Staphylococcus aureus capsular polysaccharide type 5 (CP5) expression was investigated in lung tissue and nasal polyps of two cystic fibrosis (CF) patients, in rats, and in vitro using ELISA and IFA. In CF tissues, S. aureus expressed protein A and teichoic acid but only 1%-5% of cells expressed CP5. When rats were challenged with CP5-positive S. aureus in the granuloma pouch model, only 1%-5% of CP5-positive cells were detectable in pouch exudates. CF and pouch isolates, however, reexpressed CP5 (70%-90% of cells) when grown in vitro with air. Addition of > or = 1% CO2 to air or to O2/N2 gas mixtures reduced CP5 expression significantly (P < .001) in a dose-dependent manner (6%-1% CP5-positive cells). The results show that S. aureus does not produce CP5 in CF airways and in rat granuloma pouches and that CO2 is an environmental signal that regulates CP5 expression.
A free amino group present on the acid-detoxified lipopolysaccharide (pmLPS) of V. cholerae O1 serotype Inaba was investigated for site-specific conjugation. Chemoselective pmLPS biotinylation afforded the corresponding mono-functionalized derivative, which retained antigenicity. Thus, pmLPS was bound to carrier proteins using thioether conjugation chemistry. Induction of an anti-LPS antibody (Ab) response in BALB/c mice was observed for all conjugates. Interestingly, the sera had vibriocidal activity against both Ogawa and Inaba strains opening the way to a possible bivalent vaccine. However, the level of this Ab response was strongly affected by both the nature of the linker and of the carrier. Furthermore, no switch from IgM to IgG, i.e. from a T cell-independent to a T cell-dependent immune response was detected, a result tentatively explained by the possible presence of free polysaccharide in the formulation. Taken together, these results encourage further investigation towards the development of potent pmLPS-based neoglycoconjugate immunogens, fully aware of the challenge faced in the development of a cholera vaccine that will provide efficient serogroup coverage.
The epidemic and pandemic potential of Vibrio cholerae O139 is such that a vaccine against this newly emerged serogroup of V. cholerae is required. A conjugate made of the polysaccharide moiety (O-specific polysaccharide plus core) of the lipopolysaccharide (LPS) of V. cholerae O139 (pmLPS) was prepared by derivatization of the pmLPS with adipic acid dihydrazide and coupling to tetanus toxoid (TT) by carbodiimidemediated condensation. The immunologic properties of the conjugate were tested using BALB/c mice injected subcutaneously three times at 2 weeks interval and then a fourth time 4 weeks later. Mice were bled 7 days after each injection and then once each month for the following 6 months. LPS and TT antibody levels were determined by enzyme-linked immunosorbent assay using immunoplates coated with either O139 LPS or TT. Both pmLPS and pmLPS-TT conjugate elicited low levels of immunoglobulin M (IgM), peaking 5 weeks after the first immunization. The conjugate elicited high levels of IgG antibodies, peaking 3 months after the first immunization and declining slowly during the following 5 months. TT alone, or as a component of conjugate, induced mostly IgG antibodies. Antibodies elicited by the conjugate recognized both capsular polysaccharide and LPS from V. cholerae O139 and were vibriocidal. They were also protective in the neonatal mouse model of cholera infection. The conjugation of the O139 pmLPS, therefore, enhanced its immunogenicity and conferred T-dependent properties to this polysaccharide.Since the appearance of Vibrio cholerae O139 in the suburb of Madras, India, in October 1992, epidemic cholera caused by this strain has spread rapidly throughout the Indian subcontinent (1). Clinical illness associated with V. cholerae O139 infection appears to be virtually identical to that due to V. cholerae O1 E1 Tor infections. However, in contrast to infection with V. cholerae O1, V. cholerae O139 infection has largely affected the adult population in areas of V. cholerae O1 endemicity, indicating a lack of protective immunity against this newly evolved strain (1). Presumably, there are differences between the immune responses against O1 and O139 strains, which may be of considerable importance in terms of protection (33). A quiescent period followed the appearance of V. cholerae O139, and it was thought that it was a one-time event. However, there was an upsurge of cases in Calcutta, India, in 1996, and the O139 serogroup again became the dominant serogroup causing cholera in India by September 1996 (32). The O139 serogroup has remained present in India and Bangladesh since this last outbreak (15) and requires careful monitoring.It has been suggested that the emergence of V. cholerae O139 is the result of a complex chromosomal rearrangement involving the horizontal transfer of genes encoding enzymes involved in O-specific polysaccharide (O-SP) biosynthesis (3,8,14,43). Indeed, the major differences between V. cholerae O1 and V. cholerae O139 reside in their cell surface components. V. cholerae O139, unlike ...
The effect of an agr mutation on expression of type 5 capsular polysaccharide (CP) by Staphylococcus aureus Newman was investigated in different complex and synthetic media. CP expression by the agr mutant was strongly reduced in certain media but slightly in others, indicating that CP synthesis is positively controlled by agr. CP expression occurred in the post-exponential growth phase in both wild-type and mutant strains, suggesting that other regulatory systems could act in conjunction with agr.
The concentration of the type 5 capsular polysaccharide (CP) antigen of Staphylococcus aureus can be measured directly in cultures or cell suspensions by a two-step inhibition enzyme-linked immunosorbent assay (ELISA), using monoclonal antibodies. C P was synthesized during growth on a variety of carbon substrates and its production was not affected by the nature of the carbon source. High levels of yeast extract inhibited C P formation. C P was synthesized in batch culture at the same rate during exponential growth as in the postexponential phase. Post-exponential C P production contributed at least half the final amount of C P measured. This phenomenon was observed in different culture media, although the specific yield of polysaccharide varied from one medium to another. Post-exponential CP production was observed in the pH range 6-7, but not at pH 8. Postexponential production was strictly dependent on oxygen availability and did not occur under anaerobic conditions.
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