Abstract
In recent years there have been major efforts to develop glycoconjugate vaccines based on the Vi polysaccharide that will protect against Salmonella enterica Typhi infections, particularly typhoid fever, which remains a major public health concern in low-income countries. The design of glycoconjugate vaccines influences the immune responses they elicit. Here we systematically test the response in mice to Vi glycoconjugates that differ in Vi chain length (full-length and fragmented), carrier protein, conjugation chemistry, saccharide to protein ratio and size. We show that the length of Vi chains, but not the ultimate size of the conjugate, has an impact on the anti-Vi IgG immune response induced. Full-length Vi conjugates, independent of the carrier protein, induce peak IgG responses rapidly after just one immunization, and secondary immunization does not enhance the magnitude of these responses. Fragmented Vi linked to CRM197 and diphtheria toxoid, but not to tetanus toxoid, gives lower anti-Vi antibody responses after the first immunization than full-length Vi conjugates, but antibody titres are similar to those induced by full-length Vi conjugates following a second dose. The chemistry to conjugate Vi to the carrier protein, the linker used, and the saccharide to protein ratio do not significantly alter the response. We conclude that Vi length and carrier protein are the variables that influence the anti-Vi IgG response to immunization the most, while other parameters are of lesser importance.
Highlights
Typhoid fever remains a major public health concern in low-income countries and affects millions of people each year [1]
Carboxylic groups along the PS chain were randomly activated with carbodiimide and NHS and linked to the carrier protein, previously derivatised with acid dihydrazide (ADH) as a spacer
CRM197 was compared to DT and TT, two other proteins commonly used in the production of glycoconjugate vaccines [8], including Vi conjugate vaccines [6, 7]
Summary
Typhoid fever remains a major public health concern in low-income countries and affects millions of people each year [1]. Vaccination is considered the most promising strategy for the control of the disease [2]. Antibodies directed against the Vi antigen, which forms a polysaccharide (PS) capsule around Salmonella enterica serovar Typhi Typhi), can offer protection and Vi PS is currently licensed as a vaccine against typhoid fever [3]. Being a T-independent antigen, the Vi PS is not immunogenic in infants and is only licensed for children over two years of age [4, 5]. Recent years have seen major efforts to develop glycoconjugate vaccines
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
