Expression, Folding, and Activation of Halophilic Alkaline Phosphatase in Non-Halophilic Brevibacillus choshinensis.

Halophilic enzymes contain a large number of acidic amino acids and marginal large hydrophobic amino acids, which make them highly soluble even under strongly hydrophobic conditions. This characteristic of halophilic enzymes provides potential for their industrial application. However, halophilic enzymes easily degrade when used for industrial applications compared with enzymes from other extremophiles because of their instability in low-salt environments. We aimed to clarify the stabilization mechanism of halophilic enzymes. We previously attempted to express halophilic alkaline phosphatase from Halomonas (HaALP) in non-halophilic E. coli. However, the expressed HaALP showed little activity. Therefore, we overexpressed HaALP in Gram-positive non-halophilic Brevibacillus choshinensis in this study, which was successfully expressed and purified in its active form. HaALP was denatured in 6 M urea, refolded using various salts and the non-ionic osmolyte trimethylamine N-oxide (TMAO), and assessed by native polyacrylamide gel electrophoresis. HaALP refolded in 3 M NaCl or 3 M TMAO containing Na+ ions. Hydrophobic interactions due to a high salt concentration or TMAO enhanced the formation of the folding intermediate (the monomer precursor), and only Na+ ions activated the dimer form. This insight into the stabilization mechanism of HaALP may lead to the development of industrial applications of halophilic enzymes under low-salt conditions.

Efficient production of Trastuzumab Fab antibody fragments in Brevibacillus choshinensis expression system.

The Brevibacillus expression system has been successfully employed for the efficient productions of a variety of recombinant proteins, including enzymes, cytokines, antigens and antibody fragments. Here, we succeeded in secretory expression of Trastuzumab Fab antibody fragments using B. choshinensis/BIC (Brevibacillus in vivocloning) expression system. In the fed-batch high-density cell culture, recombinant Trastuzumab Fab with amino-terminal His-tag (His-BcFab) was secreted at high level, 1.25 g/liter, and Fab without His-tag (BcFab) at ∼145 mg/L of culture supernatant. His-BcFab and BcFab were purified to homogeneity using combination of conventional column chromatographies with a yield of 10-13%. This BcFab preparation exhibited native structure and functions evaluated by enzyme-linked immunosorbent assay, surface plasmon resonance, circular dichroism measurements and size exclusion chromatography. To our knowledge, this is the highest production of Fab antibody fragments in gram-positive bacterial expression/secretion systems.

Production of Recombinant CCN Proteins by Brevibacillus choshinensis.

Brevibacillus choshinensis is an excellent host for the production of secretory proteins. This host has also been applied successfully to efficient production of CCN proteins. Described herein are methods of constructing plasmids for CCN protein production (IGFBP-, VWC-, TSP-, and CT-domain) with Brevibacillus as a host, cultivation methods for protein production, and methods of purification for domain proteins using his-tag.

Highly efficient production of VHH antibody fragments in Brevibacillus choshinensis expression system.

Anti-IZUMO1PFF VHH (variable domain of camelid heavy chain antibody) clones, N6 and N15, from immunized alpaca (Lama pacos) phage library were efficiently expressed and their VHH products were secreted into the culture medium of Brevibacillus choshinensis HPD31-SP3, e.g., at a level of 26-95mg in 100ml conventional flask culture. With a 3-L scale fed-batch culture for 65h, the N15 VHH protein with C-terminal His-tag was produced at ∼3g/l culture medium. The N6 and N15 proteins were easily purified to apparent homogeneity by cation exchange and Ni-affinity chromatographies. Both proteins showed specific antigen-binding activity by ELISA and high antigen binding affinity, KD=6.0-8.6nM, by surface plasmon resonance analysis. Size exclusion chromatography-multi-angle laser light scattering analysis revealed that N6 and N15 proteins purified were exclusively monomeric form in phosphate buffered saline. CD spectrum showed beta-sheet rich structure, consistent with a typical antibody structure and also suggested aromatic-aromatic interactions, as indicated by a positive peak at 232nm. Thermal melting analysis of the N15 protein with C-terminal His-tag demonstrated a clear thermal transition with a Tm at 67°C. The heat-denatured sample recovered antigen binding activity upon cooling, indicating a reversible denaturation.

Efficient production of anti-fluorescein and anti-lysozyme as single-chain anti-body fragments (scFv) by Brevibacillus expression system.

Expression of scFv in Brevibacillus choshinensis was tested using combinations of three different promoters and four different secretion signals. Two model scFv constructs, i.e., His-scFvFLU and His-scFvHEL, were successfully expressed with some of the combinations. Ni Sepharose column and size exclusion chromatography resulted in fairly pure preparations of these two proteins. The purified His-scFvFLU inhibited fluorescence from fluorescein, while the purified His-scFvHEL inhibited lysozyme activity. Relatively high yield of His-scFvFLU (∼40%) and His-scFvHEL (∼30%) was achieved with the expression and purification system described here.

Secretory production of single-chain antibody (scFv) in Brevibacillus choshinensis using novel fusion partner.

Halophilic ß-lactamase (BLA) has been successfully used as a novel fusion partner for soluble expression of aggregation-prone foreign proteins in Escherichia coli cytoplasm (Appl Microbiol Biotechnol 86:649-658, 2010b). This halophilic BLA fusion technology was applied here for secretory expression in Brevibacillus. The "Brevibacillus in vivo cloning" method, recently developed by Higeta Shoyu group, for the construction and transformation of Brevibacillus expression vectors facilitates efficient screening of the production conditions of Brevibacillus expression system. Two single-chain antibodies (scFv), HyHEL-10 single chain scFv (scFvHEL) and anti-fluorescein single chain scFv (scFvFLU), were successfully secreted to culture supernatant as a fusion protein with halophilic BLA. The scFvHEL-His, purified after cleavage of BLA portion with thrombin, was fully active: it formed a stoichiometric complex with the antigen, lysozyme, and inhibited the enzymatic activity. The scFvFLU-His, similarly expressed and purified, stoichiometrically inhibited fluorescence intensity of fluorescein. The molecular mass of scFvHEL-His was determined to be 27,800 Da by light scattering measurements, indicating its monomeric structure in solution.

Design and utility of CCN2 anchor peptide aptamers.

CCN family protein 2/connective tissue growth factor (CCN2/CTGF) consists of 4 conserved modules that are highly interactive with a number of biomolecules. With such interaction, CCN2 exerts multiple functions by forming an extracellular information network. In the present study, we screened for dodecapeptide sequences that bound to each module of human CCN2 by using a bacteriophage display library. Thereafter, consensus amino acid sequences for the binding to individual modules were extracted in silico and utilized to design anchor peptide aptamers that would facilitate the interaction between CCN2 and other molecules. Direct binding of a few peptides to CCN2 was confirmed by surface plasmon resonance analysis. Subsequent biological assay indicated that one such peptide was capable of promoting the proliferation of CCN2-producing chondrocytic cells. This cell biological activity was found to be sequence specific and CCN2 dependent. Since CCN2/CTGF was shown to be effective in articular cartilage/bone regeneration in vivo, utility of such peptide aptamers in CCN2-associated regenerative therapeutics is suggested herein.

Brevibacillus expression system: host-vector system for efficient production of secretory proteins.

Brevibacillus expression system is an effective bacterial expression system for secretory proteins. The host bacterium, Brevibacillus choshinensis, a gram-positive bacterium, has strong capacity to secrete a large amount of proteins (approximately 30 g/L), which mostly consist of cell wall protein. A host-vector system that utilizes such high expression capacity has been constructed for the production of secretory proteins and tested for various heterologous proteins, including cytokines, enzymes, antigens, and adjuvants.

CT domain of CCN2/CTGF directly interacts with fibronectin and enhances cell adhesion of chondrocytes through integrin alpha5beta1.

Searching for CCN family protein 2/connective tissue growth factor (CCN2/CTGF) interactive proteins by yeast-two-hybrid screening, we identified fibronectin 1 gene product as a major binding partner of CCN2/CTGF in the chondrosarcoma-derived chondrocytic cell line HCS-2/8. Only the CT domain of CCN2/CTGF bound directly to fibronectin (FN). CCN2/CTGF and its CT domain enhanced the adhesion of HCS-2/8 cells to FN in a dose-dependent manner. The CCN2/CTGF-enhancing effect on cell adhesion to FN was abolished by a blocking antibody against alpha5beta1 integrin (alpha5beta1), but not by one against anti-alphavbeta3 integrin. These findings suggest for the first time that CCN2/CTGF enhances chondrocyte adhesion to FN through direct interaction of its C-terminal CT domain with FN, and that alpha5beta1 is involved in this adhesion.

A selective requirement for copper-dependent activation of cytochrome c oxidase by Cox17p.

Cox17p is cloned from yeast as a chaperone to deliver copper to the mitochondria of assembly for cytochrome c oxidase (CCO). In mammals, CCO is a key enzyme for cellular respiration and a defect in its function is associated with severe neonatal or infantile lactic acidosis and early death. Recently, we found that Cox17p is not only required for mitochondrial oxidative phosphorylation but also is essential for embryonic growth and development in COX17 gene-deficient mice. To investigate its biochemical features, recombinant human Cox17p was overexpressed and purified without a purification tag. It specifically binds Cu(I) at a molar copper content of 3.3+/-0.04 under reduced conditions and significantly activates the mitochondrial CCO in vitro. Although the Cu-Cox17p complex was maintained between pH values from 5.0 to 7.7, Cu was completely released from Cox17p at pH 8.0. An acute exposure of excess amount of copper ion to mouse cells resulted in a significant reduction of Cox17p mRNA expression, whereas copper starvation maintained the Cox17p transcription level. These results suggest that the stringent selectivity of Cox17p for copper is required for CCO activation, to prevent copper overload, or promote the supply of copper.

Module-specific antibodies against human connective tissue growth factor: utility for structural and functional analysis of the factor as related to chondrocytes.

Connective tissue growth factor/hypertrophic chondrocyte specific gene product 24 (CTGF/Hcs24/CCN2) shows diverse functions in the process of endochondral ossification. It promotes not only the proliferation and differentiation of chondrocytes and osteoblasts in vitro, but also angiogenesis in vivo. The ctgf gene is a member of the gene family called CCN, and it encodes the characteristic 4-module structure of this family, with the protein containing IGFBP, VWC, TSP and CT modules. We raised several monoclonal antibodies and polyclonal antisera against CTGF, and located the epitopes in the modules by Western blotting. For mapping the epitopes, Brevibacillus-produced independent modules were utilized. As a result, at least 1 antibody or antiserum was prepared for the detection of each module in CTGF. Western blotting with these antibodies is expected to be useful for the analysis of CTGF fragmentation. Moreover, we examined the effects of these monoclonal antibodies on the biological functions of CTGF. One out of 3 humanized monoclonal antibodies was found to neutralize efficiently the stimulatory effect of CTGF on chondrocytic cell proliferation. This particular antibody bound to the CT module. In contrast, surprisingly, all of the 3 antibodies recognizing IGFBP, VWC and CT modules stimulated proteoglycan synthesis in chondrocytic cells. Together with previous findings, these results provide insight into the structural-functional relationships of CTGF in executing multiple functions.

Novel enzyme-linked immunosorbent assay systems for the quantitative analysis of connective tissue growth factor (CTGF/Hcs24/CCN2): detection of HTLV-I tax-induced CTGF from a human carcinoma cell line.

Connective tissue growth factor/hypertrophic chondrocyte-specific gene product 24 (CTGF/Hcs24/CCN2) is known as a multifunctional growth factor. It stimulates proliferation, migration, and extracellular matrix production of mesenchymal cells, and is highly expressed in hypertrophic chondrocytes. In this study, we constructed useful ELISA systems for the analysis of CTGF and its modular fragments. For this objective we prepared four different antihuman CTGF monoclonal antibodies. One, specific for the VWC module, was utilized as the detecting antibody, and the other three, recognizing CT, IGFBP, and VWC modules, respectively, were employed as capture antibodies. Then we established three novel quantitative analysis systems for CTGF. The first system recognizing CT and VWC modules was useful to measure full-length CTGF with improved sensitivity. Utilizing this system, we found significant enhancement of CTGF production from a human carcinoma cell line transduced by HTLV-I tax gene, where the finding indicates the possible involvement of Tax in carcinogenesis. The second system, seeing IGFBP and VWC modules, could quantify not only CTGF, but also may be useful to analyze processed N-terminal fragments. The third system, utilizing capture and detection antibodies against the VWC module, was able to quantify the VWC module only, while it did not recognize full-length CTGF. Since CTGF is actually processed into subfragments, and functional assignment of each module is of interest, these systems are expected to contribute to the progress of CTGF investigations.

Taxonomic homogeneity of a salt-tolerant lactic acid bacteria isolated from shoyu mash.

Forty-seven salt-tolerant lactic acid bacteria, which had been isolated from different places and grown in 15% NaCl, were examined to assess their taxonomic heterogeneity. Among the isolates, 42 were isolated from shoyu mash during the acid fermentation phase, 2 were from miso and 3 were from anchovy pickles. All isolates were identified as Tetragenococcus halophilus on the basis of DNA relatedness values. We further examined 102 phenotypic characteristics of them. The isolates exhibited differences in only 16, supporting the conclusion obtained from the DNA relatedness analysis.