Rapid isolation of single-chain antibodies by phage display technology directed against one of the most potent marine toxins: Palytoxin

Several recombinant antibodies against one of the most potent marine toxins, Palytoxin (PlTX), were obtained using two naive human semi-synthetic phage display libraries (Tomlinson I and J) as an effective method for generating specific anti-toxin single-chain variable fragment (scFv) antibodies. After four rounds of panning and selection on free palytoxin adsorbed immunotubes, individual clones were isolated, sequenced and characterized by Enzyme-Linked Immunosorbent Assay (ELISA). Four phage-antibody clones specifically recognized the toxin. A competitive ELISA assay was optimized with one of these phage antibodies giving a very reproducible standard curve with a linear regression (R2 = 0.9945), showing a working range of 0.0005–500 ng mL−1. Several spiked shellfish samples were analysed by competitive ELISA to determine the accuracy of the assay, with a mean recovery rate of 90%. This study demonstrates that phage display libraries provide a valuable system for the easy and rapid generation of specific antibody fragments directed against difficult antigenic targets, such as free small molecules. Large-scale, low-cost production of anti-palytoxin scFv antibodies in Escherichia coli (E. coli) is an exciting prospect for the development of rapid and simple detection methods. Our results suggest that anti-palytoxin phage antibodies could be a valuable tool with competitive ELISA to detect palytoxin in natural shellfish samples.