Research paper High-throughput homogeneous immunoassay readily identifies monoclonal antibody to serovariant clostridial neurotoxins

High-throughput screening can create the potential ability to screen large numbers of monoclonal antibodies (mAb) in a short time period. A major bottleneck in the hybridoma method for mAb development has historically been the inability to sift through large numbers of hybridoma culture supernatants to identify clones secreting mAbs of the desired specificity. Herein, we develop a homogeneous fluorometric microvolume assay technology (FMAT) and compare it to conventional ELISA screening techniques for monoclonal antibody against soluble protein toxin fragments of the Clostridium botulinum types A, B and E neurotoxin (BoNT) proteins. In total 8744 hybridoma clones were screened to identify 29 stable hybridomas to neurotoxin binding domain; six of these would have been missed by ELISA alone. Screening of hybridoma supernatants on days 1 and 4 following cloning from semi-solid HAT agarose reveals that FMAT provides a reliable method for screening hybridoma clones to purified protein toxins. The homogeneous FMAT utilizes far less reagent (antigen and hybridoma supernatant) allowing for simultaneous screening against multiple serovariant antigens early in the hybridoma cloning cycle. This reduces costs for reagents and labour by lowering numbers of clones being maintained with undesired specificity. Furthermore, this assay easily accommodates replicate screening which facilitates identification of cross-reactivity to neurotoxin serotypes, thus readily identifying mAb to serovariant antigens. These findings have broad application in accelerating mAb development to serovariant cell-surface or bead bound targets without arraying devices. In summary, FMAT provides a reliable method for the screening of mAbs against C. botulinum neurotoxins. Crown Copyright © 2007 Published by Elsevier B.V. All rights reserved.