A study described by Luijkx et al. [26] showed that mouse B-cell subpopulations involved in a successfully bactericidal and affinity maturated antibody response to PorA P1.5-1,2-2 are maintained at smaller population sizes than those associated with poor antibody response to PorA P1.7-2,4. Our human and mouse antibody studies have shown a strong immunogenicity of PorA P1.19,15 protein [14], [18] and [27]. This protein has also induced a robust specific ASC response MAPK inhibitor in mouse spleen and bone

marrow after primary immunisation, but not after boosting [13]. Moreover, a constant level of about 1% of specific spleen memory B-cells was detected after primary and booster immunisation [13]. Thus, our human and animal studies with the VA-MENGOC-BC® vaccine FGFR inhibitor showed a lower or an unaltered B-cell response (ASC and/or memory B-cell) after boosting, suggesting some limitations in the long-term effect of vaccination. Specific CD4+ T-cells found in naive, TCM, or TEM populations largely differ in their functional properties,

such as antigen requirement for maximal efficiency, effector activity (level of cytokine secretion, co-stimulatory molecule expression), replicative activity, and/or life span [8] and [9]. Specific T-cell expansion of either population may therefore influence the protective efficacy of the pathogen-targeted, specific immune response. Three days after the primary immunisation schedule we observed a slightly predominant TEM (CD45RA−/+CCR7−) response (mean of 58% when stimulated by OMV), with a discrete Adenylyl cyclase proportion (mean of 1.7%) of activated cells (CD69+). Cell activation was slightly higher (mean of 4.1%) for TCM (CD45RA−CCR7+) which was presented in a mean proportion of 42%. However, after boosting, a predominant expansion of the TCM population was observed (mean of 57%) paralleled by a continuous decrease of TEM (mean of 42%) up to 14 days. As indicated by the expression of CD69, activated cells were mainly

present within the TCM population. Similar results were recently reported after recall immunisation with tetanus toxoid [28]. Thus, these data showed that the T-cell response to vaccination had a different kinetics of the B-cell response, which was higher after primary immunisation and declined after boosting. The question arises how T-B-cell interactions differ after primary and booster vaccination with the OMV vaccine.The neisserial porins are the major protein components of OMV present in the Cuban MenB vaccine. They have been shown to be able to enhance the immune response to poorly immunogenic substances (e.g., polysaccharides) and up regulation of B7-2 on the surface of B lymphocytes may be the mechanism behind this immune-potentiating activity [29]. However, B-cells also have a role to act as a counter regulatory in balancing pathogen-specific immune responses.