Preventative Care in the Patient with Inflammatory Bowel Disease: What Is New?

Patients with inflammatory bowel disease (IBD) do not receive routine preventative care at the same rate as general medical patients. This patient population is at increased risk of vaccine preventable illness such as influenza and pneumococcal pneumonia. This review will discuss health maintenance needs and preventative care issues in patients with IBD.

Investigation into the Antigenic Properties and Contributions to Growth in Blood of the Meningococcal Haemoglobin Receptors, HpuAB and HmbR.

Acquisition of iron from host complexes is mediated by four surface-located receptors of Neisseria meningitidis. The HmbR protein and heterodimeric HpuAB complex bind to haemoglobin whilst TbpBA and LbpBA bind iron-loaded transferrin and lactoferrin complexes, respectively. The haemoglobin receptors are unevenly distributed; disease-causing meningococcal isolates encode HmbR or both receptors while strains with only HpuAB are rarely-associated with disease. Both these receptors are subject to phase variation and 70-90% of disease isolates have one or both of these receptors in an ON expression state. The surface-expression, ubiquity and association with disease indicate that these receptors could be potential virulence factors and vaccine targets. To test for a requirement during disease, an hmbR deletion mutant was constructed in a strain (MC58) lacking HpuAB and in both a wild-type and TbpBA deletion background. The hmbR mutant exhibited an identical growth pattern to wild-type in whole blood from healthy human donors whereas growth of the tbpBA mutant was impaired. These results suggest that transferrin is the major source of iron for N. meningitidis during replication in healthy human blood. To examine immune responses, polyclonal antisera were raised against His-tagged purified-recombinant variants of HmbR, HpuA and HpuB in mice using monolipopolysaccharide as an adjuvant. Additionally, monoclonal antibodies were raised against outer membrane loops of HmbR presented on the surface of EspA, an E. coli fimbrial protein. All antisera exhibited specific reactivity in Western blots but HmbR and HpuA polyclonal sera were reactive against intact meningococcal cells. None of the sera exhibited bactericidal activity against iron-induced wild-type meningococci. These findings suggest that the HmbR protein is not required during the early stages of disease and that immune responses against these receptors may not be protective.

Toward a meningitis-free world.

Meningococcal meningitis is a devastating disease that is often fatal. Vaccines against the five major meningococcal serogroups causing disease are about to become available, a conjugate vaccine against meningococcus A is in use for mass vaccination in Africa, and a protein-based vaccine against meningococcal B is ready for licensure. With the availability of these new vaccines, the world can finally be rid of meningococcal meningitis, thus rewriting a new chapter in medical history.

New vaccines require potent adjuvants like AFPL1 and AFCo1.

Neisseria meningitidis B proteoliposome (AFPL1 when used as adjuvant) and its derivative-Cochleate (AFCo1) contain immunopotentiating and immunomodulating properties and delivery system capacities required for a good adjuvant. Additionally, they contain meningococcal protective antigens and permit packaging of other antigens and pathogen-associated molecular patterns (PAMP). Consequently, we hypothesized that they would function as good vaccine adjuvants for their own antigens and also for non-related antigens. AFPL1 is a detergent-extracted outer membrane vesicle of N. meningitidis B transformed into AFCo1 in calcium environment. Both are produced at Finlay Institute under good manufacture practices (GMP) conditions. We show their exceptional characteristics: combining in the same structure, the potentiator activity, polarizing agents and delivery system capacities; presenting multimeric protein copies; containing multiprotein composition and multi and synergistic PAMP components; acting with incorporated or co-administrated antigens; inducing type I IFN-gamma and IL-12 cytokines suggesting the stimulation of human plasmocytoid precursor and conventional dendritic cells, respectively, inducing a preferential Th1 immune response with TCD4(+), TCD8(+), cross-presentation and cytotoxic T-lymphocyte (CTL) in vivo responses; and functioning by parenteral and mucosal routes. AFPL1-AFCo1 protective protein constitutions permit per se their function as a vaccine. In addition to Phase IV Men BC vaccine, AFPL1 has ended the preclinical stage in an allergy vaccine and is concluding the preclinical stage of a nasal meningococcal vaccine. In conclusion, AFPL1 and AFCo1 induced signal 1, 2 and 3 polarizing to a Th1 (including CTL) response when they acted directly as vaccines or were used as adjuvants with incorporated or co-administered antigens by parenteral or mucosal routes. Both are very promising adjuvants.

A randomized, placebo-controlled study of oral cimetidine as an immunopotentiator of parenteral immunization with a group B meningococcal vaccine.

Cimetidine (CIM) is an H2-receptor antagonist with a long history of clinical use in peptic ulcer disease. In addition to its inhibitory effect upon gastric acid secretion, CIM can also block histamine-mediated immunosuppression by inhibiting H2 receptors on suppressor T cells. CIM results in immunoaugmentation of both cellular and humoral immunity by this mechanism and has been used clinically in the treatment of chronic infectious and neoplastic diseases. We postulated that orally administered CIM, like an adjuvant, could augment the immunologic response to a parenteral vaccine. To test this hypothesis, a randomized placebo (PLB)-controlled, double-blinded study in 14 healthy volunteers was performed using a Group B meningococcal outer membrane protein (OMP) vaccine administered twice, 6 weeks apart. Volunteers were randomized within pairs defined by their screening OMP antibody titers to receive either CIM or PLB which was administered for 5 days, beginning 2 days before each of the two immunizations. All 14 volunteers completed the study with excellent compliance. Sera were tested for anti-OMP and bactericidal antibodies. The groups were comparable in terms of gender distribution, age and baseline anti-OMP titers. Reactogenicity to the vaccine was mild and comparable between groups. There was little effect of CIM (over PLB) on anti-OMP or functional bactericidal antibody levels over time. Geometric means of maximum OMP antibody increase over baseline was 3.3-fold (95% CI: 1.8-6.3) for CIM and 2.4 for PLB (CI: 1.6-3.7). CIM had a corresponding 3.9-fold increase (CI: 1.9-8.3) in bactericidal antibody level compared to 2.2 for PLB (CI: 1.4-3.4). We conclude that oral CIM was not effective as an immunopotentiator of immunization with this group B meningococcal vaccine.