Distribution of serotypes of Nocardia asteroides from animal, human, and environmental sources.

The antigenic types of 129 isolates of Nocardia asteroides from diverse clinical, environmental, and geographic origins were determined. The majority of the isolates studied were of bovine (56) or human (44) origin; 11 were derived from six species of animals other than cattle, and 10 were isolated from environmental sources; the source of 8 strains could not be determined. Testing culture filtrate antigens against four standard reference sera in a gel diffusion precipitin test established the antigenic type of 95.3% of the isolates. After excluding strains that weighted the data because of common infection, the distribution of serotypes was examined according to the origin of the isolate. Type I was the most frequently encountered serotype (31.9%); types III (15.0%) and IV (20.4%) were also observed frequently, as was the antigenic mixture III + IV (14.2%). There was an apparent difference in frequency of type III and IV antigens among isolates of bovine and human origin; type III made up 20.0% of the bovine isolates and 13.6% of the human isolates, whereas type IV constituted 10.0% of bovine and 27.3% of human isolates.     

Complex Serology and Immune Response of Mice to Variant High-Molecular-Weight O Polysaccharides Isolated from Pseudomonas aeruginosa Serogroup O2 Strains

The O antigen of the Pseudomonas aeruginosa lipopolysaccharide is the optimal target for protective antibodies, but the unusual and complex nature of their sugar substituents has made it difficult to define the range of these structures needed in an effective vaccine. Most clinical isolates of P. aeruginosa can be classified into 10 O-antigen serogroups, but slight chemical differences among O polysaccharides within a serogroup give rise to subtype epitopes. These epitopes could impact the reactivity of O-antigen-specific antibodies, as well as the susceptibility of a target strain to protective, opsonic antibodies. To define parameters of serogroup and subtype-epitope immunogenicity, antigenicity, and surface expression on P. aeruginosa cells, we prepared high-molecular-weight O-polysaccharide vaccines from strains of P. aeruginosa serogroup O2, for which eight structurally variant O antigens expressing six defined subtype epitopes (O2a to O2f) have been identified. A complex pattern of immune responses to these antigens was observed following vaccination of mice. The high-molecular-weight O polysaccharides were generally more immunogenic at low doses (1 and 10 μg) than at a high dose (50 μg) and usually elicited antibodies that opsonized the homologous strain for phagocytic killing. Some of the individual polysaccharides elicited cross-opsonic antibodies to a variable number of strains that express all of the defined serogroup O2 subtype epitopes. Combination into one vaccine of two antigens that individually elicited cross-reactive opsonic antibodies to most members of the O2 serogroup inhibited, instead of enhanced, the production of antibodies broadly reactive with most serogroup O2 subtype strains. Thus, immune responses to P. aeruginosa O antigens may be restricted to a limited range of epitopes on structurally complex O antigens, and combining multiple related antigens into a single vaccine formulation may inhibit the production of those antibodies best able to protect against most P. aeruginosa strains within a given O-antigen serogroup.It has been established through animal and human experimentation that the lipopolysaccharide (LPS) O antigen of Pseudomonas aeruginosa is a target for protective antibodies (3, 36, 38). The studies of Knirel and colleagues (17, 19) on the chemical composition and structure of the major O-side-chain polysaccharides have provided important insights into the immunochemical properties of these antigens, but our understanding of their antigenic and immunogenic properties is incomplete. This point is highlighted by the inability to date to develop effective, LPS-specific immunotherapies for human P. aeruginosa infection (7).Results obtained with animals by using immunogens and antibodies specific to the O polysaccharides have indicated that slight chemical differences among bacterial strains with otherwise closely related O-side-chain structures can produce a complex pattern of reactions between antibodies and related antigens (13). With standard serologic methods using whole-cell agglutinations, strains of P. aeruginosa can be classified as members of one serogroup (serotype); members of each serogroup share a group-specific antigen. Further subdivision into subtypes, which correlate with structural variants determined by Knirel and colleagues (17), can be accomplished with appropriate antisera (22).To develop safe and effective O-antigen-specific P. aeruginosa vaccines, we have utilized the high-molecular-mass (>100,000-Da) fraction of O polysaccharides. These antigens are safe and immunogenic in humans and animals (13, 27, 37) and elicit protective antibodies to the strains from which they are isolated. However, in recent studies of animals immunized with a heptavalent high-molecular-weight O-polysaccharide vaccine whose individual components were isolated from single strains representative of the major serogroups causing P. aeruginosa infection, opsonic antibody responses to the group-specific antigens were not commonly elicited (13). Thus, in spite of chemical and serologic relatedness among subtype strains within a P. aeruginosa serogroup, single antigens isolated from one subtype strain do not always elicit opsonic antibodies to all of the strains within the serogroup (13). Previous results showed that a particular O antigen from a given serogroup may elicit group-specific immunity, while an O antigen from another serogroup may elicit only immunity specific to the subtype epitopes expressed on that particular O antigen.To explore this situation further and gain additional insight into the serologic diversity among P. aeruginosa LPS O antigens, we prepared high-molecular-weight O-polysaccharide immunogens from five strains of P. aeruginosa serogroup O2 that, together, express all six of the identified subtype antigens (Table ​(Table1).1). These polysaccharides were used to immunize mice, and the resultant sera were assessed by enzyme-linked immunosorbent assay (ELISA) and for opsonic killing activity. The results showed a complex interaction among the strains with regard to high-molecular-weight O-polysaccharide immunogenicity, antigenicity, serogroup and subtype epitope density, and susceptibility to opsonic killing. These findings indicate that the current serogroup classifications of P. aeruginosa are probably inadequate to define the full range of LPS antigens needed to elicit comprehensive immunity to a wide range of clinical isolates.

TABLE 1

Strains used for immunogen production, their serologic classification by subtype epitope, and chemical structures of the associated O antigens Open in a separate window^aBoldface type indicates a feature of a structure that distinguishes it from a related structure of the same serogroup. Abbreviations: FucNAc, 2-acetamido-2,6-dideoxygalactose (N-acetylfucosamine); Man(NAc)₂A, 2,3-diacetamido-2,3-dideoxymannuronic acid; Man(2NAc3N)A, 2-acetamido-3-acetamidino-2,3-dideoxymannuronic acid; Gul(NAc)₂A, 2,3-diacetamido-2,3-dideoxyguluronic acid. ^bThe lower structure is also part of the O antigen of strain 170007; there is about a 2:1 ratio of the upper and lower structures.      

Immunomodulation of lambs following treatment with a proteasome preparation from infective larvae of Trichostrongylus colubriformis

Proteinases are known to be capable of prolonging the survival of endoparasites in a host. We were therefore interested in knowing whether immunization of lambs against a proteasome (multisubunit proteinases) preparation obtained from Trichostrongylus colubriformis infective third-stage larvae (L3) would have any effect on the immune response to a single challenge infection with the same organism. A total of 21 penned lambs aged 8 months were divided into 3 equal groups. Group 1 was immunized on three occasions with increasing amounts of a proteasome-enriched fraction obtained from infective L3. Group 2 was given a similar amount of protein from the initial supernatant of homogenized larvae. Group 3 (controls) received adjuvant plus saline solution only. All groups were challenged with 60,000 infective T. colubriformis larvae at 28 days after the last immunization. Significant protection was obtained only when the initial supernatant extract was used to immunize lambs. The proteasome preparation seemed to have immunosuppressive effects through the stimulation of nonspecific IgE production. Significantly lower levels of specific IgE were observed in lambs immunized with the proteasome-enriched fraction, and levels of specific IgG antibodies were increased. We suggest that proteasome fractions of T. colubriformis may serve as useful preparations for the study of mechanisms of IgE production in parasitized sheep. Received: 26 September 1999 / Accepted: 22 October 1999     

Effect of IFN-gamma on expression of HLA in bare-lymphocyte syndrome-like cell line HAJ

We compared HLA antigen expression on new B-lymphoblastoid cell line (B-LCL) HAJ with that on B-LCLs expressing normal HLA levels as well as on B-LCLs derived from bare lymphocyte syndrome (BLS) patients and in vitro mutated B-LCLs of BLS-like phenotype. HAJ cells had no expression of HLA class II and low expression of class I antigens similarly to some of BLS B-LCLs, although HAJ cell line was derived from lymphocytes of HLA class I- and class II-normally expressing donor. HAJ cells displayed B lymphocyte markers, surface immunoglobulin and CD19. Culture of HAJ cells in the presence of interferon y resulted in HLA class I antigen upregulation, but did not restore class II expression. The cell line HAJ may prove useful for studies on factors influencing HLA class I cell surface expression.     

Borrelia burgdorferi sensu lato infection in larval Ixodes ricinus (Acari: Ixodidae) feeding on blackbirds in northwestern Italy

Birds belonging to 59 species (n = 1,206) were live captured in Piemonte, northwestern Italy, in 2001. Ixodes ricinus (L.) larvae were collected from 59 birds belonging to nine species, and nymphs were recovered on 79 birds belonging to 10 species. Eurasian blackbirds, Turdus merula L., had significantly higher levels of infestation by ticks than other passerine species. Larval I. ricinus of blackbirds peaked in summer, when prevalence was 39% (95% confidence interval 24.2-55.5) and mean number of ticks per host was 3.3 (1.6-7.2), whereas nymphs peaked in spring, when prevalence was 72.2% (54.8-85.8) and mean number of ticks per host was 6.9 (4.4-10.7). Immature I. ricinus were coincidentally aggregated on blackbirds, with 15 blackbirds feeding 67.4% of nymphs and 40.3% of larvae, and coinfestation by both stages was relatively high in summer: Kappa = 0.64 (0.40-0.88). Borrelia burgdorferi sensu lato was identified by polymerase chain reaction (PCR) in 58.3% (35.9-78.5) of larvae with engorgement ratio > or = 3 that were collected from blackbirds. Larvae that were collected from other passerine species gave negative PCR results. Sixteen of 21 PCR-positive samples belonged to B. garinii (76.2%), and five (23.8%) were Borrelia valaisiana. Results of this study suggest that blackbirds play an important role as hosts for immature I. ricinus and as reservoir of Borrelia garinii in northwestern Italy.