Litcius/Paper detail

Configuration-Specific Antibody for Bacterial Heptosylation: An Antiadhesion Therapeutic Strategy

Xiang Li, Chongbing Liao, Yue Xu, Qiuhe Lu, Si Chen, Li Su, Yan Zou, Feng Shao, Wuyuan Lu, Weidong Zhang, Honggang Hu

2022Journal of the American Chemical Society12 citationsDOI

Abstract

Alternative antibacterial therapies refractory to existing mechanisms of antibiotic resistance are urgently needed. One such attractive therapy is to inhibit bacterial adhesion and colonization. Ser O-heptosylation (Ser O-Hep) on autotransporters of Gram-negative bacteria is a novel glycosylation and has been proven to be essential for bacterial colonization. Herein, we chemically synthesized glycopeptides containing this atypical glycan structure and an absolute C6 configuration through the assembly of Ser O-Hep building blocks. Using glycopeptides as haptens, we generated first-in-class poly- and monoclonal antibodies, termed Anti-SerHep1a and Anti-SerHep1b, that stereoselectively recognize Ser O-heptosylation (d/l-glycero) with high specificity in vitro and in vivo. Importantly, these antibodies effectively blocked diffusely adhering Escherichia coli 2787 adhesion to HeLa cells and in mice in a dose- and Ser O-Hep-dependent manner. Together, these antibodies represent not only useful tools for the discovery of unknown serine O-heptosylated proteins bearing various C6 chiral centers but also a novel class of antiadhesion therapeutic agents for the treatment of bacterial infection.

Topics & Concepts

ChemistryEscherichia coliAntibodyBacterial adhesinGlycanIn vivoGlycopeptideMonoclonal antibodyHaptenAminoglycosideAntibioticsMicrobiologyGlycosylationBacteriaBiochemistryGlycoproteinBiologyImmunologyBiotechnologyGeneGeneticsGlycosylation and Glycoproteins ResearchCarbohydrate Chemistry and SynthesisRNA and protein synthesis mechanisms