Design of a novel affinity probe using the cell wall-binding domain of a Listeria monocytogenes autolysin for pathogen detection

Rapid identification of foods and food-processing environments contaminated with Listeria monocytogenes is crucial for controlling human listeriosis, a leading cause of fatality related to foodborne illnesses. The L. monocytogenes autolysin IspC anchors to the bacterial surface non-covalently via its C-terminal cell wall-binding domain (CWBD), which contains conserved Gly-Trp (GW) dipeptides. This study explored the binding property of CWBDIspC to design an affinity probe for detecting L. monocytogenes. Immunogold electron microscopy analysis of a Delta ispC mutant and its wild type (WT) revealed that exogenously added CWBDIspC bound to surface ligands that were evenly distributed and remained mostly unoccupied in the wild type. CWBDIspC detected, via recognizing the cell wall component lipoteichoic acid, L. monocytogenes strains primarily belonging to the serotype 4 group, as well as Listeria innocua, and Listeria welshimeri but did not detect three other Listeria spp. (Listeria seeligeri, Listeria ivanovii, and Listeria grayi) nor any non-Listeria spp. tested. CWBDIspC, when tagged with the enhanced green fluorescent protein, was capable of detecting L. monocytogenes by fluorescence microscopy, a colony lift filter assay, and a microtube binding assay. CWBDIspC, when covalently attached to magnetic beads, showed the ability to separate L. monocytogenes cells with a maximum capture rate of 90 to nearly 100% from 1 x 10(3) to 1 x 10(5 )target cells. This study demonstrated for the first time that the CWBD derived from a GW surface protein IspC is a novel antibody alternative for the rapid detection and isolation of L. monocytogenes despite binding to two other Listeria species. IMPORTANCE Human listeriosis is caused by consuming foods contaminated with the bacterial pathogen Listeria monocytogenes, leading to the development of a severe and life-threatening foodborne illness. Detection of L. monocytogenes present in food and food processing environments is crucial for preventing Listeria infection. The L. monocytogenes peptidoglycan hydrolase IspC anchors non-covalently to the bacterial surface through its C-terminal cell wall-binding domain (CWBD), CWBDIspC. This study explored the surface binding property of CWBDIspC to design, construct, characterize, and assess an affinity molecular probe for detecting L. monocytogenes. CWBDIspC recognized a cell wall ligand lipoteichoic acid that remains evenly displayed and mostly unoccupied on the bacterial surface for interaction with the exogenously added CWBDIspC. CWBDIspC, when fused to the enhanced green fluorescent protein reporter or covalently conjugated onto magnetic beads, exhibited the functionality as an antibody alternative for rapid detection and efficient separation of the pathogen.

Automated summary

This study explored the binding property of CWBDIspC to design an affinity probe for detecting L. monocytogenes. The results showed that CWBDIspC can effectively detect L. monocytogenes by recognizing the cell wall component lipoteichoic acid. It also demonstrated the ability to separate and capture L. monocytogenes cells, making it a potential antibody alternative for rapid detection and isolation of the pathogen.