Genomic Insertion of a Heterologous Acetyltransferase Generates a New Lipopolysaccharide Antigenic Structure in and

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2018 Jun 12

PMID 29887851

Citations 9

Authors

Estrella Martinez-Gomez

Jonas Stahle

Yolanda Gil-Ramirez

Amaia Zuniga-Ripa

Mona Zaccheus

Ignacio Moriyon

Maite Iriarte

Goran Widmalm

Raquel Conde-Alvarez

Affiliations

Soon will be listed here.

Abstract

Brucellosis is a bacterial zoonosis of worldwide distribution caused by bacteria of the genus . In and , the major species infecting domestic ruminants, the smooth lipopolysaccharide (S-LPS) is a virulence factor. This S-LPS carries a -formyl-perosamine homopolymer -polysaccharide that is the major antigen in serodiagnostic tests and is required for virulence. We report that the O-PS can be structurally and antigenically modified using , the acetyl-transferase gene involved in -acetyl-perosamine synthesis in O157:H7. constructs carrying plasmidic expressed a modified O-polysaccharide but were unstable, a problem circumvented by inserting into a neutral site of chromosome II. As compared to wild-type bacteria, both kinds of constructs expressed shorter O-polysaccharides and NMR analyses showed that they contained both -formyl and -acetyl-perosamine. Moreover, deletion of the formyltransferase gene in constructs generated bacteria producing only -acetyl-perosamine homopolymers, proving that can replace for . Absorption experiments with immune sera revealed that the constructs triggered antibodies to new immunogenic epitope(s) and the use of monoclonal antibodies proved that and constructs respectively lacked the A or M epitopes, and the absence of the C epitope in both backgrounds. The constructs showed resistance to polycations similar to that of the wild-type strains but displayed increased sensitivity to normal serum similar to that of a R mutant. In mice, the constructs produced chronic infections and triggered antibody responses that can be differentiated from those evoked by the wild-type strain in S-LPS ELISAs. These results open the possibilities of developing brucellosis vaccines that are both antigenically tagged and lack the diagnostic epitopes of virulent field strains, thereby solving the diagnostic interference created by current vaccines against .

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