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Biorxiv
Goldsmith, J;Nguyen, A;Wilen, R;Wijagkanalan, W;McLellan, J;Maynard, J;
/ABSTRACTPertussis toxin (PT) is a key protective antigen in vaccine- and natural immunity-mediated protection fromBordetella pertussisinfection. Despite its importance, no PT-neutralizing epitopes have been characterized structurally. To define neutralizing epitopes and identify key structural elements to preserve during PT antigen design, we determined a 3.6 Å cryo-electron microscopy structure of genetically detoxified PT (PTg) bound to hu11E6 and hu1B7, two potently neutralizing anti-PT antibodies with complementary mechanisms: disruption of toxin adhesion to cells and intracellular activities, respectively. Hu11E6 bound the paralogous S2 and S3 subunits of PTg via a conserved epitope, but surprisingly did not span the sialic acid binding site implicated in toxin adhesion. High-throughput glycan array analysis showed that hu11E6 specifically prevents PTg binding to sialylated N-glycans, while a T cell activation assay showed that hu11E6 blocks PTg mitogenic activities to define the neutralizing mechanism. Hu1B7 bound a quaternary epitope spanning the S1 and S5 subunits, although functional studies of hu1B7 variants suggested that S5 binding is not involved in its PT neutralization mechanism. These results are the first to structurally define neutralizing epitopes on PT, improving our molecular understanding of immune protection fromB. pertussisand providing key information for the future development of PT immunogens.SIGNIFICANCEAntibodies neutralizing pertussis toxin (PT) prevent the severe clinical symptoms associated with infection byBordetella pertussis. However, the molecular basis of effective PT-targeted immunity is poorly understood. To gain insight into PT-inhibitory mechanisms, we determined the cryo-electron microscopy structure of genetically detoxified PT (PTg) with two potently neutralizing antibodies to precisely define their epitopes. Carbohydrate-binding studies show that the hu11E6-binding surface on PT interacts with N-linked glycans and that blocking these interactions prevents PTs T cell mitogenic activities. Hu1B7 binds an epitope near the S1 active site that includes S5 contacts but these do not appear important for neutralization. This work identifies PT-neutralizing epitopes and supports inclusion of the hu1B7 and hu11E6 epitopes in next-generation vaccines and PT-based immunogens.