Abstract
The incidence of multidrug-resistant Enterococcus faecium hospital infections has been steadily increasing. With the goal of discovering new vaccine antigens, we systematically fractionated and purified four distinct surface carbohydrates from E. faecium endocarditis isolate Tx16, shown previously to be resistant to phagocytosis in the presence of human serum. The two most abundant polysaccharides consist of novel branched heteroglycan repeating units that include signature sugars altruronic acid and legionaminic acid, respectively. A minor high molecular weight polysaccharide component was recognized as the fructose homopolymer levan, and a glucosylated lipoteichoic acid (LTA) was identified in a micellar fraction. The polysaccharides were conjugated to the CRM197 carrier protein, and the resulting glycoconjugates were used to immunize rabbits. Rabbit immune sera were evaluated for their ability to kill Tx16 in opsonophagocytic assays and in a mouse passive protection infection model. Although antibodies raised against levan failed to mediate opsonophagocytic killing, the other glycoconjugates induced effective opsonic antibodies, with the altruronic acid-containing polysaccharide antisera showing the greatest opsonophagocytic assay activity. Antibodies directed against either novel heteroglycan or the LTA reduced bacterial load in mouse liver or kidney tissue. To assess antigen prevalence, we screened a diverse collection of blood isolates (n = 101) with antibodies to the polysaccharides. LTA was detected on the surface of 80% of the strains, and antigens recognized by antibodies to the two major heteroglycans were co-expressed on 63% of these clinical isolates. Collectively, these results represent the first steps toward identifying components of a glycoconjugate vaccine to prevent E. faecium infection.
Highlights
E. faecium infections are increasingly refractory to antibiotics, encouraging vaccine approaches
lipoteichoic acid (LTA) was detected on the surface of 80% of the strains, and antigens recognized by antibodies to the two major heteroglycans were co-expressed on 63% of these clinical isolates
E. faecium is a problem pathogen that is becoming increasingly hard to treat with available antibiotics
Summary
E. faecium infections are increasingly refractory to antibiotics, encouraging vaccine approaches. LTA was detected on the surface of 80% of the strains, and antigens recognized by antibodies to the two major heteroglycans were co-expressed on 63% of these clinical isolates. These results represent the first steps toward identifying components of a glycoconjugate vaccine to prevent E. faecium infection. The abbreviations used are: VRE, vancomycin-resistant Enterococcus; OPA, opsonophagocytic assay; LTA, lipoteichoic acid; SEC, size exclusion chromatography; MFI, mean fluorescence intensity; CPS, capsular polysaccharide; Leg, 5,7-diacetamido-3,5,7,9-tetradeoxy-D-glycero-D-galacto-nonulosonic acid; MWCO, molecular weight cutoff; AEC, anion exchange column chromatography; NRS, normal rabbit serum; T.E.S.T., Tigecycline Evaluation and Surveillance Trial; Neu5NAc, 5-N-acetylneuraminic acid; MALLS, multiangle laser light scattering; RI, refractive index; HPAEC-PAD, high performance anion-exchange liquid chromatography with pulsed amperometric detection. To assess coverage of these antigens for a potential vaccine, we used flow cytometry to measure the presence of structurally related polysaccharides in a collection of clinically relevant E. faecium strains
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