Anti-CfaE Nanobodies Provide Broad Cross-protection Against Major Pathogenic Enterotoxigenic Escherichia Coli Strains, with Implications for Vaccine Design

Overview

Journal Sci Rep

Specialty Science

Date 2021 Feb 3

PMID 33531570

Citations 17

Authors

Alla Amcheslavsky

Aaron L Wallace

Monir Ejemel

Qi Li

Conor T McMahon

Matteo Stoppato

Serena Giuntini

Zachary A Schiller

Jessica R Pondish

Jacqueline R Toomey

Ryan M Schneider

Jordan Meisinger

Raimond Heukers

Andrew C Kruse

Eileen M Barry

Brian G Pierce

Mark S Klempner

Lisa A Cavacini

Yang Wang

Affiliations

Soon will be listed here.

Abstract

Enterotoxigenic Escherichia coli (ETEC) is estimated to cause approximately 380,000 deaths annually during sporadic or epidemic outbreaks worldwide. Development of vaccines against ETEC is very challenging due to the vast heterogeneity of the ETEC strains. An effective vaccines would have to be multicomponent to provide coverage of over ten ETEC strains with genetic variabilities. There is currently no vaccine licensed to prevent ETEC. Nanobodies are successful new biologics in treating mucosal infectious disease as they recognize conserved epitopes on hypervariable pathogens. Cocktails consisting of multiple nanobodies could provide even broader epitope coverage at a lower cost compared to monoclonal antibodies. Identification of conserved epitopes by nanobodies can also assist reverse engineering of an effective vaccine against ETEC. By screening nanobodies from immunized llamas and a naïve yeast display library against adhesins of colonization factors, we identified single nanobodies that show cross-protective potency against eleven major pathogenic ETEC strains in vitro. Oral administration of nanobodies led to a significant reduction of bacterial colonization in animals. Moreover, nanobody-IgA fusion showed extended inhibitory activity in mouse colonization compared to commercial hyperimmune bovine colostrum product used for prevention of ETEC-induced diarrhea. Structural analysis revealed that nanobodies recognized a highly-conserved epitope within the putative receptor binding region of ETEC adhesins. Our findings support further rational design of a pan-ETEC vaccine to elicit robust immune responses targeting this conserved epitope.

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