Immunodetection of the Bacteriocin Lacticin RM: Analysis of the Influence of Temperature and Tween 80 on Its Expression and Activity

Immunoassays with specific antibodies offer higher sensitivity than do bioassays with indicator strains in the detection and quantification of several bacteriocins. Here we present the purification of lacticin RM and the production of specific polyclonal antibodies to a synthetic peptide resembling an internal fragment of the mature bacteriocin. The specificity and sensitivity of the generated polyclonal antibodies were evaluated in various immunoassays. The detection limits of lacticin RM were found to be 1.9, 0.16, and 0.18 μg ml⁻¹ for Western blot, immuno-dot blot, and noncompetitive indirect enzyme-linked immunosorbent assays, respectively. Immunoassay sensitivities were 12.5-fold higher than that of the agar diffusion test (ADT). The production of lacticin RM showed temperature dependency, with 3, 4.2, 12.7, 28.9, 37.8, and 12 μg ml⁻¹ at 37, 30, 20, 15, 10, and 4°C, respectively. Temperature-stability analysis demonstrated that lacticin RM is sensitive to mild temperature, but the loss of activity does not seem to result from protein degradation. Tween 80 increased the concentration of lacticin RM eightfold and probably affected the results of the ADT either by enhancing the activity of lacticin RM or by increasing the sensitivity of the indicator strain. The use of antibodies for the specific detection and quantification of lacticin RM can expand our knowledge of its production and stability, with important implications for further investigation and future application.     

A very sensitive enzyme-linked immunoabsorbent assay to Staphylococcal protein A in the presence of immunoglobulins

The production of recombinant hepatitis B virus surface antigen (rHBsAg) purified by immunoaffinity chromatography with monoclonal antibodies is used to obtain a vaccine against this virus. Monoclonal antibodies to rHBsAg from mouse ascites have been purified by Staphylococcal Protein A (SpA)--prior coupling to Sepharose CL-4B (Amersham-Bioscences, Uppsala, Sweden). A high sensitivity immunoassay has been developed for the quantification of part-per-million of SpA contaminants likely to co-purify with monoclonal antibodies obtained by Protein A affinity chromatography, in the presence of immunoglobulins. Specific sheep polyclonal Abs against SpA (SpAc1) were used as plate coating and the SpA detection was possible thanks to the conjugates of sheep Ab fragments F(ab)(2) (fSpAc1) and horseradish peroxidase (fSpAc1-peroxidase), reducing the possible unspecific interaction between SpA and Fc fragments. The immunoassay was shown to be specific for SpA contaminants. The quantification limit of the assay was 0.39 ng/ml spreading to the measurement of contamination levels less than 2 ppm of SpA in final preparations of monoclonal antibodies used for the immunopurification of pharmaceutical products, which is quite low for this application.     

Quantification of the secretory glycoproteins of the subcommissural organ by a sensitive sandwich ELISA with a polyclonal antibody and a set of monoclonal antibodies against the bovine Reissner’s fiber

The subcommissural organ (SCO) is an ependymal brain gland that releases glycoproteins into the ventricular cerebrospinal fluid where they condense to form the Reissner’s fiber (RF). We have developed a highly sensitive and specific two-antibody sandwich enzyme-linked immunosorbent assay (ELISA) for the quantification of the bovine SCO secretory material. The assay was based on the use of the IgG fraction of a polyclonal antiserum against the bovine RF as capture antibody and a pool of three peroxidase-labeled monoclonal antibodies that recognize non-overlapping epitopes of the RF glycoproteins as detection antibody. The detection limit was 1 ng/ml and the working range extended from 1 to 4000 ng/ml. The calibration curve, generated with RF glycoproteins, showed two linear segments: one of low sensitivity, ranging from 1 to 125 ng/ml, and the other of high sensitivity between 125 and 4000 ng/ml. This assay was highly reproducible (mean intra- and interassay coefficient of variation 2.2% and 5.3%, respectively) and its detectability and sensitivity were higher than those of ELISAs using exclusively either polyclonal or monoclonal antibodies against RF glycoproteins. The assay succeeded in detecting and measuring secretory material in crude extracts of bovine SCO, culture medium supernatant of SCO explants and incubation medium of bovine RF; however, soluble secretory material was not detected in bovine cerebrospinal fluid.     

Comparison of the Potency of the Lipid II Targeting Antimicrobials Nisin, Lacticin 3147 and Vancomycin Against Gram-Positive Bacteria

While nisin (lantibiotic), lacticin 3147 (lantibiotic) and vancomycin (glycopeptides) are among the best studied lipid II-binding antimicrobials, their relative activities have never been compared. Nisin and lacticin 3147 have been employed/investigated primarily as food preservatives, although they do have potential in terms of veterinary and clinical applications. Vancomycin is used exclusively in clinical therapy. We reveal a higher potency for lacticin 3147 (MIC 0.95?C3.8???g/ml) and vancomycin (MIC 0.78?C1.56???g/ml) relative to that of nisin (MIC 6.28?C25.14???g/ml) against the food-borne pathogen Listeria monocytogenes. A comparison of the activity of the three antimicrobials against nisin resistance mutants of L. monocytogenes also reveals that their susceptibility to vancomycin and lacticin 3147 changed only slightly or not at all. A further assessment of relative activity against a selection of Bacillus cereus, Enterococcus and Staphylococcus aureus targets revealed that vancomycin MICs consistently ranged between 0.78 and 1.56???g/ml against all but one strain. Lacticin 3147 was found to be more effective than nisin against B. cereus (lacticin 3147 MIC 1.9?C3.8???g/ml; nisin MIC 4.1?C16.7???g/ml) and E. faecium and E. faecalis targets (lacticin 3147 MIC from 1.9 to 3.8???g/ml; nisin MIC ??8.3???g/ml). The greater effectiveness of lacticin 3147 is even more impressive when expressed as molar values. However, in agreement with the previous reports, nisin was the more effective of the two lantibiotics against S. aureus strains. This study highlights that in many instances the antimicrobial activity of these leading lantibiotics are comparable with that of vancomycin and emphasizes their particular value with respect to use in situations including foods and veterinary medicine, where the use of vancomycin is not permitted.     

A lacticin 3147 enriched food ingredient reduces Streptococcus mutans isolated from the human oral cavity in saliva

AIMS: To isolate and characterise Streptococcus mutans from Irish saliva samples and to assess their sensitivity to a food-grade preparation of the lantibiotic, lacticin 3147, produced by Lactococcus lactis DPC3147. METHODS AND RESULTS: Saliva samples collected from children with varying oral health status were screened on Mitis Salivarius agar for the presence of pathogenic streptococci. Following selective plating, 16S rDNA sequencing and Pulsed Field Gel Electrophoresis (PFGE), 15 distinct strains of Strep. mutans were identified. These were grouped according to their relative sensitivity to lacticin 3147 which ranged from 0.78 to 6.25%; relative to a sensitive indicator strain, Lactococcus lactis ssp. lactis HP. Inhibition of indicator Strep. mutans strains from sensitive, intermediate and tolerant groupings were assessed in microtitre plate assays with increasing concentrations of lacticin 3147. The concentration of lacticin 3147 required to give 50% growth inhibition correlated with their relative sensitivities (as assayed by well diffusion methodology) and ranged from 1280 to 5120 AU ml(-1). Concentrated preparations of lacticin 3147 caused a rapid killing of Strep. mutans strains in broth. Moreover, in human saliva deliberately spiked with Strep. mutans, the pathogen was eliminated (initial inoculum of 10(5)) in the presence of 40,000 AU ml(-1) of lacticin 3147. Furthermore, a food-grade lacticin 3147 spray dried powder ingredient was assessed for the inhibition of Strep. mutans in human saliva, spiked with a strain of intermediate sensitivity, resulting in up to a 4-log reduction in counts after 20 min. CONCLUSION: A food grade preparation of lacticin 3147 was effective in the inhibition of oral Strep. mutans. SIGNIFICANCE AND IMPACT OF THE STUDY: The inhibition of oral streptococci by food grade preparations of lacticin 3147 may offer novel opportunities for the development of lacticin 3147 as an anti-cariogenic agent particularly in the area of functional foods for the improvement of oral health.     

Detection of toxin and evaluation of the degree of toxin-formation of Corynebacterium diphtheriae using immunoenzyme analysis

Toxin production and the intensity of toxin formation in 265 C. diphtheriae strains circulating in different areas of the USSR have been studied by the method of the enzyme-linked immunosorbent assay (ELISA). This study has been carried out with the use of the assay system consisting of monoclonal antibodies to the COOH-area of the B-fragment of the toxin molecule adsorbed onto the surface of polystyrene plates, affinity-purified polyclonal antidiphtheria antibodies labeled with horse-radish peroxidase and substrate indicator mixture (5-aminosalicylic acid and hydrogen peroxide). Some specific features of using ELISA for the detection of C. diphtheriae toxin directly in liquid culture medium are presented. High sensitivity, specificity and good reproducibility of this method permitting the detection of C. diphtheriae toxin and the determination of the intensity of toxin formation in the C. diphtheriae strains under study are shown. The method may be recommended for practical use at health institutions.     

Comparison of ELISA and immunoblotting techniques for the detection of cherry mottle leaf virus

Formaldehyde treated cherry mottle leaf virus (ChMLV) and the isolated coat protein were used successfully for the production of polyclonal and monoclonal antibodies. The monoclonal antibodies had a titre of 1:51 200 and consisted of IgG1 and IgG2. The antibodies reacted with all 11 isolates of ChMLV, from five locations in Canada and the USA, included in this study. Several serological procedures were assessed to compare their sensitivity for detecting ChMLV. Plate-trapped antigen ELISA (PTA-ELISA) and dot-blot immunobinding assay (DBIA), using virus specific MAbs, were the most sensitive tests in this study. Triple antibody sandwich ELISA (TAS-ELISA) and Western blot were found to be less sensitive. Dilution of the samples appeared to increase the sensitivity of both PTA-ELISA and Western blot detection. Young leaves and flowers of Prunus avium were the best tissue for detecting the virus which could also be detected in the fruit and leaves of P. tomentosa. April and May were optimal for detection of the virus in the field, whereas both April to May and August to September were optimal for screenhouse-grown plants.     

An alternative approach to the detection of lignin: a note on the application of ELISA using polyclonal antibodies

A specific detection method for lignin has been developed using polyclonal antibodies raised against BSA coupled lignin. This method was found to be highly sensitive and linear in enzyme linked immunosorbant assay (ELISA) within the coating lignin concentration range of 0.01 7g/ml to 1 7g/ml. The interference in the detection due to the presence of lignin breakdown products and other coexisting biopolymers could be eliminated at an antiserum dilution of 1:25600.     

An immunochemical assay model system for the sensitive detection of pyruvate dehydrogenase complex (PDHc) and its decarboxylating subunit pyruvate dehydrogenase (E1).

An immunochemical enzyme immunoassay model system was developed and compared for maximum sensitivity with a radioimmunoassay method and the classic enzyme activity method for the detection of pyruvate dehydrogenase complex (PDHc) and its decarboxylating subunit, pyruvate dehydrogenase (E1), isolated from Escherichia coli. Cross-linked large molecular weight antibody-enzyme conjugate systems are compared with heterobifunctional singular antibody conjugates substituted with high levels of horseradish peroxidase. Both polyclonal and monoclonal antibodies generated to the Escherichia coli PDHc and E1 antigens were used to develop a double-antibody sandwich microtiter plate enzyme-linked immunosorbent assay. It is demonstrated that a double sandwich immunochemical assay system can be quantitative for PDHc, can detect PDHc in crude cell lysates and has levels of sensitivity of 2.0.10(-16) mol for the detection of PDHc. This assay model system provides specific antibody selection criteria and coupling methods needed to select specific antisera that cross-react with human PDHc. This rapid and sensitive immunochemical assay method clearly demonstrates that sensitive mass assay systems can be developed for the detection of PDHc. Different from Western blot, this methodology could be used to generate mass assays which could be applied to the rapid detection of mammalian antigens (employing the corresponding antibodies) implicated in a number of pyruvate dehydrogenase deficiencies associated with human disorders.     

A new luminometer for sensitive quantification by chemiluminescence of specific proteins in microtitre plates and on blot membranes

Generally applicable technologies are described, which depend on the use of chemiluminescence and a new type of a versatile luminometer, that can measure also weak light in microtitre plates (microplates) and on blotting membranes that is especially useful for dot blot immunoassay. Applications are described using alkaline phosphatase conjugated antibodies against IgG and IgE and the reagent Lumi-Phos 530. This chemiluminescence offers advantages over the use of radioactive isotopes, densitometry and light reflection measurement on membranes and also ELISA, for sensitive quantification of e.g. specific proteins. Special procedures are described for the first time that with the mentioned reagent in agarose gel allows specific and very sensitive quantification of proteins on dot blot membranes. The luminometer, which has temperature control, is very sensitive, precise and allows efficient protocols for various assays. It thus fulfils many of the requirements for good quantification, is time-saving and in addition brings significant improvements due to very low detection limits and large linear concentration ranges that can be measured with excellent regression coefficients r² often about 0.999).     

Development and Evaluation of Simple Dot–Blot Assays for Rapid Detection of Staphylococcal Enterotoxin-A in Food

The present study was aimed to develop and evaluate dot–blot assays for rapid detection of staphylococcal enterotoxin-A (SEA) in food. Dot blots were developed in two formats, indirect and sandwich utilizing mouse monoclonal anti-SEA and rabbit polyclonal anti-SEA antibodies. In indirect dot–blot format, recombinant SEA was directly coated on NCM dot–blot strip and detection was carried out by anti-SEA antibodies. In sandwich dot–blot format, SEA was trapped between anti-SEA capture and detection antibodies. Both the dot–blot assays exhibited a sensitivity of ~48 ng ml^?1 when tested in different food matrices. The developed assays were highly specific as no cross-reactivity was detected with other classical staphylococcal enterotoxins, toxigenic bacteria and foodborne pathogens. Sensitivity and specificity of developed indirect and sandwich dot–blot assays with respect to PCR was found to be 100 and 99%, respectively. The results shows that the developed dot–blot assays can be used as rapid preliminary screening tests for detection of SEA in food or determining the toxigenic potential of staphylococci, especially in resource-limited settings.     

A model study of the use of monoclonal antibodies in capture enzyme immunoassays for antigen quantification exploiting the epitope map of tick-borne encephalitis virus

On the basis of an epitope model, capture enzyme immunoassay systems using monoclonal antibodies have been devised for the detection and quantification of Tick-borne encephalitis virus and compared with a reference system employing polyclonal sera. Monoclonal antibodies were used both as capture and detector antibodies, their suitability depending primarily on their avidity and intrinsic background activity. A considerable increase in sensitivity was achieved by combining antibodies to different non-overlapping epitopes. Biotinylation of the detector antibodies allowed the construction of multiple site simultaneous binding assays. Furthermore the use of monoclonal antibodies of defined serological specificity made virus type identification possible. This assay can therefore be used as a rapid 'test of identity' as required during the manufacture of viral vaccines.     

Production of and applications for a polyclonal IgY diagnostic reagent specific for <Emphasis Type="Italic">Mycobacterium avium</Emphasis> subsp. <Emphasis Type="Italic">paratuberculosis</Emphasis>

Antibodies specific to the cell surface antigens of Mycobacterium avium subsp. paratuberculosis (MAP) have multiple useful applications, e.g. organism detection, immunoconcentration, and cell visualization. The aim of this study was to produce and compare polyclonal antibodies for such research and diagnostic purposes. Three polyclonal antibodies to MAP were produced using sera from immunized rabbits and chickens plus naturally infected cows. Cross-reactive antibodies in each MAP antibody preparation were removed by absorption with heterologous mycobacterial and non-mycobacterial cells. The specificity of each resulting polyclonal antibody preparation was evaluated by ELISA to multiple bacterial cell wall extract antigens. After absorption, chicken anti-MAP IgY had the highest specificity of the three antibody preparations. FITC-la-beled anti-MAP IgY was used to effectively locate MAP in macrophages 12 h post-infection. Also, immunomagnetic beads coated with anti-MAP IgY enhanced recovery of MAP from bacterial suspensions in comparison with non-antibody coated beads. Anti-MAP IgY provides a novel new reagent with broad diagnostic and research applications requiring specific concentration, detection, and quantification of MAP.     

Selection and characterization of conditionally active promoters in Lactobacillus plantarum, using alanine racemase as a promoter probe

This paper describes the use of the alr gene, encoding alanine racemase, as a promoter-screening tool for the identification of conditional promoters in Lactobacillus plantarum. Random fragments of the L. plantarum WCFS1 genome were cloned upstream of the promoterless alr gene of Lactococcus lactis in a low-copy-number plasmid vector. The resulting plasmid library was introduced into an L. plantarum Deltaalr strain (MD007), and 40,000 clones were selected. The genome coverage of the library was estimated to be 98%, based on nucleotide insert sequence and restriction analyses of the inserts of randomly selected clones. The library was screened for clones that were capable of complementing the D-alanine auxotroph phenotype of MD007 in media containing up to 10, 100, or 300 micro g of the competitive Alr inhibitor D-cycloserine per ml. Western blot analysis with polyclonal antibodies raised against lactococcal Alr revealed that the Alr production level required for growth increased in the presence of increasing concentrations of D-cycloserine, adding a quantitative factor to the primarily qualitative nature of the alr complementation screen. Screening of the alr complementation library for clones that could grow only in the presence of 0.8 M NaCl resulted in the identification of eight clones that upon Western blot analysis showed significantly higher Alr production under high-salt conditions than under low-salt conditions. These results established the effectiveness of the alanine racemase complementation screening method for the identification of promoters on their conditional or constitutive activity.     

Development and application of indirect competitive enzyme immunoassay for detection of neomycin in milk

As a result of immunization of rabbits with neomycin B (NM) conjugated to sodium periodate-oxidized (SP) transferrin, polyclonal antibodies were generated and used to develop an indirect competitive enzyme-linked immunosorbent assay (ELISA) of NM. Several heterologous conjugates, namely, glutaraldehyde (GA)-polymerized NM, gelatin-ribostamycin (sp), and gelatin-NM (ga) were used as coating antigens in different ELISA variants for quantification of NM in milk. These variants were characterized by different dynamic ranges and detection limits of 1.0, 0.1, and 0.01 ng/ml, respectively. Maximum residue level (MRL) of this antibiotic in milk accepted in the EU can be detected without any special pretreatment at a 100-fold sample dilution in the least sensitive assay variant. The mean recovery rate from NM-spiked milk containing 1.5–10% fat was 111.7% and ranged from 84 to 125.2%. We found that 57 of 106 tested milk samples contained NM at concentrations higher than 100 ng/ml. In ten percent of cases (11/106), the residual level of this antibiotic was greater than 500 ng/ml. In one case, the MRL was exceeded (1690 ng/ml). The assay developed in this study is specific shows no cross-reactivity with other veterinary aminoglycosides, has a good sensitivity reserve, and can serve as an effective tool to monitor the NM content in milk stuff.     

Detection of pediocin PA-1 in food matrices using specific polyclonal antibodies

Pediocin PA-1 was conjugated with keyhole limpet hemocyanin (KLH) and used to immunize rabbits and mice for the production of polyclonal (PAb) and monoclonal (MAb) antibodies. Titers of PAb and MAb of about 4.7 and 2.9 were obtained after three and six immunizations, respectively. An enzyme linked immunosorbent assay (ELISA) was developed for the detection and quantification of pediocin.     

Sensitive time-resolved fluoroimmunoassay for simultaneous detection of serum thyroid-stimulating hormone and total thyroxin with Eu and Sm as labels

Based on a novel cocoating strategy and dissociation enhancement lanthanide fluorescence immunoassay technique, a sensitive time-resolved fluoroimmunoassay (TRFIA) has been developed for simultaneous quantification of human serum thyroid-stimulating hormone (TSH) and thyroxin (T4) in a one-and-the-same assay procedure. The new cocoating strategy for preparing highly active surface anti-TSH and anti-T4 monoclonal antibodies (McAbs) was performed by a three-step protocol. Namely, anti-TSH McAb at high concentration (10 micro g/ml) and extensively biotinylated bovine serum albumin (BSA) at low concentration (0.5 micro g/ml) were coated on microwells by passive adsorption, then streptavidin was captured by the surface BSA-biotin, and finally biotinylated anti-T4 McAb was immobilized by the remnant binding sites of the bound streptavidin. In the present TSH/T4 TRFIA, both sandwich- and competitive-type configurations were involved, and Eu(3+) and Sm(3+) were used as labels for TSH and T4 detection, respectively. The method showed rapid kinetics; the equilibrium was reached within 30min at 37 degrees C due to the use of high concentrations of reaction reagents, rapid agitation, and small reaction volume. The lower limits of detection of the method were 0.028 mIU/L for TSH and 4.1 nmol/L for T4 with 20 micro L of sample volume. The assay ranges for TSH and T4 were 0.21-80.00 mIU/L and 20-300 nmol/L, respectively. The correlation between the TSH/T4 values obtained by the present TSH/T4 TRFIA and those obtained by commercial chemiluminescence immunoassay was satisfactory.     

Nanowire labeled direct-charge transfer biosensor for detecting Bacillus species

A direct-charge transfer (DCT) biosensor was developed for the detection of the foodborne pathogen, Bacillus cereus. The biosensor was fabricated using antibodies as the sensing element and polyaniline nanowire as the molecular electrical transducer. The sensor design consisted of four membrane pads, namely, sample application, conjugate, capture and absorption pads. Two sets of polyclonal antibodies, secondary antibodies conjugated with polyaniline nanowires and capture antibodies were applied to the conjugate and the capture pads of the biosensor, respectively. The detection technique was based on capillary flow action which allowed the liquid sample to move from one membrane to another. The working principle involved antigen-antibody interaction and direct electron charge flow to generate a resistance signal that was being recorded. Detection from sample application to final results was completed in 6 min in a reagentless process. Experiments were conducted to find the best performance of the biosensors by varying polyaniline types and concentrations. Polyaniline protonated with hydrochloric acid, emeraldine salt and polyaniline protonated with perchloric acid were the three kinds of polyaniline used in this study. The biosensor sensitivity in pure cultures of B. cereus was found to be 10(1) to 10(2)CFU/ml. Results indicated that using emeraldine salt at a concentration of 0.25 g/ml gave the best biosensor performance in terms of sensitivity. The biosensor was also found to be specific in detecting the presence of B. cereus in a mixed culture of different Bacillus species and other foodborne pathogens. The speed, sensitivity and ease-of-use of this biosensor make it a promising device for rapid field-based diagnosis towards the protection of our food supply chain. The phenotypic and genotypic similarities between B. cereus and Bacillus anthracis will also allow this biosensor to serve as an excellent model for the detection of B. anthracis.