Production of cyclomaltodextrin glucanotransferase of Bacillus circulans var. alkalophilus ATCC21783 in B. subtilis

Summary The cyclomaltodextrin glucanotransferase (CGTase, E.C. 2.4.1.19) gene from an alkalophilic Bacillus circulans var. alkalophilus ATCC21783 was cloned into Escherichia coli and B. subtilis. When cloned from E. coli to B. subtilis, the entire insert containing the CGTase gene was, depending on the plasmid construction, either unstable or the recombinant B. subtilis did not secrete the enzyme in significant amounts. To achieve efficient enzyme production in B. subtilis, the gene was placed under the control of the B. amyloliquefaciens -amylase promoter. In one of the constructions, both the promoter and the signal sequence of the gene were replaced with those of B. amyloliquefaciens, whereas in another construction only the promoter area was exchanged. The recombinant B. subtilis clones transformed with these plasmid constructions secreted CGTase into the culture medium 14 times as much as did the parental strain in shake flask cultures. In fermentor cultures in an industrially feasible medium the enzyme production was substantially higher, yielding 1.2 g/l of CGTase, which is about 33 times the amount of the enzyme produced by the parental strain in corresponding fermentations. Both of the plasmid constructions were stable when grown over 50 generations without antibiotic selection.     

Expression system for recombinant human growth hormone production from Bacillus subtilis

We demonstrate for the first time, an expression system mimicking serine alkaline protease synthesis and secretion, producing native form of human growth hormone (hGH) from Bacillus subtilis. A hybrid‐gene of two DNA fragments, i.e., signal (pre‐) DNA sequence of B. licheniformis serine alkaline protease gene (subC) and cDNA encoding hGH, were cloned into pMK4 and expressed under deg‐promoter in B. subtilis. Recombinant‐hGH (rhGH) produced by B. subtilis carrying pMK4::pre(subC)::hGH was secreted. N‐terminal sequence and mass spectrometry analyses of rhGH confirm the mature hGH sequence, and indicate that the signal peptide was properly processed by B. subtilis signal‐peptidase. The highest rhGH concentration was obtained at t = 32 h as C_rhGH = 70 mg L^?1 with a product yield on substrate Y_rhGH/S = 9 g kg^?1, in a glucose based defined medium. Fermentation characteristics and influence of hGH gene on the rhGH production were investigated by comparing B. subtilis carrying pMK4::pre(subC)::hGH with that of carrying merely pMK4. Excreted organic‐acid concentrations were higher by B. subtilis carrying pMK4::pre(subC)::hGH, whereas excreted amino‐acid concentrations were higher by B. subtilis carrying pMK4. The approach developed is expected to be applicable to the design of expression systems for heterologous protein production from Bacillus species. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

Bacillus subtilis secretes a foreign protein by the signal sequence of Bacillus amyloliquefaciens neutral protease

Summary We constructed a secretion plasmid in which a truncated penicillinase gene of Bacillus licheniformis was introduced at the end of the signal peptide coding region of a Bacillus amyloliquefaciens neutral protease gene. A Bacillus subtilis recombinant secreted about 140 mg/liter of the penicillinase into the medium. Analysis of the purified product revealed that it was a mixture of two penicillinases containing one or two additional amino acids at the NH₂-terminus of B. licheniformis exo-small penicillinase.     

The roles of signal peptide and mature protein in RNase (barnase) export from Bacillus subtilis

Barnase, an extracellular RNAse from Bacillus amyloliquefaciens is secreted post-translationally from B. subtilis. The rate of secretion of barnase from B. subtilis was improved by replacement of the barnase signal peptide with a heterologous signal peptide. However, the barnase signal peptide exported Escherichia coli alkaline phosphatase faster than mature barnase. Heat shock of B. subtilis cells did not significantly alter the export of barnase using the barnase signal peptide. The slow rate of export of barnase from B. subtilis is due to both the signal peptide and the mature protein sequence rather than either alone.     

Secretion of human growth hormone in Bacillus subtilis using prepropeptide coding region of Bacillus amyloliquefaciens neutral protease gene

Using a secretion vector plasmid pES150, which contained a region coding for promoter and prepropeptide of Bacillus amyloliquefaciens neutral protease gene (Honjo et al. (1985) J. Biotechnol. 2, 73–84), a hybrid plasmid pES150GH was constructed. The plasmid pES150GH possesses a mature human growth hormone gene following the prepropeptide coding region. Bacillus subtilis N325 harboring pES150GH produced growth hormone in the medium. The secreted hormone was indistinguishable immunologically from human pituitary growth hormone on double immunodiffusion test. The level of secretory production of growth hormone by B. subtilis reached 40–50 mg l⁻¹ of the culture. The size of the hormone secreted by B. subtilis was approximately 23 K on SDS-PAGE. This value was rather large in comparison with that of natural growth hormone (22 K). It was observed that 99% of synthesized growth hormone was excreted into the medium and that the mode of secretion was co-translational. The secreted growth hormone (23 K) is suggested to be degraded to a 15 K form in the culture medium by proteolysis.     

Extracellular production of lipoxygenase from <Emphasis Type="Italic">Anabaena</Emphasis> sp. PCC 7120 in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> and its effect on wheat protein

In this study, the lipoxygenase (ana-LOX) gene from Anabaena sp. PCC 7120 was successful expressed and secreted in Bacillus subtilis. Under the control of the P43 promoter, with a signal peptide from the B. subtilis 168 nprB gene, and facilitated by the molecular chaperone PrsA, the production of the recombinant ana-LOX (ana-rLOX) reached 76 U/mL (171.9 μg/ml) in the supernatant. The purified ana-rLOX was investigated for its effect on dough protein. Ana-rLOX treatment decreased free sulfhydryl groups, increased glutenin macropolymer content, promoted the formation of covalent bonds between gluten protein, and affected protein crosslinking. The results indicated that large aggregates involving gliadin and glutenin were formed. The glutenin macropolymer played a role in the formation of the dough network structure through the exchange of thiol disulfide bonds and the formation of hydrogen or hydrophobic bonds with other proteins.     

Expression and secretion of human atrial natriuretic α-factor in Bacillus subtilis using the subtilisin signal peptide

Using the signal peptide of the Bacillus subtilis subtilisin gene (aprE) and a synthetic cDNA corresponding to the mature region of the human atrial natriuretic α-factor (hANF), we have constructed a secretion vector. B. subtilis cells, when transformed with this vector, secrete immunoreactive hANF peptides into the medium at about 500 μg/liter. The hANF is the first human gene product to be secreted from B. subtilis using this signal peptide. We have used promoters active during vegetative growth or sporulation and hosts deficient in several extracellular proteases but some proteolysis of the secretion products still occurs. In addition, both cell growth and sporulation are adversely affected by hANF production. Possible explanations for this observation are inefficient secretion of the atrial hormone or toxicity of the precursor or mature peptide.     

Production of pectin methylesterase from Erwinia chrysanthemi B374 in Bacillus subtilis

Summary The gene coding for pectin methylesterase (PME) of Erwinia chrysanthemi B374 (pme) was cloned by a polymerase chain reaction. The pme gene was expressed in Bacillus subtilis using a secretion vector based on the promoter and signal sequence of the -amylase gene from B. amyloliquefaciens. The cultivation of B. subtilis cells carrying the cloned pme resulted in efficient secretion of PME into the culture medium based on enzymatic and sodium dodecyl sulphate-polyacrylamide gel electrophoresis characterizations. The NH₂-terminal sequence analysis of the secreted PME revealed two different NH₂-termini. Heterologous processing was probably due to a second putative signal peptidase cleavage site at the joint region between the PME and -amylase signal peptide. Offprint requests to: R. Heikinheimo     

Heterologous protein secretion in Lactococcus lactis is enhanced by the Bacillus subtilis chaperone-like protein PrsA

The Bacillus subtilis lipoprotein PrsA enhances the yield of several homologous and heterologous exported proteins in B. subtilis by being involved in the posttranslocational stage of the secretion process. In this work, we have studied the effect of B. subtilis PrsA on the secretion of Bacillus amyloliquefaciens α-amylase (AmyQ), a target protein for PrsA, and Bacillus licheniformis penicillinase (PenP) a nontarget protein for PrsA, in Lactococcus lactis. Two compatible plasmids were constructed and introduced into L. lactis strain NZ9000: one high copy plasmid, expressing the AmyQ gene (amyQ) or the PenP gene (penP), and one low copy plasmid, expressing the PrsA encoding gene (prsA). When amyQ and prsA were simultaneously expressed under the nisin-inducible promoter P _nisA , Western blotting experiments revealed a 15- to 20-fold increase in the total yield of AmyQ and a sixfold increase in secreted AmyQ activity, compared to a control strain lacking prsA. When expressed under the same induction conditions, PrsA had no effect on the secretion or total yield of PenP. These results show that the secretion yield of some heterologous proteins can be significantly increased in L. lactis when coproduced with the B. subtilis PrsA protein.     

Secretion of Human Interleukin-2 in Biologically Active Form by Bacillus brevis Directly into Cultute Medium

We constructed an efficient system for synthesis and secretion of human interleukin-2 (IL-2) by Bacillus brevis. The secretion vector we constructed had strong promoters and contained the region coding for the signal peptide of the gene for B. brevis 47 cell-wall protein, followed directly by the gene encoding mature IL-2. Modification of the signal peptide and use of a protease-deficient mutant of B. brevis HPD31 increased productivity. When the signal peptide was more basic near its amino terminal and more hydrophobic in the middle region, IL-2 production increased 20 fold. Production by the mutant harboring the secretion vector was four fold that of the parent harboring the same plasmid. The yield of IL-2 increased further to 0.12 g/liter, when cultural conditions were made optimal, such by the addition of Tween 40 to the medium. The IL-2 produced by B. brevis had the same biological activity as authentic IL-2. Biologically active human IL-2 was produced efficiently and secreted directly into the medium by B. brevis.     

Replicative and integrative plasmids for production of human interferon gamma in Bacillus subtilis

Integrative and replicative plasmids for the expression driven by the P₄₃ promoter and secretion of recombinant proteins in Bacillus subtilis were constructed. The plasmids named pInt and pRep respectively were tested for the production of recombinant human interferon gamma (rhIFN-γ). A synthetic hIFN-γ gene employing the optimized B. subtilis codon usage was fused with the Bacillus licheniformis α-amylase signal peptide (sp-amyL) encoding sequence. The integrative construct produced 2.5 ± 0.2 mg l⁻¹ and the replicative system produced 20.3 ± 0.8 mg l⁻¹ of total recombinant rhIFN-γ. The results showed that secretion of hIFN-γ was the bottleneck for the overexpression of mature rhIFN-γ by B. subtilis.     

High-Level Secretion of a Chimeric Thermostable Lichenase from Bacillus subtilis by Screening of Site-Mutated Signal Peptides with Structural Alterations

A chimeric gene mHG (669 bp) was constructed by substitution of Clostridium thermocellum ZJL4 lichenase (CG) N-terminal fragment (except its signal sequence) for the counterpart of Bacillus sp. A3 lichenase (BG). To acquire high-level secretion of the chimeric lichenase (mHG) in Bacillus subtilis, a series of site-mutated signal peptides were designed. The activity of mHG, which was directed by an artificial hydrophobic signal peptide H1 (MMARKIAGMATSLLVIFSSSAVA) from cytoplasm into growth medium, reached 80.56 U/ml after 22-h incubation, indicating that signal peptide hydrophobicity appears to be critical for early stages in mHG export. By purification of the mHG (∼25.3 kDa) from cultures of B. subtilis (pBSG-H1), enzymatic property assays showed that the common optima for mHG were 70°C and pH 5.0. The residual activity of mHG at 90°C for 10 min was 83.45% of its maximum activity, which was almost similar to that of CG (90°C, 10 min, 84.33%). This constructed shuttle expression vector with a novel signal peptide exhibited its applicability for high-level production of heterologous proteins from B. subtilis. Moreover, the high-level secreted mHG with relatively high thermostability could be a potential candidate for feed industrial applications.     

Enhanced extracellular production of L-asparaginase from Bacillus subtilis 168 by B. subtilis WB600 through a combined strategy

L-asparaginase (EC 3.5.1.1, ASN) exhibits great commercial value due to its uses in the food and medicine industry. In this study, we reported the enhanced expression of type II ASN from Bacillus subtilis 168 in B. subtilis WB600 through a combined strategy. First, eight signal peptides (the signal peptide of the ASN, ywbN, yvgO, amyE, oppA, vpr, lipA, and wapA) were used for ASN secretion in B. subtilis by using Hpa II promoter, respectively. The signal peptide wapA achieved the highest extracellular ASN activity (28.91 U/mL). Second, Hpa II promoter was replaced by a strong promoter, P43 promoter, resulting in 38.1 % enhanced ASN activity. By two rounds of error-prone PCR mutation, the P43 promoter variants with remarkably enhanced strength (D7, E2, H6, B2, and F3) were identified. B2 (−28: A → G, −13: A → G) achieved ASN activity up to 51.13 U/mL. Third, after deletion of the N-terminal 25-residues, ASN activity reached 102.41 U/mL, which was 100 % higher than that of the intact ASN. At last, the extracellular ASN of the B. subtilis arrived at 407.6 U/mL (2.5 g/L of ASN protein) in a 3-L bioreactor by using a fed-batch strategy. The purified ASN showed maximal activity at 65 °C and its half-life at 65 °C was 61 min. The K _m and k _cat of the ASN were 5.29 mM and 54.4 s⁻¹, respectively. To the best of our knowledge, we obtained the highest yield of ASN in a food-grade host ever reported, which may benefit the industrial production and application of ASN.

     

Oral vaccination with envelope protein VP28 against white spot syndrome virus in Procambarus clarkii using Bacillus subtilis as delivery vehicles

Aims: To achieve high‐level expression and secretion of active VP28 directed by a processing‐efficient signal peptide in Bacillus subtilis WB600 and exploit the possibility of obtaining an oral vaccine against white spot syndrome virus (WSSV) using vegetative cells or spores as delivery vehicles. Methods and Results: The polymerase chain reaction (PCR)‐amplified vp28 gene was inserted into a shuttle expression vector with a novel signal peptide sequence. After electro‐transformation, time‐courses for recombinant VP28 (rVP28) secretion level in B. subtilis WB600 were analysed. Crayfish were divided into three groups subsequently challenged by 7‐h immersion at different time points after vaccination. Subgroups including 20 inter‐moult crayfish with an average weight of 15 g in triplicate were vaccinated by feeding coated food pellets with vegetative cells or spores for 20 days. Vaccination trials showed that rVP28 by spore delivery induced a higher resistance than using vegetative cells. Challenged at 14 days postvaccination, the relative per cent survival (RPS) values of groups of rVP28‐bv and rVP28‐bs was 51·7% and 78·3%, respectively. Conclusions: The recombinant B. subtilis strain with the ability of high‐level secretion of rVP28 can evoke protection of crayfish against WSSV by oral delivery. Significance and Impact of the Study: Oral vaccination by the B. subtilis vehicle containing VP28 opens a new way for designing practical vaccines to control WSSV.     

The roles of signal peptide and mature protein in RNase (barnase) export from Bacillus subtilis

Barnase, an extracellular RNAse from Bacillus amyloliquefaciens is secreted post-translationally from B. subtilis. The rate of secretion of barnase from B. subtilis was improved by replacement of the barnase signal peptide with a heterologous signal peptide. However, the barnase signal peptide exported Escherichia coli alkaline phosphatase faster than mature barnase. Heat shock of B. subtilis cells did not significantly alter the export of barnase using the barnase signal peptide. The slow rate of export of barnase from B. subtilis is due to both the signal peptide and the mature protein sequence rather than either alone.     

Characterization of the secretion efficiency of a plant signal peptide in Bacillus subtilis.

Summary The ability of the Bacillus subtilis secretion machinery to interact with a heterologous signal peptide was studied using a plant (wheat -amylase) signal peptide. The plant signal peptide was capable of mediating secretion of Escherichia coli alkaline phosphatase and B. amyloliquefaciens levansucrase from B. subtilis. This secretion was dependent on the plant signal peptide, as deletion of five amino acids from the hydrophobic core resulted in a block of secretion. Attempts to improve the efficiency of the plant signal peptide in B. subtilis were made by increasing the length of the hydrophobic core from 10 to 16 residues by insertion of 2, 4, 5 or 6 amino acids. None of the alterations improved the secretion efficiency relative to the wild-type plant signal peptide.     

Expression and Secretion of an Acid-Stable <Emphasis Type="Italic">α</Emphasis>-Amylase Gene in Bacillus Subtilis by <Emphasis Type="Italic">SacB</Emphasis> Promoter and Signal Peptide

Alpha amylase gene from Bacillus licheniformis was mutated by site-directed mutagenesis to improve its acid stability. The mutant gene was expression in Bacillus subtilis under the control of the promoter of sacB gene which was followed by either the α-amylase leader peptide of Bacillus licheniformis or the signal peptide sequence of sacB gene of Bacillus subtilis. Both peptides efficiently directed the secretion of α-amylase from the recombinant B. subtilis cells. The extracellular α-amylase activities in two recombinants were 1001 and 2012 U ml⁻¹, respectively. The purity of the recombinant product was confirmed by SDS-PAGE.     

A potential gene delivery strategy using BK virus

Recombinant BK virus (rBKV) is able to express polypeptides under control of its native BKV late promoter. This ability helps to use this construct as a good reporter since it can infect human cells. In this study, we generate a BKV construct containing Renilla luciferase (Rluc) sequences under control of the BKV late promoter. The activity of Rluc was strongly detected in Vero-76 and Cos-1 cells transfected with rBKV-Rluc-myc-2A-VP2 construct, indicating the production of a functional enzyme driven by the native late promoter. Furthermore, a construct made of rBKV-IL2SP-Rluc-myc-2A-VP2 by introducing human IL2 secretion peptide (IL2 SP) caused secretion of IL2SP-Rluc-myc into the culture medium. As a concluding remark, a potential infectious rBKV that can express foreign antigens such as Rluc was generated successfully. The proposed strategy would be useful to engineer recombinant forms of rBKV with many potential applications including development of antiviral assay for new drugs, human vaccines and gene delivery systems for immunotherapeutic or cell transduction.     

Overproduction of extracellular endoglucanase by genetically engineered Bacillus subtilis

Summary Overproduction of extracellular endoglucanase was attempted by modifying promoter region of an endoglucanase gene cloned from Bacillus subtilis BSE616 and expressing in B. subtilis DB104. A strong promoter was cloned from B. subtilis 168 chromosomal DNA and fused to the endoglucanase gene after removing its native promoter. An effective Shine-Dalgarno sequence was inserted between the promoter and the endoglucanase structural gene. The modified gene was expressed well in B. subtilis and produced 265 units of endoglucanase per mg protein that is 60 % of total protein which was secreted into culture medium.     

Cloning, sequence analysis, and heterologous expression of a β-mannanase gene from Bacillus subtilis Z-2

Mannanase, an extracellular enzyme that catalyzes the hydrolysis of hemicelluloses to produce oligosaccharides, has potential to be applied in food industries. In this study a mannanase gene from B. subtilis Z-2 was isolated through PCR screening of a genomic DNA library. The nucleotide sequence of the mannanase gene, man, contained an open reading frame of 1080 bp, which codes for a deduced 26 amino-acid signal peptide and a mature protein with a deduced molecular mass of 38 kDa. The man gene can both be expressed heterologously into the periplasm from the plasmid pET22b(+) containing an intact signal peptide (pET-NdeI18) or the pelB signal peptide of the pET22b(+)vector (pET-NcoI3). Escherichia coli BL21 (DE3) containing pET-NcoI3 secreted about twice as much mannanase as that harboring pET-NdeI18. The E. coli DH5α expression of man was under the control of the lac promoter in the pRK415 vector; it was much more effective when the Shine Dalgarno (SD) sequence was changed from GGGGAG to AAGGAG and the start codon was changed from TTG to ATG, respectively. These results suggest that genetic modification of the SD sequence and start codon is practical for a high-level mannanase expression in different bacterial strains. Published in Russian in Molekulyarnaya Biologiya, 2006, Vol. 40, No. 3, pp. 418–424. This article was submitted by the authors in English.