UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bovine tumor necrosis factor alpha (TNF-alpha) and interleukin-1 beta (IL-1 beta) cDNAs were generated by reverse transcription and then by PCR amplification from lipopolysaccharide (LPS)-stimulated alveolar macrophage RNA. The amplified cDNAs were cloned into pPow and expressed in Escherichia coli DH5 alpha. The expressed proteins were confirmed as TNF-alpha and IL-1 beta by Western blot (immunoblot) analysis and bioassays. We then used the cloned genes as probes in Northern (RNA) blots and investigated the kinetics of TNF-alpha and IL-1 beta mRNA expression in bovine alveolar macrophages stimulated with purified LPS from Pasteurella haemolytica 12296. The effect of LPS on TNF-alpha and IL-1 beta gene expression was dose dependent, and induction was observed at a concentration of 0.01 microgram/ml. Both TNF-alpha and IL-1 beta mRNA expression were detectable within 0.5 h after stimulation with 1 microgram of LPS per ml, peaked at 1 to 2 h, steadily declined up to 16 h, and were undetectable by 24 h. Secreted TNF-alpha measured by bioassay peaked at 4 h and accumulated at a lesser concentration in conditioned medium throughout the 24 h. By contrast, secreted IL-1 beta was induced at 8 h and reached a maximal concentration at 24 h after stimulation. The ability of LPS to induce TNF-alpha and IL-1 beta gene expression and secretion of bioactive proteins were suppressed by polymyxin B. Our findings support a role for LPS from P. haemolytica in the induction of inflammatory cytokines in bovine pneumonic pasteurellosis.
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PMID:Induction of inflammatory cytokines in bovine alveolar macrophages following stimulation with Pasteurella haemolytica lipopolysaccharide. 782

In this study, we used an in vitro coculture system to determine which virulence factor from Pasteurella haemolytica A1 was responsible for augmenting bovine polymorphonuclear neutrophil (PMN)-mediated killing of bovine pulmonary artery endothelial cells (BPAEC). A 51Cr release cytotoxicity assay was used as a measure of BPAEC killing. The mechanisms associated with this BPAEC killing were also studied. Our results demonstrated that the leukotoxin and not the lipopolysaccharide from P. haemolytica was responsible for augmenting the PMN-mediated killing of BPAEC. Furthermore, this augmented killing was related to the stimulation of PMNs by the leukotoxin. Killing of BPAEC by leukotoxin-stimulated PMNs was diminished in the presence of the H2O2 inactivator, catalase. The membrane-permeant H2O2, hydroxyl radical (HO.) scavenger 1,3-dimethyl-2 thiourea, and the HO. scavenger dimethyl sulfoxide but not the myeloperoxidase inhibitor sodium azide attenuated this BPAEC killing. Pretreatment of BPAEC with a 21-aminosteroid (U74500A), a potent iron chelator-antioxidant, provided the most effective protection against BPAEC killing induced by leukotoxin-stimulated PMNs. These data were compatible with the concept that the H2O2 generated by leukotoxin-stimulated PMNs interacts with intracellular iron in the endothelial cell to form highly reactive HO.. We suggest that HO. may be a key factor in BPAEC killing. Furthermore, since the elastase-specific inhibitor N-methoxy-succinyl-Ala-Ala-Pro-Val-chloromethyl ketone (CMK) also attenuated BPAEC killing and both CMK and 1,3-dimethyl-2 thiourea functioned additively in protecting against BPAEC killing, we conclude that both HO. and elastase may jointly contribute to BPAEC killing induced by leukotoxin-stimulated PMNs. This study broadens our understanding of how leukotoxin-stimulated PMNs injure lung endothelial cells and provides new insight into the pathogenesis of bovine pneumonic pasteurellosis.
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PMID:Enhancement of neutrophil-mediated injury to bovine pulmonary endothelial cells by Pasteurella haemolytica leukotoxin. 838 66

We assessed the kinetics of inducible nitric oxide synthase (iNOS) mRNA expression and production of nitric oxide (NO) in bovine alveolar macrophages (AMs) stimulated with purified lipopolysaccharide (LPS) from Pasteurella haemolytica strain 12296. The effect of LPS on iNOS gene expression was dose-dependent and was expressed maximally at 24 h after stimulation with 10 micrograms/ml of LPS. Production of NO measured as secreted nitrite in supernatants took place in a time and dose-dependent manner with peak production at 24 h after LPS stimulation. Recombinant bovine gamma interferon (rb gamma IFN) augmented the LPS-induced iNOS gene expression and production of NO. The ability of LPS to induce iNOS gene expression and NO production either alone or in combination with rb gamma IFN was significantly abrogated by polymyxin B. In addition, the iNOS inhibitor NG-monomethyl-Larginine (L-NMMA) significantly inhibited LPS and rb gamma IFN + LPS induced NO production. Our results also demonstrated that NO produced from an exogenous NO donor sodium nitroprusside (SNP), and NO generated from LPS-stimulated AMs (endogenous) caused cytotoxic injury to bovine pulmonary artery endothelial cells in a dose-dependent manner. The cytotoxic injury caused by NO generated from LPS stimulated AMs was inhibited by polymyxin B or L-NMMA. There was a markedly increased concentration of nitrite in the lung lavage fluids of calves following P. haemolytica infection. These findings support a role for NO in the pathogenesis of lung injury in bovine pneumonic pasteurellosis.
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PMID:Induction of nitric oxide production by bovine alveolar macrophages in response to Pasteurella haemolytica A1. 883 31

The objective of this study was to evaluate the efficacy of three Pasteurella haemolytica A1 derived experimental subunit vaccines against pneumonic pasteurellosis in cattle. The three vaccines were: (a) culture supernatant (CS) containing leukotoxin (Lkt), lipopolysaccharide (LPS) and capsular polysaccharide (CP); (b) sodium salicylate extract (SSE) containing iron regulated outer membrane proteins (IROMPs), LPS and CP; (c) and a combination of the above two. Vaccine efficacy was defined in terms of reduction in clinical and pneumonic lesion scores after intrapulmonic challenge with live P. haemolytica. The results indicate that the CS vaccine elicited antibodies against both Lkt and CP, while the SSE vaccine elicited antibodies against IROMPs and CP. Animals inoculated with the combination vaccine showed increased levels of antibodies against IROMPs, Lkt and CP. There was significant correlation between lung and serum antibodies against Lkt, CP and IROMPs. Animals that received the combination vaccine had significantly lower mean pneumonic lung score as compared to SSE and control groups. The animals which received CS vaccine had mean pneumonic lung score significantly lower than that of control group. A strong negative correlation existed between serum antibody levels against Lkt, IROMPs, CP and pneumonic lung scores. The results from this study demonstrate the usefulness of CS vaccine alone or in combination with SSE vaccine in bringing about optimal protection in vaccinated calves, against experimental pneumonic pasteurellosis.
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PMID:Evaluation of three experimental subunit vaccines against pneumonic pasteurellosis in cattle. 885 12

Four colostrum-deprived calves each were immunized passively with antisera to whole Pasteurella haemolytica, leukotoxin-containing supernatants of P haemolytica, P haemolytica lipopolysaccharide, or newborn calf serum. Calves were challenge exposed intrabronchially with 5 x 10(9) P haemolytica, and 24 hours later, the resulting lesions were evaluated. The greatest protection against challenge exposure was provided by the antiserum to whole P haemolytica (lesion score = 6.3), whereas newborn calf serum provided the least protection (lesion score = 28.3). Calves that received antiserum to P haemolytica supernatants were moderately protected (lesion score = 16.3), and the antiserum to lipopolysaccharide provided minimal protection (lesion score = 21.8). Antibodies that were unique to whole P haemolytica antiserum and produced dense bands on immunoblots were detected to antigens at 66, 50, and 30 kd. Antibodies in the supernatant preparation that produced prominent bands reacted to antigens between 100 and 90 kd. Collectively, antibodies to these antigens may be responsible for enhancing resistance to experimentally induced pneumonic pasteurellosis. Antibodies to antigens in P haemolytica lipopolysaccharide provided little to no protection.
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PMID:Passive protection of calves with Pasteurella haemolytica antiserum. 892 48

Genetic diversity and relationships among 194 Pasteurella haemolytica isolates, which were recovered predominantly from cattle (39%) and sheep (58%) suffering from pneumonic pasteurellosis in the United Kingdom, Germany, and the United States, were estimated by examination of allelic variation at 18 enzyme-encoding loci detected by multilocus enzyme electrophoresis. The isolates formed two major divisions. One included 178 Pasteurella haemolytica sensu stricto strains representing serotypes A1, A2, A5 to A9, A12 to A14, and A16; the other was composed of 16 isolates belonging to the A11 taxon. P. haemolytica isolates were classified into 22 electrophoretic types (ETs) that formed three primary phylogenetic lineages. One lineage was represented by ovine serotype A2 isolates, a second lineage consisted of bovine serotype A2, together with serotype A7 and A13 isolates, and the third lineage included isolates representing all of the other serotypes, as well as a second group of serotype A7 strains. Electrophoretic types were nonrandomly associated with specific capsular serotypes, lipopolysaccharide (LPS) types, outer membrane protein (OMP) types, and host species. Bovine isolates were represented by only three serotypes (A1, A2, and A6) in 5 ETs, whereas ovine isolates were represented by all of the serotypes in 19 ETs. The majority (76%) of bovine isolates were of serotypes A1 or A6 and belonged to a single ET that marked a virulent, cattle-specific clonal group. Among the ovine isolates, 40% were of serotype A2 and belonged to two ETs that represented two virulent, sheep-specific clonal groups. Bovine A1 and A6 isolates and bovine A2 isolates were phylogenetically distinct from ovine isolates of the same serotypes, indicating that different subpopulations of these serotypes are associated with disease in cattle and sheep. Consistent differences in the OMP profiles of strains of the bovine and ovine lineages of these three serotypes suggest that certain OMPs are involved in host specificity and virulence. Evolutionary relationships among P. haemolytica isolates indicate that the ancestral host is the sheep and that several distinct clonal lineages have crossed the species barrier into cattle. The A11 taxon is a heterogeneous group of opportunistic pathogens of sheep that represents a separate species.
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PMID:Evolutionary genetics of Pasteurella haemolytica isolates recovered from cattle and sheep. 928 23

Immune complex formation has long been thought to play a role in the pathogenesis of Pasteurella haemolytica pneumonia. This study in laboratory rabbits was designed to investigate immune-mediated damage in respiratory tissue caused by lipopolysaccharide (LPS). Severe lesions were induced by the intratracheal (IT) injection of P. haemolytica A1 LPS (50 micrograms) into rabbits previously immunized with P. haemolytica killed whole cells emulsified with Freund's incomplete adjuvant (FIA); these lesions included perivascular oedema and polymorphonuclear leucocyte (PMN) infiltration of the subintima, with degeneration and necrosis of the media. Smaller vessels were occluded by PMNs in various stages of degranulation. PMN counts in bronchoalveolar lavage (BAL) fluid were significantly elevated (P < 0.05). Lesions were also induced by the IT injection of LPS (50 micrograms) into rabbits pretreated with an emulsion consisting merely of FIA and formol-saline; these lesions included moderate to severe congestion, interstitial oedema, alveolar serofibrinous exudation and PMN infiltration. PMNs were also present in BAL fluid. Rabbits pretreated with FIA in formol-saline and given a later IT injection of saline, and rabbits pretreated with bovine serum albumin (BSA) in FIA and given a later IT injection of BSA, were included as negative and positive control groups. Cutaneous lesions were also induced by the intradermal injection of LPS into rabbits immunized against P. haemolytica and of BSA into rabbits immunized with BSA. Overall, the pulmonary and cutaneous lesions induced in vaccinated rabbits by antigen administration were more severe than those seen in non-vaccinated rabbits. The lesions in rabbits, which were similar to those seen in natural cases of P. haemolytica pneumonia in cattle, were characterized by a fibrinopurulent inflammatory process with extensive interstitial oedema, fibrinous exudate, and PMNs. This model may help to elucidate the pathogenesis of pneumonic pasteurellosis in immunized animals.
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PMID:Influence of immunization on the pulmonary inflammatory response of rabbits induced by Pasteurella haemolytica A1 lipopolysaccharide. 935 38

Ten lambs aged 8 weeks were inoculated intratracheally through the tracheal wall with lipopolysaccharide from Pasteurella haemolytica A1 and examined in chronological sequence by light and electron microscopy for pulmonary lesions. An acute fibrinopurulent pneumonia was produced, which resolved within 72 h but bore many resemblances to field cases of pneumonic pasteurellosis. Sequestration of neutrophils in the capillaries of the lungs and aggregation of surfactant in the alveoli occurred rapidly, followed by swelling of the alveolar and capillary endothelia, oedema, haemorrhage, and emigration of neutrophils into the interstitium and small air spaces of the lungs. Necrosis of isolated neutrophils was a constant feature. Alveolar, interstitial and intravascular macrophages and lymphoid cells increased slowly to become the predominant inflammatory cells at 72 h. A surprising feature was the transient appearance of multinucleated cells in the lungs at 2 and 6 h after inoculation. It is concluded that lipopolysaccharide makes a major contribution to the pathogenesis of P. haemolytica infection in the lungs of sheep.
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PMID:Changes in the lungs of lambs after intratracheal injection of lipopolysaccharide from Pasteurella haemolytica A1. 957 13

Respiratory infections which commonly occur in sheep and goats often result from adverse physical and physiological stress combined with viral and bacterial infections. Inevitably, Pasteurella haemolytica pneumonia occurs as a result of these interactions. In this review, we present recent advances in research on the complex etiology of pneumonia involving P. haemolytica. Initially stress, induced by factors such as heat, overcrowding, exposure to inclement weather, poor ventilation, handling and transport is a major predisposing factor. Respiratory viruses including parainfluenza 3 (PI-3) virus, adenovirus type 6 and respiratory syncytial virus (RSV), and to a lesser extent bovine adenovirus type 2, ovine adenovirus types 1 and 5, and reovirus type 1 cause respiratory infections and pneumonia. More importantly these viruses also dramatically increase the susceptibility of sheep and goats to secondary P. haemolytica infection. Primary infection of the lower respiratory tract, with Mycoplasma ovipneumoniae and Bordetella parapertussis can increase the susceptibility of sheep and goats to secondary P. haemolytica infection. It is possible that initial infections with viral or primary bacterial agents break down the antimicrobial barrier consisting of beta defensins and anionic peptides found in epithelial cells, resident and inflammatory cells, and serous and mucous secretions of the respiratory tract. Loss of barrier integrity may release P. haemolytica from its usual commensal status. Once in the lung, P. haemolytica becomes opportunistic. To grow and colonize, P. haemolytica uses extracellular products like O-sialoglycoprotein endopeptidase, neuraminidase and RTX leukotoxin, as well as cell-associated products such as capsular polysaccharide, lipopolysaccharide, outer membrane proteins, proteins involved in iron acquisition and a periplasmic superoxide dismutase. In lambs and kids, pneumonic pasteurellosis can be acute, characterized by fever, listlessness, poor appetite and sudden death. Sheep and goats that survive the acute stage may recover or become chronically affected showing reduced lung capacity and weight gain efficiency and sporadic deaths may occur. This infection is detrimental to sheep and goats throughout the world and flocks and herds of small ranches, dairy operations, or large feedlots are all affected.
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PMID:Pasteurella haemolytica complicated respiratory infections in sheep and goats. 968 40

Pasteurella haemolytica serotype 1 is the bacterial agent responsible for the pathophysiological events associated with bovine pneumonic pasteurellosis. Our previous studies support a role for the lipopolysaccharide (LPS) from P. haemolytica in the induction of proinflammatory cytokines. One of the pathological hallmarks of bovine pneumonic pasteurellosis is an influx of neutrophils into the alveolar spaces. This pronounced influx suggests the local production of a chemotactic factor(s) such as interleukin-8 (IL-8). In the context of the lung, the alveolar macrophage appears to be the major producer of IL-8, a proinflammatory cytokine with potent neutrophil chemotactic activity. By using Northern blot analysis, we have examined the kinetics of IL-8 mRNA expression in P. haemolytica LPS-stimulated bovine alveolar macrophages and found that 1 ng of LPS per ml induces maximal expression of IL-8 mRNA. The results also indicate a biphasic time course expression pattern in which IL-8 mRNA levels peak between 1 and 2 h in the first phase and between 16 and 24 h in the second phase (P < 0.01). In addition, monospecific polyclonal antibodies were used to demonstrate the role of tumor necrosis factor alpha (TNF-alpha) in the second phase of IL-8 mRNA expression. Our findings support a role for P. haemolytica LPS and TNF-alpha in the induction of IL-8 from bovine alveolar macrophages.
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PMID:The biphasic mRNA expression pattern of bovine interleukin-8 in Pasteurella haemolytica lipopolysaccharide-stimulated alveolar macrophages is primarily due to tumor necrosis factor alpha. 971 52

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