein, was studied to determine if the mature portion of the protein is required for its export across the cytoplasmic membrane. A fragment lacking 25–35 amino acid residues at the C terminus is secreted at normal levels, suggesting that this sequence is not required for secretion. This is in contrast to the results obtained with the periplasmic protein β-lactamase. In studying another fragment of one-third the molecular weight of the intact protein, we found that the majority of the fragment is not recovered from the periplasmic fraction. However, a small amount of secretion of this polypeptide was observed. This fragment is synthesized as a larger molecular weight form when cells are induced for the synthesis of a maltose-binding protein-β-galactosidase hybrid protein, which was previously shown to block the proper localization and processing of envelope proteins. This result is consistent with the idea that the larger form is a precursor with an unprocessed signal sequence, whereas in the absence of the hybrid protein the fragment is a processed mature form. Thus secretion of the smaller fragment may be occurring up to the point where the signal sequence is removed. That this fragment has passed through the cytoplasmic membrane is further supported by its accessibility to externally added trypsin. We suggest that the fragment may be secreted to the periplasm, but cannot assume a water-soluble conformation; the majority of the polypeptide may be associated with the external surface of the cytoplasmic membrane. Thus the mature sequence of maltose-binding protein, at least its C-terminal two thirds, may not be required for its export across the cytoplasmic membrane.     

Studies on lipase directed export of Escherichia coli beta-lactamase in Staphylococcus carnosus

Summary The lipase (lip) gene of Staphylococcus hyicus was used to study the expression of the Escherichia coli -lactamase (bla) gene in S. carnosus. The bla gene, devoid of its promotor and most of the signal sequence, was fused to the lip structural gene at various positions. A set of 11 secretion vectors (pLL1 to pLL11) was isolated and analysed. All secretion vectors caused -lactamase production and activity in S. carnosus. However, the amount of hybrid proteins secreted was influenced by the length of the NH₂-terminal lipase portion. An increased concentration, comparable to that of the native lipase, of secreted lipase/-lactamase hybrid proteins was only found when the lipase portion of the construct comprised more than 101 amino acids of the NH₂-terminal region of the lipase preprotein; the proposed lipase signal peptide is 36 amino acids long. If the hybrid proteins constructed contained 101 or less amino acids of the NH₂-terminal lipase preprotein, only low amounts of secreted hybrid proteins were detectable and a significant portion of the hybrid proteins and -lactamase activity was found in the cellular fraction. The results indicate that the lipase possesses adjacent to the signal peptide a peptide domain that is essential for the secretion of the lipase/-lactamase hybrid proteins.Abbreviations Cm chloramphenicol - bla gene beta lactamase coding gene of Escherichia coli - lip gene lipase-coding gene of Staphylococcus hyicus - PA polyacrylamide - PAGE PA gel electrophoresis - SDS sodium dodecyl sulphate - [] indicates plasmid-carrier state     

Proteome-based identification of signal peptides for improved secretion of recombinant cyclomaltodextrin glucanotransferase in Escherichia coli

Secretion of recombinant proteins in heterologous host has drawn attention for its simpler purification and downstream processes. Searching for secretion aid molecules to improve protein secretion can be done through synthetic biology, screening of genome data and proteome-based approach. In the present study, the extracellular proteome on starch-containing medium of Bacillus lehensis G1 was analyzed to identify naturally secreted proteins with signal peptide. A total of 87 protein spots were identified by mass spectrometry, which were categorized mostly in the metabolism of carbohydrates and related molecules (20%). Over-expression and secretion studies were performed for all the 14 selected signal peptides fused to a reporter protein, cyclomaltodextrin glucanotransferase (CGTase). All clones were found to allow CGTase to be excreted into the medium, as observed and measured from the iodine plate assay and enzyme activity assay. Compared to native signal peptide (G1) of CGTase, signal peptide of GlcNAc-binding protein A (GAP) significantly improved CGTase activities by 735% and 205% in extracellular and periplasmic compartment, respectively, with an increase of only ∼1.7 fold the amount of β-galactosidase (cell lysis) in the medium. GAP has the highest secretion rate of 45.6 U/ml/h among all clones, where physicochemical characteristics of signal peptide play significant role.     

Secretion of active β-lactamase to the medium mediated by the Escherichia coli haemolysin transport pathway

An in frame gene fusion containing the coding region for mature β-lactamase and the 3′-end of hylA encoding the haemolysin secretion signal, was constructed under the control of a lac promoter. The resulting 53 kDa hybrid protein was specifically secreted to the external medium in the presence of the haemolysin translocator proteins, HlyB and HlyD. The specific activity of the β-lactamase portion of the secreted protein (measured by the hydrolysis of penicillin G), approximately 1 U/μg protein, was close to that of authentic, purified TEM-β-lactamase. This is an important example of a hybrid protein that is enzymatically active, and secreted via the haemolysin pathway. Previous studies have indicated that haemolysin is secreted directly into the medium, bypassing the periplasm, to which β-lactamase is normally targeted. This study indicated, therefore, that normal folding of an active β-lactamase, can occur, at least when fused to the HlyA C-terminus, without the necessity of entering the periplasm. Despite the secretion of approximately 5 μg/ml levels of the active β-lactamase fusion into the medium, there was maximally only a 50% detectable increase in the LD₅₀ for resistance to ampicillin at the individual cell level. This result suggests that, normally, resistance to ampicillin requires a high concentration of the enzyme close to killing targets, i.e. in the periplasm, in order to achieve significant levels of protection.     

Secretome analysis of Anabaena sp. PCC 7120 and the involvement of the TolC‐homologue HgdD in protein secretion

Secretion of proteins is a central strategy of bacteria to influence and respond to their environment. Until now, there has been very few discoveries regarding the cyanobacterial secrotome or the secretion machineries involved. For a mutant of the outer membrane channel TolC‐homologue HgdD of Anabaena sp. PCC 7120, a filamentous and heterocyst‐forming cyanobacterium, an altered secretome profile was reported. To define the role of HgdD in protein secretion, we have developed a method to isolate extracellular proteins of Anabaena sp. PCC 7120 wild type and an hgdD loss‐of‐function mutant. We identified 51 proteins of which the majority is predicted to have an extracellular secretion signal, while few seem to be localized in the periplasmic space. Eight proteins were exclusively identified in the secretome of wild‐type cells, which coincides with the distribution of type I secretion signal. We selected three candidates and generated hemagglutinin‐tagged fusion proteins which could be exclusively detected in the extracellular protein fraction. However, these proteins are not secreted in the hgdD‐mutant background, where they are rapidly degraded. This confirms a direct function of HgdD in protein secretion and points to the existence of a quality control mechanism at least for proteins secreted in an HgdD‐dependent pathway.     

Identification of new secreted proteins and secretion of heterologous amylase by <Emphasis Type="Italic">C. glutamicum</Emphasis>

In this study, secreted Corynebacterium glutamicum proteins were investigated by two-dimensional gel electrophoresis. Around 100 spots observed in the pH range 4.5–5.5 had molecular masses that varied from 10 to 50 kDa. Upon N-terminal amino acid sequence analysis by Edman degradation, two of them were hits to two hypothetical proteins encoded by cgR_1176 and cgR_2070 on C. glutamicum R genome, respectively. Active-form α-amylase derived from Geobacillus stearothermophilus was successfully secreted by using the predicted cgR_1176 and cgR_2070 signal sequences, indicating that these hypothetical proteins were secreted proteins. Analysis using a disruption mutant of the twin-arginine translocation (Tat) export pathway machinery of C. glutamicum suggested that one is Tat pathway dependent secretion while the other is independent of the pathway. Our results demonstrate that C. glutamicum can secrete exoproteins by using its own signal sequences, indicating its potential as a host for protein productions.     

A novel strategy for enhancing extracellular secretion of recombinant proteins in Escherichia coli

Secretion of cytoplasmic expressed proteins into culture medium has significant commercial advantages in large-scale production of proteins. Our previous study demonstrated that the membrane permeability of Escherichia coli could be significantly improved when Thermobifida fusca cutinase, without a signal peptide, was expressed in cytoplasm. This study investigated the extracellular production of other recombinant proteins, including both secretory and cytosolic proteins, with co-expression of cutinase. When the secretory enzymes, xylanase and α-amylase, were co-expressed with cutinase, the culture period was shortened by half, and the productivity was 7.9 and 2.0-fold to that of their individual control without co-expression, respectively. When the normally cytosolic proteins, xylose isomerase and trehalose synthase, were co-expressed with cutinase, more than half of the target proteins were “secreted” into the culture medium. Moreover, by using β-galactosidase to detect membrane leakage, the improved secretion of the above model proteins was confirmed not to be due to cell lysis. The study provides a novel strategy for enhancing extracellular secretion of recombinant proteins in E. coli.