Haemophilus somnus

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Lynette B. Corbeil - One of the best experts on this subject based on the ideXlab platform.

  • bovine plasma proteins increase virulence of Haemophilus somnus in mice
    Microbial Pathogenesis, 2007
    Co-Authors: Roger S Geertsema, Richard A. Kimball, Lynette B. Corbeil
    Abstract:

    Abstract The role of bovine serum or plasma proteins in Haemophilus somnus virulence was investigated in a mouse model of septicemia. An increase in virulence was detected when the organism was pre-incubated for 5 min and inoculated with fetal calf serum. When purified bovine serum or plasma proteins were pre-incubated with H. somnus before inoculating into mice, transferrin was found to increase virulence. Bovine lactoferrin was also noted to increase virulence, but to a lesser extent and had a delayed time course when compared with transferrin. Using an ELISA assay, an increased amount of H. somnus whole cells and culture supernatant bound to bovine transferrin when the organism was grown in iron-restricted media. Lactoferrin also bound to H. somnus, but binding was not affected by growth in iron-restricted media and it was eliminated with 2 M NaCl, which reversed charge mediated binding. Transferrin, but not lactoferrin, supported growth of H. somnus on iron-depleted agar based media using a disk assay. Therefore, lactoferrin increased virulence by an undetermined mechanism whereas transferrin increased virulence of H. somnus by binding to iron-regulated outer-membrane proteins (IROMPs) and providing iron to the pathogen.

  • Haemophilus somnus histophilus somni in bighorn sheep
    Canadian Journal of Veterinary Research-revue Canadienne De Recherche Veterinaire, 2006
    Co-Authors: A C S Ward, Glen C Weiser, Karen F Arnold, Bruce C Anderson, Patrick J Cummings, Lynette B. Corbeil
    Abstract:

    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.

  • bovine platelets activated by Haemophilus somnus and its los induce apoptosis in bovine endothelial cells
    Microbial Pathogenesis, 2005
    Co-Authors: Chris J Kuckleburg, Matt J Sylte, Benjamin J Darien, Lynette B. Corbeil, Thomas J. Inzana, Charles J Czuprynski
    Abstract:

    Haemophilus somnus is a bacterial pathogen that causes respiratory disease and vasculitis in cattle. Thrombotic meningoencephalitis (TME) and other severe forms of H. somnus-mediated vascular disease are characterized histopathologically by vasculitis, thrombosis, and infiltration of polymorphonuclear cells. It has been reported previously that activated human platelets express CD40L, FasL and P-selectin (CD62P). We hypothesized that if these surface markers are up-regulated on bovine platelets after in vitro exposure to H. somnus and its lipooligosaccharide (LOS), they might contribute to endothelial cell damage. Using flow cytometry, we demonstrated low baseline expression of these molecules by bovine platelets and increased expression following in vitro stimulation with ADP, H. somnus or H. somnus LOS. H. somnus stimulated platelets were capable of causing apoptosis in endothelial cells as measured by Hoechst-33342 staining and caspase-3 activity. If these events occur in vivo, they might promote vascular damage and endothelial cell apoptosis, leading to the development of vasculitis and thrombosis that characterize bovine H. somnus infection.

  • genetic manipulation of immunoglobulin binding proteins of Haemophilus somnus
    Microbial Pathogenesis, 2003
    Co-Authors: Jerry D Sanders, Karen F Arnold, F D Bastidacorcuera, Annette Wunderlich, Lynette B. Corbeil
    Abstract:

    Abstract The relationship of the 76 kDa 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 200 kDa 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 1.8 kb 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.

  • immunological characterization of the major outer membrane protein of Haemophilus somnus
    Veterinary Microbiology, 2000
    Co-Authors: Yuichi Tagawa, F D Bastidacorcuera, Lynette B. Corbeil
    Abstract:

    Abstract Antigens and molecular mass diversity of the Haemophilus somnus major outer membrane protein (MOMP) were investigated. The molecular mass of the MOMP of 53 strains of H. somnus varied from 43 to 33 kDa and four MOMP MAb reactivity patterns were detected in immunoblot analysis and immunodot assay. The molecular mass and MAb reactivity data were used for preliminary grouping of H. somnus strains. Disease strains fell into groups 1 and 3, including two of three Group 3 subgroups, whereas strains from asymptomatic carriers were found in all the four groups and three subgroups. Immunoblot analysis with convalescent phase serum showed strain specific reactivity with MOMPs from three isolates used to reproduce disease in cattle. The reaction with the MOMP was only detectable at dilutions of 1 : 100 or less, whereas the same convalescent sera showed strong reactivity at dilutions of 1 : 1000 (or more) with other H. somnus antigens. The data suggest that the bovine immune response to the MOMP during infection is weak and is directed to antigenically variable determinants in a strain-specific manner. This may be important in evaluating the role of the antibody response to MOMPs in protective immunity.

Thomas J. Inzana - One of the best experts on this subject based on the ideXlab platform.

  • comparative analyses of two cryptic plasmids from Haemophilus somnus histophilus somni
    Plasmid, 2006
    Co-Authors: Shivakumara Siddaramappa, Alison J Duncan, Thomas Brettin, Thomas J. Inzana
    Abstract:

    Abstract Haemophilus somnus is an opportunistic bacterial pathogen capable of causing pneumonia, septicemia, and other systemic infections in bovines. An H. somnus isolate from bovine abortion (strain 649) was found to carry a ∼1.3 kb plasmid (pHS649) that contained partial homology to two previously sequenced Haemophilus/Histophilus plasmids by BLAST analyses. Sequence analysis of pHS649 identified a putative RepA protein with 48% similarity to the RepA protein of Escherichia coli plasmid pKL1. A ∼5 kb plasmid (pHS129) from H. somnus preputial isolate 129Pt was also sequenced and found to encode two copies of a putative RepB protein. Whereas pHS649 stably replicated in E. coli DH5α, pHS129 did not. Genetic relatedness and possible replication mechanisms of these plasmids are described.

  • tumor necrosis factor alpha enhances Haemophilus somnus lipooligosaccharide induced apoptosis of bovine endothelial cells
    Veterinary Immunology and Immunopathology, 2006
    Co-Authors: Matt J Sylte, Chris J Kuckleburg, Fábio Pereira Leivas Leite, Thomas J. Inzana, Charles J Czuprynski
    Abstract:

    Abstract Haemophilus somnus lipooligosaccharide (LOS)-induced apoptosis of bovine pulmonary artery endothelial cells has been shown previously to be dependent on capsase-8 activation. Activation of caspase-8 can occur via a death receptor-dependent mechanism (e.g., TNF-α binding to TNF-α receptor 1 (TNF-R1)). In this study, we tested the hypothesis that TNF-α can enhance LOS-induced apoptosis of bovine endothelial cells. Addition of exogenous recombinant human TNF-α alone failed to cause apoptosis, or enhance LOS-induced apoptosis, of bovine endothelial cells. However, blocking de novo protein synthesis by addition of cycloheximide significantly enhanced apoptosis of bovine endothelial cells by TNF-α, LOS or TNF-α and LOS in combination. Conversely, addition of soluble recombinant human (sTNF-R1) diminished LOS-induced apoptosis. Overall, these data suggest that LOS-mediated apoptosis may be due, in part, to activation of a TNR-R1-dependent death pathway.

  • bovine platelets activated by Haemophilus somnus and its los induce apoptosis in bovine endothelial cells
    Microbial Pathogenesis, 2005
    Co-Authors: Chris J Kuckleburg, Matt J Sylte, Benjamin J Darien, Lynette B. Corbeil, Thomas J. Inzana, Charles J Czuprynski
    Abstract:

    Haemophilus somnus is a bacterial pathogen that causes respiratory disease and vasculitis in cattle. Thrombotic meningoencephalitis (TME) and other severe forms of H. somnus-mediated vascular disease are characterized histopathologically by vasculitis, thrombosis, and infiltration of polymorphonuclear cells. It has been reported previously that activated human platelets express CD40L, FasL and P-selectin (CD62P). We hypothesized that if these surface markers are up-regulated on bovine platelets after in vitro exposure to H. somnus and its lipooligosaccharide (LOS), they might contribute to endothelial cell damage. Using flow cytometry, we demonstrated low baseline expression of these molecules by bovine platelets and increased expression following in vitro stimulation with ADP, H. somnus or H. somnus LOS. H. somnus stimulated platelets were capable of causing apoptosis in endothelial cells as measured by Hoechst-33342 staining and caspase-3 activity. If these events occur in vivo, they might promote vascular damage and endothelial cell apoptosis, leading to the development of vasculitis and thrombosis that characterize bovine H. somnus infection.

  • inhibition of bovine macrophage and polymorphonuclear leukocyte superoxide anion production by Haemophilus somnus
    Microbial Pathogenesis, 2004
    Co-Authors: Michael D Howard, James H Boone, Virginia Buechnermaxwell, Gerhardt G. Schurig, Thomas J. Inzana
    Abstract:

    Abstract Virulent strains of the bovine opportunistic pathogen Haemophilus somnus (Histophilus somni) cause multi-systemic diseases in cattle. One of the reported virulence factors that H. somnus may use to persist in the host is resistance to intracellular killing. We report here that H. somnus significantly (P

  • Haemophilus somnus virulence factors and resistance to host immunity
    Animal Health Research Reviews, 2004
    Co-Authors: Shivakumara Siddaramppa, Thomas J. Inzana
    Abstract:

    Haemophilus somnus (‘Histophilus somni’) is a Gram-negative bacterium and opportunistic pathogen associated with multisystemic diseases of bovines. Some strains of H. somnus are relatively avirulent, but are biochemically and antigenically similar to the virulent strains. Several virulence factors have been identified in H. somnus, of which lipo-oligosaccharide phase variation, induction of apoptosis, intraphagocytic survival and immunoglobulin Fc binding proteins have been well studied. The sequencing of the genomes of two strains of H. somnus has facilitated the identification of genes responsible for distinctive attributes within this species and related bacteria. The genetic characterization of this bacterium will enhance our understanding of H. somnus virulence factors and facilitate the development of new and improved vaccines. This review presents an overview of H. somnus virulence factors, their role in resistance to host defenses and pathogenesis, and the host immune response to this bacterium. Current areas of investigation in the post-genomic era and recent insights into new pathogenic mechanisms are also discussed.

P.b. Little - One of the best experts on this subject based on the ideXlab platform.

  • genomic fingerprinting of Haemophilus somnus isolates by using a random amplified polymorphic dna assay
    Journal of Clinical Microbiology, 1993
    Co-Authors: L E Myers, S V P S Silva, J. Douglas Procunier, P.b. Little
    Abstract:

    The random-amplified polymorphic DNA (RAPD) assay was used to generate DNA fingerprints for 16 isolates of "Haemophilus somnus," and one isolate each of "Haemophilus agni," "Histophilus ovis," "Actinobacillus seminis," Pasteurella haemolytica, and Escherichia coli. The RAPD assay differentiated among "H. somnus" isolates, which shared similarity coefficients of 0.46 to 1.00 on the basis of pairwise comparisons of RAPD markers produced with nine random decamer primers. Three virulent encephalitic "H. somnus" isolates exhibited identical banding patterns, suggesting a common clonal ancestry. The RAPD assay clearly distinguished between the "H. somnus"-"H. agni"-"H. ovis" group and the other bacterial species tested. The results of the present study suggest that DNA fingerprinting of "H. somnus" isolates by the RAPD assay could be valuable in revealing subspecific divisions within this largely unexplored species. Images

  • isolation of pathogenic strains of Haemophilus somnus from the female bovine reproductive tract
    Canadian Journal of Veterinary Research-revue Canadienne De Recherche Veterinaire, 1992
    Co-Authors: Jacek M Kwiecien, P.b. Little
    Abstract:

    Abstract The prevalence of Haemophilus somnus in the genital tract of slaughtered and live cows in southern Ontario was investigated. The vagina and uterus of slaughtered cows were swabbed separately. Live cows were examined and sampled in two field surveys: Centre A and Centre B. In the former, aspirated mucus secretions and in the latter, specimens obtained by guarded swabbing were examined bacteriologically. Haemophilus somnus was isolated from 28 genital tracts of 461 slaughtered (6.1%), and seven of 199 live (3.5%) cows during the centre B survey. The isolates were recovered from both normal and diseased reproductive tracts. Fourteen strains isolated from genital organs were examined for pathogenicity in vivo to test the occurrence of pathogenic isolates. In the initial stage of the in vivo study on pathogenicity, each of the fourteen isolates was examined on one calf using an intracisternal inoculation. Subsequently, one pathogenic and one nonpathogenic strain were inoculated into five calves each to statistically confirm their pathogenic potential. Of 14 genital isolates of H. somnus examined in an intracisternal calf assay, six (43%) caused a fatal peracute neurological disease, while eight were nonpathogenic. A comparative pathological study of pathogenic and nonpathogenic isolates showed that the former caused a severe fatal suppurative meningoencephalitis whereas the latter caused no lesions whatsoever or a mild leukocytic leptomeningitis. The salient data obtained in this study indicate that there are pathogenic strains of H. somnus in the genital tract of apparently normal cows as well as of those with inflammatory disease.

  • Haemophilus somnus and reproductive disease in the cow a review
    Canadian Veterinary Journal-revue Veterinaire Canadienne, 1991
    Co-Authors: Jacek M Kwiecien, P.b. Little
    Abstract:

    Haemophilus somnus causes inflammatory disease in the genital tract of cows as reported in several field surveys and experimental trials. This organism can also innocuously colonize the healthy genital mucosa of the cow, which indicates its dual relationship with the host, that of pathogen and commensal. Experimental data indicate embryocidal capability of this pathogen suggesting a possible role in early embryonic death. Haemophilus somnus also causes sporadic abortions after a bacteremia in the dam. Retrograde infection of the pregnant uterus from the lower genital tract appears unlikely; however, this process can account for post-parturient endometritis. Detection of high homologous IgG2 serum antibody titers using an ELISA test may be useful for the diagnosis of current or recent genital inflammation. Experimental laboratory data indicate that a proportion of genital strains of H. somnus are pathogenic and capable of causing thrombotic meningoencephalitis and perhaps pneumonia. In vivo testing of the pathogenicity of genital strains remains to be conducted.

Andanthony B. Schryvers - One of the best experts on this subject based on the ideXlab platform.

Donald F Niven - One of the best experts on this subject based on the ideXlab platform.

  • Haemophilus somnus possesses two systems for acquisition of transferrin bound iron
    Journal of Bacteriology, 2004
    Co-Authors: Andrew Ekins, Fariborz Bahrami, Ada Sijercic, Deborah Maret, Donald F Niven
    Abstract:

    Haemophilus somnus strain 649 was found to acquire iron from ovine, bovine, and goat transferrins (Tfs). Expression of Tf receptors, as evaluated by solid-phase binding assays, required the organisms to be grown under iron-restricted conditions in the presence of Tf. Competition binding assays revealed the presence of two distinct Tf-binding receptor systems, one specific for bovine Tf and the other capable of binding all three ruminant Tfs. Affinity isolation procedures using total membranes yielded three putative bovine Tf-binding polypeptides and one putative ovine and goat Tf-binding polypeptide. PCR amplification followed by DNA sequence analyses revealed that H. somnus strain 649 possesses genes that encode a bipartite TbpA-TbpB receptor along with a homolog of the Histophilus ovis single-component TbpA receptor. Expression of TbpB and the single-component TbpA would appear to be subject to a form of phase variation involving homopolymeric nucleotide tracts within the structural genes.

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