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Abstract
With antibiotic resistance reaching alarming levels globally, rapid detection of resistance determinants is crucial for administering appropriate antimicrobial therapies. This study aimed to develop monoclonal antibodies (MAbs) against bacterial β-lactamases, which are key enzymes in antibiotic resistance, for potential diagnostic use. To generate MAbs capable of recognising a broad range of β-lactamases in bacterial isolates, the bacteriophage vB_EcoS_NBD2 tail tube protein gp39-derived nanotubes, as a scaffold displaying a highly conserved 17-amino acid peptide of AmpC β-lactamases, were produced in yeast and used as an immunogen for generation of MAbs by hybridoma technology. Thirteen hybridoma clones producing peptide-specific MAbs were developed. To assess MAb reactivity with AmpC enzymes, recombinant DHA-1, PDC-195, ACT-14, CMY-34, and ADC-144 β-lactamases were generated. Eleven of thirteen MAbs demonstrated cross-reactivity with all tested β-lactamases in ELISA and Western blot. Immunoprecipitation and Western blot analyses confirmed MAb reactivity with natural CMY-34 in the Citrobacter portucalensis isolate. Epitope analysis revealed that most MAbs recognise a highly conserved epitope of 11 amino acids. The MAbs were comprehensively characterised using different immunoassays, total internal reflection ellipsometry and computational modelling. These novel MAbs, which recognise a wide range of AmpC enzymes, represent a promising tool for immunodetection of antibiotic resistance determinants.
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