Development of an immunochromatographic lateral flow assay to rapidly detect OXA-23-, OXA-40-, OXA-58- and NDM-mediated carbapenem resistance determinants in Acinetobacter baumannii.

Introduction. Acinetobacter baumannii infections can be extremely challenging to treat owing to the worldwide prevalence of multidrug-resistant isolates, especially against carbapenems. Colonization with carbapenem-resistant A. baumannii (CRAb) requires rapid action from an infection control perspective because the organism is known for its propensity for epidemic spread. Hypothesis/Gap Statement. There is an unmet medical need to rapidly identify CRAb to enable appropriate antimicrobial treatment and to prevent transmission. Aim. Our aim was to expand the OXA-detection abilities of the rapid immunochromatographic test (ICT) OXA-23 K-SeT (Coris BioConcept) to include OXA-40- and OXA-58-like carbapenemases, which together confer carbapenem resistance to more than 94 % of CRAb isolates worldwide. Methodology. We used hybridoma technology to generate mAbs against OXA-40 and OXA-58 and selected them for productivity and specificity against recombinant and endogenous OXA-40 and OXA-58. Combinations of the resulting mAbs were analysed in ICT format for their ability to detect recombinant rOXA-40His6 or rOXA-58His6, respectively. Subsequently, selected antibody pairs were implemented into single-OXA-40 or single-OXA-58 prototypes and the final OXA-23/40/58/NDM ICT and were evaluated on clinical Acinetobacter spp. isolates with well-defined carbapenem resistance mechanisms. Results. Five anti-OXA-40 and anti-OXA-58 mAbs were selected. Competition ELISA with combinations of these antibodies revealed that the anti-OXA-40 antibodies bind to one of two binding clusters on OXA-40, while anti-OXA-58 antibodies bind to one of four binding clusters on OXA-58. Direct binding to the corresponding antigen in an ICT format has left only three antibodies against rOXA-40His6 and rOXA-58His6, respectively for the subsequent sandwich ICT selection procedure, which revealed that the anti-OXA-40 (#5) and anti-OXA-58 (#A8) mAbs in combination with the cross-reactive mAb #C8 performed best. They were implemented into single-OXA-40 and single-OXA-58 ICT prototypes and evaluated. These single ICT prototypes demonstrated 100 % specificity and sensitivity. Based on these results, an OXA-23/40/58/NDM-ICT was developed, complemented with OXA-23 and NDM-specific detection. An evaluation with selected carbapenem-resistant Acinetobacter spp. isolates (n=34) showed 100 % specificity. Conclusion. With this easy-to-use detection assay, one can save 12-48 h in diagnostics, which helps to treat patients earlier with appropriate antibiotics and allows immediate intervention to control transmission of CRAb.

Generation and selection of antibodies for a novel immunochromatographic lateral flow test to rapidly identify OXA-23-like-mediated carbapenem resistance in Acinetobacter baumannii.

INTRODUCTION: The spread of carbapenem-resistant Acinetobacter baumannii has led to a worldwide healthcare problem. Carbapenem resistance in A. baumannii is mainly mediated by the acquisition of the carbapenem-hydrolyzing oxacillinase OXA-23. The phenotypic detection of carbapenem-producing A. baumannii is challenging and time-consuming. Hence, there is an unmet medical need for reliable and rapid diagnostic tools to detect OXA-23-producing Acinetobacter isolates to enable successful patient management. AIM: Development of an immunochromatographic lateral flow test (ICT) for the rapid and reliable detection of OXA-23-producing carbapenem-resistant Acinetobacter isolates. METHODOLOGY: For the development of an antibody-based ICT, we generated anti-OXA-23 monoclonal antibodies (MoAbs) and screened them sequentially for their ability to bind native OXA-23. Selected OXA-23-specific MoAbs were tested in different combinations for their capacity to capture and detect OXA-23His6 by sandwich enzyme-linked immunosorbent assay (ELISA) and ICT. A well-characterized collection of carbapenem-resistant Acinetobacter isolates with defined carbapenem resistance mechanisms were used to evaluate the specificity of the final OXA-23 ICT prototype. RESULTS: The antibody pairs best suited for the sandwich ELISA format did not match the best pairs in the ICT format selected during the development process of the final prototype OXA-23 ICT. This prototype was able to differentiate between OXA-23 subfamily-mediated carbapenem resistance and carbapenem-resistant Acinetobacter isolates overexpressing other OXAs with 100  % specificity and a turnaround time of 20 min from culture plate to result. CONCLUSION: With this rapid detection assay one can save 12-48 h of diagnostic time, which could help avoid inappropriate use of carbapenems and enable earlier intervention to control the transmission of OXA-23-producing carbapenem-resistant Acinetobacter isolates to other patients and healthcare workers.