Effect of inactivation of luxS gene on the properties of Serratia proteamaculans 94 strain.

The luxS gene is responsible for the synthesis of AI-2 (autoinducer-2), a signaling molecule that participates in quorum sensing regulation in a large number of bacteria. In this work, we investigated which phenotypes are regulated by luxS gene in Serratia proteamaculans 94, psychrotrophic strain isolated from spoiled refrigerated meat. AI-2 was identified in S. proteamaculans 94, and the luxS gene involved in its synthesis was cloned and sequenced. A mutant with the inactivated luxS gene was constructed. Inactivation of the luxS gene was shown to lead to the absence of AI-2 synthesis, chitinolytic activity, swimming motility, suppression of the growth of fungal plant pathogens Rhizoctonia solani and Helminthosporium sativum by volatile compounds emitted by S. proteamaculans 94 strain, and to a decrease of extracellular proteolytic activity. The knockout of the luxS gene did not affect synthesis of N-acyl-homoserine lactones, lipolytic, and hemolytic activities of S. proteamaculans 94.

Organism-Level Tumor Models in Zebrafish Danio rerio.

Development and implementation of adequate organism-level models is one of the key elements in biomedical research that focuses on experimental oncology. Over the last decade, studies using Zebrafish (Danio rerio) have gained in popularity in this area of research. This review describes the various approaches that have been used in developing highly effective models for oncological (clinical term, better cancer or tumor) studies based on D. rerio. Priority is given to transplantation models of cancer and their application to optically transparent D. rerio lines, including clonal ones, and utilization tumors of various origins bearing fluorescent labels. The combination of tumor transplantation at organism-level models in transparent clonal D. rerio lines with fluorescent microscopy, FACS-fractionation of tumor cell subsets, and transcription analysis can result in one of the most promising research approaches in providing new information on tumor formation and growth.

Re-Examination of the Esophageal Squamous Cell Carcinoma Model in Rats Induced by N-Nitrososarcosine Ethyl Ester Precursors.

Studies of the molecular mechanisms of esophageal cancer development have to be carried out on sufficient amount of tumor material, obtained under conditions of controlled exposure to carcinogenic factors. Esophageal cancer models on laboratory animals serve an indispensable source of this material. One of these models is esophageal cancer induction in rats by N-nitroso compound precursors. Despite adequate reproduction of human esophageal cancer, this model in fact has not been used since the 1990ies. Re-examination of esophageal cancer model, induced by N-nitrososarcosine ethyl ester precursors, is carried out and its efficiency in induction of squamous cell carcinoma is confirmed.

Glutamyl Endopeptidases: The Puzzle of Substrate Specificity.

Glutamyl endopeptidases (GEPases) are chymotrypsin-like enzymes that preferentially cleave the peptide bonds of the α-carboxyl groups of glutamic acid. Despite the many years of research, the structural determinants underlying the strong substrate specificity of GEPases still remain unclear. In this review, data concerning the molecular mechanisms that determine the substrate preference of GEPases is generalized. In addition, the biological functions of and modern trends in the research into these enzymes are outlined.

[COMPARATIVE EVALUATION OF THE TRANSGENE EXPRESSION EFFICIENCY PROVIDED BY THE MODEL GENETIC CONSTRUCTS OF DIFFERENT STRUCTURE.]

Comparative evaluation of the transgene expression efficiency provided by the model genetic constructs of different structure is an important stage in the development of new expression methods and optimization of the existing expression vectors. However, presently there is no versatile approach to this problem. The goal of this work was to suggest an experimental system for comparative evaluation of the expression efficiency provided by nonviral genetic vectors of various size and topology in human cell cultures. Such system is based on the gene of the green fluorescence protein used as a reporter as well as flow cytofluorometry for evaluation of the expression level and quantitative PCR for adequate selection of the transfection conditions. This system was tested in two model constructs: linear molecule of DNA and plasmid.

A cell population structuring model to estimate recombinant strain growth in a closed system for subsequent search of the mode to increase protein accumulation during protealysin producer cultivation.

In this paper we have proposed a new structured population growth model, further developing a model previously proposed by the authors. Based on this model, optimal growth characteristics of the recombinant strain Escherichia coli BL-21 (DE3) [pProPlnHis(6)] were determined, which allowed us to increase the output of metalloproteinase by 300%. We have experimentally demonstrated the applicability of the new model to cell cultures with implanted plasmids and the potential practical use for an output increase of a wide variety of biosynthesis processes.

Oligopeptidase B from Serratia proteamaculans. II. Enzymatic characteristics: substrate analysis, influence of calcium ions, pH and temperature dependences.

Enzymatic properties of a novel oligopeptidase B from psychrotolerant gram-negative microorganism Serratia proteamaculans (PSP) were studied. The substrate specificity of PSP was analyzed using p-nitroanilide substrates, and the influence of calcium ions on the enzyme activity was studied. Hydrolysis of oligopeptides by PSP was studied using melittin as the substrate. Optimal conditions for the PSP activity (pH and temperature) have been established. It was found that PSP shares some properties with oligopeptidases B from other sources containing two Asp/Glu residues in the S2 site, but it differs significantly in some characteristics. The S2 site of PSP contains only one Asp460 residue. The secondary specificity of PSP has a number of specific features: an unusual substrate inhibition by peptides with hydrophobic residues at the P2 position, as well as the drastic influence of calcium ions on substrate characteristics of the enzyme. It is assumed that the PSP molecule contains a large hydrophobic substrate-binding site, and significant conformational rearrangements of the enzyme active site are induced by Ca(2+) binding and by the formation of the enzyme-substrate complex. The temperature characteristics of PSP (high activity at low temperature as well as low apparent temperature optimum (25°C)) confirm that PSP is a psychrophilic enzyme.

Oligopeptidase B from Serratia proteamaculans. I. Determination of primary structure, isolation, and purification of wild-type and recombinant enzyme variants.

A novel trypsin-like protease (PSP) from the psychrotolerant gram-negative microorganism Serratia proteamaculans was purified by ion-exchange chromatography on Q-Sepharose and affinity chromatography on immobilized basic pancreatic trypsin inhibitor (BPTI-Sepharose). PSP formed a tight complex with GroEL chaperonin. A method for dissociating the GroEL-PSP complex was developed. Electrophoretically homogeneous PSP had molecular mass of 78 kDa; the N-terminal amino acid sequence 1-10 was determined, and mass-spectral analysis of PSP tryptic peptides was carried out. The enzyme was found to be the previously unknown oligopeptidase B (OpdB). The S. proteamaculans 94 OpdB gene was sequenced and the producer strain Escherichia coli BL-21(DE3) pOpdB No. 22 was constructed. The yield of expressed His(6)-PSP was 1.5 mg/g biomass.

Probing for actinase activity of protealysin.

The ability of protealysin, a thermolysin-like metallopeptidase from Serratia proteamaculans 94, to cleave actin and matrix metalloprotease MMP2 is reported. In globular actin, protealysin and S. proteamaculans 94 cell extracts are shown to hydrolyze the Gly42-Val43 peptide bond within the DNase-binding loop and the Gly63-Ile64 and Thr66-Ile67 peptide bonds within the nucleotide cleft of the molecule. At enzyme/substrate mass ratio of 1 : 50 and below, a 36 kDa-fragment produced by the cleavage between Gly42 and Val43 was virtually resistant to further breakdown. Judging from the results of zymography, protealysin transforms proMMP2 into a 66 kDa polypeptide characteristic of mature MMP2, indicating that protealysin can activate MMP2. Upon incubation of S. proteamaculans 94 with human larynx carcinoma Hep-2 cells intracellular bacteria were detected in about 10% of Hep-2 cells, this being the first evidence for invasion of eukaryotic cells with bacteria of this species. Thus, S. proteamaculans 94 turned out to be one more bacterial strain in which synthesis of actin-specific metalloprotease is coupled with bacterial invasion. These results are consistent with the idea of the actinase activity of bacterial metalloproteases being a factor that may promote bacterial invasion of eukaryotic cells.

Hetero- and auto-activation of recombinant glutamyl endopeptidase from Bacillus intermedius.

Glutamyl endopeptidase from Bacillus intermedius (BIGEP) is a secretory serine proteinase specifically hydrolyzing peptide bonds involving alpha-carboxyl groups of glutamic and aspartic acids. In this work, different BIGEP forms (full-length precursor, precursor without signal peptide and mature part) were expressed in Escherichia coli and the process of enzyme maturation was studied in vitro. BIGEP precursor renaturation leads to autocatalytic hydrolysis of the propeptide at Glu(-16). At the same time, the enzyme activation requires the complete removal of the prosequence by other proteinases. The mature part of BIGEP cannot be activated, which indicates that the propeptide is required for the active protein formation. The data obtained allowed us to apply directed mutagenesis of the processing site to obtain a BIGEP form that matured autocatalytically. This approach makes it possible to produce the enzyme without extrinsic proteinases, which is a prerequisite for using it in limited hydrolysis of proteins and peptides.

The expression of Bacillus intermedius glutamyl endopeptidase gene in Bacillus subtilis recombinant strains.

The gene encoding for B. intermedius glutamyl endopeptidase (gseBi) has previously been cloned and its nucleotide sequence analyzed. In this study, the expression of this gene was explored in protease-deficient strain B. subtilis AJ73 during stationary phase of bacterial growth. We found that catabolite repression usually involved in control of endopeptidase expression during vegetative growth was not efficient at the late stationary phase. Testing of B. intermedius glutamyl endopeptidase gene expression with B. subtilis spo0-mutants revealed slight effect of these mutations on endopeptidase expression. Activity of glutamyl endopeptidase was partly left in B. subtilis ger-mutants. Probably, gseBi expression was not connected with sporulation. This enzyme might be involved in outgrowth of the spore, when germinating endospore converts into the vegetative cell. These data suggest complex regulation of B. intermedius glutamyl endopeptidase gene expression with contribution of several regulatory systems and demonstrate changes in control of enzyme biosynthesis at different stages of growth.

Psychrophilic trypsin-type protease from Serratia proteamaculans.

A preparative method for purification of a novel protease from the psychrotolerant Gram-negative microorganism Serratia proteamaculans (PSP) was developed using affinity chromatography on BPTI-Sepharose. It yielded electrophoretically homogeneous PSP preparation of 60 kD. The PSP properties (temperature and pH stability, high catalytic efficiency) indicate that this enzyme can be defined as a psychrophilic protease. Inhibitory analysis together with substrate specificity indicates that the studied PSP exhibits properties of serine trypsin-like and Zn-dependent protease.

Modification of substrate-binding site of glutamyl endopeptidase from Bacillus intermedius.

Glutamyl endopeptidases (GEPs) are serine proteases belonging to the chymotrypsin structural family. Although the family as a whole has been described in detail, the molecular mechanism underlying strict substrate specificity of GEPs remains unclear. The most popular hypothesis attributes the key role in recognition of the charged substrates by GEPs to the conserved amino acid His213 (chymotrypsin numbering system). In order to test the role of this residue in the substrate specificity, we obtained a GEP from Bacillus intermedius with an amino acid substitution (His213-Thr) and studied its catalytic properties. Such modification proved not to affect the primary specificity of the enzyme. The introduced substitution had little effect on the Michaelis constant (Km increased 4.9 times) but considerably affected the catalytic constant (kcat decreased 615 times). The obtained data suggest that the conserved His213 residue in Bacillus GEPs is not a key element determining their primary substrate specificity.

Bacillus intermedius glutamyl endopeptidase. Molecular cloning and nucleotide sequence of the structural gene.

The glutamyl endopeptidase gene of Bacillus intermedius was cloned from a genomic library expressed in Bacillus subtilis and sequenced (EMBL accession number Y15136). The encoded preproenzyme contains 303 amino acid residues; the mature 23-kDa enzyme consists of 215 residues. The mature enzyme reveals 38% of identical residues when aligned with the glutamyl endopeptidase from Bacillus licheniformis, whereas only five invariant residues were found among all known glutamyl endopeptidases. The amino acid residues that form the catalytic triad (H47, D98, and S171) as well as H186 participating in the binding of the substrate carboxyl group were identified. It seems that the structural elements responsible for the function of glutamyl endopeptidases from various sources are highly variable.

Purification and characterization of serine proteinase of the Glu,Asp-specific enzyme family from Thermoactinomyces species.

Enzyme catalyzing hydrolysis of a substrate of Glu,Asp-specific proteinases (Z-Glu-pNA) and cleaving bond Glu13-Ala14 in the oxidized insulin B chain was purified to homogeneity from the culture medium of Thermoactinomyces species using hydrophobic chromatography on phenyl-Sepharose CL 4B as the key purification step. The molecular weight of the proteinase is 23 kD. The enzyme is completely inhibited by diisopropyl fluorophosphate and is stable at pH 5-11. The pH optimum for the hydrolysis of azocasein as substrate is 8.5. The temperature optimum for proteolytic activity is 55 degrees C. The N-terminal sequence of the proteinase is: Ser-Val-Leu-Gly-Thr-Asp-Glu-Arg-Thr-Arg-Val-Thr-Asn-Thr-Thr-Thr-Tyr-Pro- Tyr- Trp-.