What is it about?

Phage display technology is a powerful tool for selecting monoclonal antibodies against a diverse set of antigens. Within toxinology, however, it remains challenging to generate monoclonal antibodies against many animal toxins, as they are difficult to obtain from venom. Recombinant toxins have been proposed as a solution to overcome this challenge, but so far, few have been used as antigens to generate neutralizing antibodies. Here, we describe the recombinant expression of α-cobratoxin in E. coli and its successful application as an antigen in a phage display selection campaign. From this campaign, an scFv (single-chain variable fragment) was isolated with similar binding affinity to a control scFv generated against the native toxin. The selected scFv recognizes a structural epitope, enabling it to inhibit the interaction between the acetylcholine receptor and the native toxin in vitro. This approach represents the first entirely in vitro antibody selection strategy for generating neutralizing monoclonal antibodies against a snake toxin.

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Why is it important?

Current anti-venoms are derived from plasma of immunized animals (such as horses), a procedure that is associated with a variety of problems. Here, a method is developed for the production of anti-toxin antibody fragments that are produced entirely in vitro.

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This page is a summary of: A single-chain variable fragment selected against a conformational epitope of a recombinantly produced snake toxin using phage display, New Biotechnology, September 2023, Elsevier,
DOI: 10.1016/j.nbt.2023.04.002.
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