Anticuerpos de cadena única de alpaca para la detección de antígenos de Fasciola hepática / Single-chain antibodies from alpaca for the detection of Fasciola hepatica antigens

RESUMEN Objetivo. Producir anticuerpos recombinantes de cadena única de alpaca que se unan con alta afinidad y especificidad al antígeno excretado-secretado (ES) de Fasciola hepatica para el desarrollo de tecnologías nuevas de diagnóstico de fascioliasis humana y animal. Materiales y métodos. Se ha construido una genoteca de cADNde los dominios variables de anticuerpos de cadena única pesada, conocidos como VHH, a partir de células mononucleares de sangre periférica de una alpaca inmunizada con el antígeno ES de F. hepatica. La genoteca fue tamizada con el antígeno ES por despliegue diferencial de fagos (phage display), seleccionando diez VHH que se unen específicamente a ES. El VHH anti ES fue clonado en un vector de expresión, la proteína recombinante (VHH-ES1) de 15,3 kDa fue producida por fermentación en E. coli y purificada a homogeneidad por cromatografía de afinidad. La unión del VHH-ES1 al antígeno ES fue evaluada por ELISA usando VHH-ES1 como anticuerpo de captura, antisuero policlonal anti-ES de conejo y conjugado anti IgG de conejo con peróxidasa de rábano. Resultados. Se ha identificado y producido un VHH-ES1 recombinante que se une al antígeno ES (VHH-ES1) que correspondía a un anticuerpo de la subclase IgG2 de bisagra larga. La unión del anticuerpo VHH-ES1 al antígeno muestra linealidad respecto a la concentración de ES en el rango de 50-5000 ng/mL y el valor límite de detección del antígeno está en el rango de 30-170 ng/mL de ES (R2=0,99). Conclusión . El VHH-ES1 se une con afinidad y especificidad al antígeno ES de F. hepatica y es un anticuerpo promisorio a evaluar para el desarrollo de nuevas tecnologías de diagnóstico de fascioliasis.

ABSTRACT Objectives. To produce recombinant single-chain antibodies from alpaca that will bind to the excreted-secreted (ES) Fasciola hepatica antigen with high affinity and specificity, so as to develop new diagnostic technologies of human and animal fascioliasis. Materials and Methods. A gene bank of DNA of the variable dominions of heavy single-chain antibodies (VHH) has been created, based on mononuclear cells of peripheral blood of an alpaca immunized with the ES antigen of F. hepatica. The gene bank was screened with the ES antigen by differential phage display, selecting ten VHH that bind specifically to ES. The anti-ES VHH was cloned in an expression vector, the recombinant protein (VHH-ES1) of 15.3 kDa was produced by fermentation in E. coli and purified to homogeneity by affinity chromatography. The binding of VHH-ES1 to the ES antigen was evaluated by ELISA using VHH-ES1 as capture antibody, policlonal anti-ES serum of rabbit and conjugated rabbit anti IgG with radish peroxidase. Results. A VHH that binds to the ES antigen (VHH-ES1) has been identified through differential phage display and produced by fermentation in E. coli; this corresponds to an antibody of the long-hinge IgG2 subclass. The binding of the VHH-ES1 antibody to the antigen shows linearity with respect to the concentration of ES in the 50-5,000 ng/mL range and the limit of detection value of the antigen is in the 30-170 ng/mL range of ES (R2=0.99). Conclusions. The VHH-ES1 binds with affinity and specificity to the ES antigen of F. hepatica and is a promissory antibody to be assessed for the development of new fascioliasis diagnostic technologies.

Generation of dimeric single-chain antibodies neutralizing the cytolytic activity of vaginolysin

Background: Gardnerella vaginalis is a bacterial vaginosis (BV)-associated vaginal bacterium that produces the toxin vaginolysin (VLY). VLY is a pore-forming toxin that is suggested to be the main virulence factor of G. vaginalis. The high recurrence rate of BV and the emergence of antibiotic-resistant bacterial species demonstrate the need for the development of recombinant antibodies as novel therapeutic agents for disease treatment. Single-chain variable fragments (scFvs) generated against VLY exhibited reduced efficacy to neutralize VLY activity compared to the respective full-length antibodies. To improve the properties of scFvs, monospecific dimeric scFvs were generated by the genetic fusion of two anti-VLY scFv molecules connected by an alpha-helix-forming peptide linker. Results: N-terminal hexahistidine-tagged dimeric scFvs were constructed and produced in Escherichia coli and purified using metal chelate affinity chromatography. Inhibition of VLY-mediated human erythrocyte lysis by dimeric and monomeric scFvs was detected by in vitro hemolytic assay. The circulating half-life of purified scFvs in the blood plasma of mice was determined by ELISA. Dimeric anti-VLY scFvs showed higher neutralizing potency and extended circulating half-life than parental monomeric scFv. Conclusions: The protein obtained by the genetic fusion of two anti-VLY scFvs into a dimeric molecule exhibited improved properties in comparison with monomeric scFv. This new recombinant antibody might implement new possibilities for the prophylaxis and treatment of the diseases caused by the bacteria G. vaginalis.

Serotype- and serogroup-specific detection of African horsesickness virus using phage displayed chicken scFvs for indirect double antibody sandwich ELISAs

There is an ongoing need for standardized, easily renewable immunoreagents for detecting African horsesickness virus (AHSV). Two phage displayed single-chain variable fragment (scFv) antibodies, selected from a semi-synthetic chicken antibody library, were used to develop double antibody sandwich enzyme-linked immunosorbent assays (DAS-ELISAs) to detect AHSV. In the DAS-ELISAs, the scFv previously selected with directly immobilized AHSV-3 functioned as a serotype-specific reagent that recognized only AHSV-3. In contrast, the one selected with AHSV-8 captured by IgG against AHSV-3 recognized all nine AHSV serotypes but not the Bryanston strain of equine encephalosis virus. Serving as evidence for its serogroup-specificity. These two scFvs can help to rapidly confirm the presence of AHSV while additional serotype-specific scFvs may simplify AHSV serotyping.

Application of bispecific antibody against antigen and hapten for immunodetection and immunopurification

We present a bispecific antibody that recognizes an antigen and a hapten and can be applied to various biological assays, including immunoblotting and immunoprecipitation. In immunoblot analysis of serum, an anti-C5 x anti-cotinine bispecific tandem single-chain variable fragment (scFv)-Fc fusion protein and cotinine-conjugated horseradish peroxidase (HRP) generated a clean signal without the high background that was observed in a parallel experiment using HRP-conjugated goat anti-rabbit immunoglobulin G (Fc-specific) antibody. In immunoprecipitation analysis of serum, use of the bispecific tandem scFv-Fc fusion protein and cotinine-crosslinked magnetic beads significantly reduced the amount of protein contaminants compared with a parallel experiment done with protein A agarose beads. In subsequent immunoblot analysis, use of cotinine-HRP as the secondary probe instead of HRP-conjugated goat anti-rabbit IgG (Fc-specific) antibody successfully eliminated the band corresponding to the bispecific tandem scFv-Fc fusion protein.