Specificity of IgG and IgE antibody responses to Haemophilus somnus infection of calves.

Haemophilus somnus is an important cause of bovine respiratory disease and septicemia with all it's sequelae. The role of immune responses in protection and immunopathogenesis is not well understood. We showed that infection with bovine respiratory syncytial virus (BRSV) 6 days before H. somnus increased clinical scores and levels of IgE antibody to H. somnus over that of infection with H. somnus alone. To determine whether antigenic specificity of IgE responses differed from IgG responses, Western blots were done with sera from the infected calves, at 0 time and at 21 days post infection. Thus each calf was its own control. IgG antibodies recognized primarily a 40 kDa outer membrane protein (OMP) in whole cell H. somnus preparations and a 270 kDa immunoglobulin binding protein (IgBPs) in culture supernatants but generally not the 41 kDa major OMP (MOMP). IgE antibodies recognized primarily the 41 kDa MOMP in whole cell pellet preparations. Results were consistent among calves. With culture supernatants, IgE antibodies recognized both the 270 kDa IgBPs and the MOMP. Since some H. somnus strains from asymptomatic carriers (including strain 129Pt), do not have IgBPs and express a truncated MOMP (33 kDa rather than 41 kDa), reaction of strain 129Pt cells with serum from calves infected with H. somnus or BRSV and H. somnus was studied. IgE did not react with the truncated MOMP even at much lower (1:100) dilutions than in Western blots with virulent strain 2336 (serum dilution of 1:500). Reactions of IgE with the 40 and 78 kDa antigens in strain 129Pt were noted but since the major reactivities with the IgBPs and the MOMP were not detected, this strain may be useful for inducing protective rather than immunopathogenic responses.

Haemophilus somnus (Histophilus somni) in bighorn sheep.

Respiratory disease and poor lamb recruitment have been identified as limiting factors for bighorn-sheep populations. Haemophilus somnus (recently reclassified as Histophilus somni) is associated with respiratory disease in American bison, domestic sheep, and cattle. It is also harbored in their reproductive tracts and has been associated with reproductive failure in domestic sheep and cattle. Therefore, reproductive tract and lung samples from bighorn sheep were evaluated for the presence of this organism. Organisms identified as H. somnus were isolated from 6 of 62 vaginal but none of 12 preputial swab samples. Antigen specific to H. somnus was detected by immunohistochemical study in 4 of 12 formalin-fixed lung tissue samples of bighorn sheep that died with evidence of pneumonia. Notably, H. somnus was found in alveolar debris in areas of inflammation. The 6 vaginal isolates and 2 H. somnus isolates previously cultured from pneumonic lungs of bighorn sheep were compared with 3 representative isolates from domestic sheep and 2 from cattle. The profiles of major outer membrane proteins and antigens for all of the isolates were predominantly similar, although differences that may be associated with the host-parasite relationship and virulence were detected. The DNA restriction fragment length profiles of the bighorn-sheep isolates had similarities not shared with the other isolates, suggesting distinct phylogenetic lines. All of the isolates had similar antimicrobial profiles, but the isolates from the bighorn sheep produced less pigment than those from the domestic livestock, and growth of the former was not enhanced by CO2. Wildlife biologists and diagnosticians should be aware of the potential of these organisms to cause disease in bighorn sheep and of growth characteristics that may hinder laboratory detection.

Genetic manipulation of immunoglobulin binding proteins of Haemophilus somnus.

The relationship of the 76kDa immunoglobulin binding, surface antigen (p76) of Haemophilus somnus to the high molecular weight immunoglobulin binding proteins (HMW IgBPs) was investigated. The kanamycin resistance gene from pLS88 was used via homologous recombination with allelic exchange to replace a portion of the gene encoding IgBPs of H. somnus strain 8025. Recombinants were shown by Western immunoblotting to express and secrete truncated antigens of approximately 200kDa and not to produce p76. The truncated HMW IgBP variants retained the ability to bind bovine IgG2 by the Fc portion as demonstrated by Western immunoblotting against IgG2 anti-DNP. This data indicated that the deleted 1.8kb BglII fragment was not required for secretion or immunoglobulin Fc binding by the HMW IgBPs but was required for expression of the downstream p76 gene. Functional studies showed that, in addition to Fc binding of IgG2 to truncated HMW IgBPs, the mutant strain 8025 Kan1 was equally resistant to killing by mouse complement but less virulent than the wild type parent (8025) in a mouse septicemia model of H. somnus infection. However, mutant strain 8025 Kan1 did adhere less well than the wild type to bovine pulmonary artery endothelial cells. It is probable that p76 and the missing peptides of the HMW IgBPs play a role in this aspect of virulence and perhaps other aspects.