The recent recognition of type V strains as a frequent cause of group B streptococcal (GBS) infection in both infants and adults prompted investigation of an effective vaccine against these organisms. Purified GBS type V polysaccharide was covalently linked to tetanus toxoid to form a type V polysaccharide-tetanus toxoid conjugate vaccine. The conjugate elicited type V polysaccharide-specific IgG antibodies in rabbits, while unconjugated type V polysaccharide did not. Conjugate-induced rabbit antibodies were opsonic in vitro and protected mice against challenge with type V GBS. Efficacy of the conjugate vaccine also was demonstrated in a maternal vaccination/neonatal challenge model in mice. A GBS type V polysaccharide-tetanus toxoid conjugate is an effective immunogen in animal models and may be a useful component for inclusion in a multivalent GBS vaccine for human use.
Two animal models were used to study maternal transfer of antibody to a group B Streptococcus (GBS) type III polysaccharide-tetanus toxoid (III-TT) conjugate. The III-TT vaccine protected all 27 mouse pups born to vaccinated dams against a GBS challenge. In a separate study of vaccinated mouse dams and pups, maternal sera contained all 4 subclasses of polysaccharide-specific IgG, with IgG1 accounting for 83% of total IgG. Specific IgG subclass distribution (IgG1>>IgG2a=IgG2b=IgG3) in newborn pups closely resembled that in their mothers. Seven of 9 female baboons given the III-TT vaccine had 5- to 36-fold increases in specific antibody from baseline levels; they transferred 26%-185% of specific antibody to their offspring. Matched maternal and neonatal sera obtained at delivery were functionally equivalent in an in vitro opsonophagocytosis assay. These preclinical studies provide further evidence for effective immunogenicity of GBS conjugate vaccine and efficient transport of functionally active maternal antibody.
Group B Streptococcus (GBS) types VI and VIII are prevalent among serotypes isolated from pregnant women in Japan. Maternal vaccination with a safe and effective GBS vaccine has been proposed as a rational approach to prevent neonatal GBS disease. Because antibody specific for the capsular polysaccharide (CPS) antigens of GBS is protective, vaccines were developed with purified type VI and VIII CPS coupled to tetanus toxoid. In rabbits the newly synthesized conjugate vaccines elicited high-titered, type-specific antibody that was opsonically active in vitro. Moreover, litters born to mice actively vaccinated with the conjugate vaccines, in contrast to uncoupled CPS or saline, were protected against an ordinarily lethal challenge of GBS of homologous serotype. GBS types VI and VIII conjugate vaccines of the design presented may be important components of a multivalent GBS vaccine for use in regions where these serotypes predominate.
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