The parapoxvirus orf virus encodes a novel soluble protein inhibitor of ovine granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-2 (IL-2). The GM-CSF- and IL-2-inhibitory factor (GIF) gene was expressed as an intermediate-late viral gene in orf virus-infected cells. GIF formed homodimers and tetramers in solution, and it bound ovine GM-CSF with a Kd
of 369 pM and ovine IL-2 with a Kd
of 1.04 nM. GIF did not bind human GM-CSF or IL-2 in spite of the fact that orf virus is a human pathogen. GIF was detected in afferent lymph plasma draining the skin site of orf virus reinfection and was associated with reduced levels of lymph GM-CSF. GIF expression by orf virus indicates that GM-CSF and IL-2 are important in host antiviral immunity.
Escherichia coli O157:H7 is an important pathogen of humans. Cattle are most frequently identified as the primary source of infection, and therefore, reduction in E. coli O157:H7 prevalence in cattle by vaccination represents an attractive strategy for reducing the incidence of human disease. H7 flagella have been implicated in intestinal-epithelial colonization of E. coli O157:H7 and may represent a useful target for vaccination. In this study, calves were immunized either systemically with H7 flagellin by intramuscular injection or mucosally via the rectum with either H7 or H7 incorporated into poly(DL-lactide-co-glycolide) microparticles (PLG:H7). Systemic immunization resulted in high levels of flagellin-specific immunoglobulin G (IgG) and IgA in both serum and nasal secretions and detectable levels of both antibody isotypes in rectal secretions. Rectal administration of flagellin resulted in levels of rectal IgA similar to those by the intramuscular route but failed to induce any other antibody response, whereas rectal immunization with PLG:H7 failed to induce any H7-specific antibodies. Following subsequent oral challenge with E. coli O157:H7, reduced colonization rates and delayed peak bacterial shedding were observed in the intramuscularly immunized group compared to nonvaccinated calves, but no reduction in total bacterial shedding occurred. Rectal immunization with either H7 or PLG:H7 had no effect on subsequent bacterial colonization or shedding. Furthermore, purified H7-specific IgA and IgG from intramuscularly immunized calves were shown to reduce intestinal-epithelial binding in vitro. These results indicate that H7 flagellin may be a useful component in a systemic vaccine to reduce E. coli O157:H7 colonization in cattle.Enterohemorrhagic Escherichia coli (EHEC) is a zoonotic pathogen of worldwide importance, causing severe diarrhea (hemorrhagic colitis) and, in a small percentage of cases, hemolytic-uremic syndrome in humans. Ruminants are an important reservoir of EHEC, and human infections are frequently associated with direct or indirect contact with ruminant feces, particularly those derived from cattle (16,26,34,36). Coincidentally, strategies to reduce the carriage of EHEC in ruminants are predicted to lower the incidence of human disease (reviewed in reference 36), and stochastic simulation models predict that cattle are a key control point to reduce EHEC infections in humans (22).An attractive strategy to reduce EHEC colonization in cattle is by vaccination. A number of EHEC vaccines have been evaluated in cattle and have primarily focused on immunization with bacterial proteins encoded by genes located within the locus of enterocyte effacement (LEE) that are known to play key roles in EHEC colonization of the bovine intestine (7,13,32,41). These include immunization with recombinant EspA (14), recombinant intimin (40), and a secreted protein preparation containing Tir and proteins of the type III secretion system (35). In addition, immunization with recombinant EHEC factor for adherence (...
Studies with two monoclonal antibodies (DA6.147 and DA6.231) which react, respectively, with isolated human Ia alpha and beta chains are reported. Both antibodies detect epitopes expressed on all DR-heterozygous and DR-homozygous cell lines tested (n = 17) and bind to the Epstein-Barr virus-negative cell line Ramos. Ia subunit specificity of the antibodies was determined by an adaptation of an electroblot technique which transfers separated Ia chains from polyacrylamide gels to nitrocellulose paper. In radioimmunobinding assays, peripheral blood B cell-enriched fractions, phytohemagglutinin-activated T cells and pokeweed mitogen-activated cells gave strong reactions with DA6.231 (anti-Ia beta). In contrast, DA6.147 (anti-Ia alpha) reacted only weakly, if at all, with peripheral B cells, pokeweed mitogen blasts and activated T cells. However, both antibodies bound to isolated Ia from activated T cells and peripheral B cells after Nonidet-P40 solubilization of the cells and DA6.147+ antigens could be found in the cytoplasm of activated T cells by indirect immunofluorescence techniques. Results of serological inhibition procedures following fractionation of lymphoblastoid cell lysates on monoclonal antibody affinity columns showed that the DA6.147 alpha chain epitope is carried on only a minor subpopulation of human Ia.
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