Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

I describe the effect on phagocytic activity of the migration of bovine blood polymorphonuclear leukocytes (PMNL) through collagen and a monolayer of PK-15 cells in vitro infected with rotaviruses (strain OSU, RFC-17, SA-11), a picornavirus (strain SVDV), bovine herpesvirus (BHV-1) and equine herpesvirus (EHV-1). The PMNL were examined before and after their migration as follows: (1) for EA rosette formation with sensitized sheep erythrocytes, (2) for phagocytic activity mediated through Fc receptors (FcRs), (3) for phagocytic activity mediated through immunologically nonspecific receptors (INsRs). Random migration of PMNL through the infected monolayer to RPMI-1640 medium containing or lacking chemotactic agents (zymosan activated serum--Act. serum) and/or containing control agents (lipopolysaccharide--LPS or formyl-L-methionyl-L-leucyl-L-phenylalanine--fMLP) decreased the percentage of rosettes forming PMNL and the phagocytosis mediated by FcRs and INsRs. The results obtained suggest that the viruses used in this study independently of their biological properties exerted a suppressive action on the phagocytic activity mediated by FcRs and INsRs.
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PMID:Effect of viral infection of Fc receptors and immunologically nonspecific receptors of blood polymorphonuclear leukocytes: an in vitro model. 256 5

The present study investigates the cellular and molecular mechanisms responsible for expressing genetic control of type II collagen-induced murine chronic arthritis. Analyses were made for both humoral and cellular immune responses, since the induction of arthritis required synergy between both types of immunities. Immunization of high (DBA/1) and low (C57BL/6, C3H/He, BALB/c) responder mice with native bovine type II collagen resulted in the production of the respective high and low levels of anti-collagen antibody. However, polyclonal in vitro stimulation of normal spleen cells from high or low responder mice with lipopolysaccharide (LPS) induced a comparable magnitude of anti-collagen antibody responses, indicating the localization of the genetic defect at cellular levels other than B cells themselves. In contrast to immunization with native collagen, sensitization of DBA/1 mice with heat-denatured collagen failed to stimulate B cells, but resulted in selective generation of L3T4+ T cell-mediated immunity. These included anti-collagen delayed-type-hypersensitivity (DTH) responses and the generation of various interleukins (IL) responsible for antibody production as well as DTH responses. It was demonstrated that there was appreciable difference in the magnitudes of these responses between lymphoid cells from high and low responder mice. Differential effects of sensitization with heat-denatured collagen in high versus low responders were reflected on the genetic difference in the development of chronic arthritis. A typical arthritis was induced neither in denatured collagen-sensitized DBA/1 mice nor in unsensitized mice transferred with anti-collagen antiserum. However, the antiserum transfer into denatured collagen-sensitized DBA/1 mice induced chronic perpetuating arthritis. This sharply contrasted with the failure of the same aliquot of the antiserum to induce a chronic arthritis when inoculated into denatured collagen-sensitized low responder mice. These results indicate that the genetic control of the induction of arthritis is expressed on L3T4+ T cells which are required for generating anti-collagen humoral as well as cell-mediated immunities as assessed by DTH responses in vivo or lymphokine productions in vitro.
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PMID:Type II collagen-induced murine arthritis. II. Genetic control of arthritis induction is expressed on L3T4+ T cells required for humoral as well as cell-mediated immune responses to type II collagen. 257 23

The human mannose-binding protein (MBP) is a multimeric serum protein that is divided into three domains, a cysteine-rich NH2-terminal domain that stabilizes the collagen alpha helix of the second domain and a third COOH-terminal carbohydrate recognition domain. Previous studies have shown that both native and recombinant human MBP bind to wild-type virulent Salmonella montevideo that expresses a mannose-rich lipopolysaccharide. Interaction with MBP results in opsonization and killing by phagocytes. In this report we show that low concentration of MBP (less than 10 micrograms/ml) markedly enhance complement deposition via the alternative complement pathway on S. montevideo. Despite structural similarities between MBP and the C1q subcomponent of the first complement component, MBP did not restore classical pathway activity to C1q-deficient serum, nor did it activate C1s when added to a mixture of C1r and C1s. In the presence of MBP the C3 bound to S. montevideo during incubation in serum was in the form of C3b and iC3b at a ratio of 1:2. Presensitization of S. montevideo with MBP rendered this normally serum resistant organism susceptible to complement-mediated killing. These results emphasize that MBP and complement cooperate in first line defense of the nonimmune host.
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PMID:Human mannose-binding protein activates the alternative complement pathway and enhances serum bactericidal activity on a mannose-rich isolate of Salmonella. 259 61

Osteoblasts are the cells responsible for the secretion of collagen and ultimately the formation of new bone. These cells have also been shown to regulate osteoclast activity by the secretion of cytokines, which remain to be defined. In an attempt to identify these unknown cytokines, we have induced primary murine osteoblasts with two bone active agents, parathyroid hormone (PTH) and lipopolysaccharide (LPS) and analyzed the conditioned media (CM) for the presence of specific cytokines. Analysis of the CM was accomplished by functional, biochemical, and serological techniques. The data indicate that both PTH and LPS are capable of inducing the osteoblasts to secrete a cytokine, which by all of the techniques used, is indistinguishable from granulocyte-macrophage colony-stimulating factor (GM-CSF). Secretion of GM-CSF is not constitutive and requires active induction. Production of the cytokine is dependent on the dose of PTH or LPS added. It has been demonstrated that the addition of GM-CSF to bone marrow cultures results in the formation of increased numbers of osteoclasts. Therefore, these data suggest that osteoblasts not only participate in bone remodeling by formation of new matrix but may regulate osteoclast activity indirectly by their ability to regulate hematopoiesis.
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PMID:Parathyroid hormone and lipopolysaccharide induce murine osteoblast-like cells to secrete a cytokine indistinguishable from granulocyte-macrophage colony-stimulating factor. 264 17

The arachidonic acid metabolites produced by human peripheral blood monocytes were studied to determine which metabolites could have a role in thrombogenesis. Monocytes were found to be free of platelets by scanning electron microscopy and by measurement of 12-HETE. Human peripheral blood monocytes produce thromboxane as their major metabolite. Thromboxane levels reached a plateau at 12-16 hours of culture. Monocytes produced relatively little prostaglandin E2 or F2. In contrast to our control platelet preparation, neither A23187 (1-10 microM) nor exogenous arachidonic acid (0-40 microM) caused an increase in monocyte thromboxane B2. On the other hand, lipopolysaccharide (20 micrograms per ml), collagen (2.5 mg per 10(7) cells), and thrombin (5-10 units per ml) caused a two- to fivefold increase in monocyte thromboxane B2 in most donors but had no effect on prostaglandin F1 alpha levels. Blockage of thromboxane synthase by 1-benzylimidazole abolished thromboxane B2 production but did not increase prostaglandin F1 alpha. Finally, aspirin-treated platelets from a volunteer donor, which were refractory to 30 microM arachidonate, could be aggregated by isolated blood monocytes. Our data indicate that monocytes are capable of producing thromboxane in large amounts. The regulation of this increase, however, appears to be quite different from platelets. We postulate that monocytes may have a role in hemostasis by virtue of their ability to adhere at sites of vascular injury and release thromboxane, which may enhance platelet aggregation and thrombus formation.
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PMID:Arachidonic acid metabolites produced by platelet-depleted human blood monocytes: a possible role in thrombogenesis. 274 10

Explants of bovine articular cartilage were cultured for up to 50 days in 20% fetal calf serum in the presence or absence of the endotoxin lipopolysaccharide (LPS); or in various protocols involving different treatment times with LPS followed by recovery times in the absence of LPS. Cultures were measured in terms of rates of proteoglycan synthesis (incorporation of [35S]sulfate), proteoglycan contents and collagen contents. Histological sections were prepared for both light and electron microscopy. In fetal calf serum, the rates of synthesis and contents of proteoglycans per collagen remained constant, while for LPS treated cultures both parameters decreased. For recovery groups, the rates of proteoglycan synthesis increased during the time of recovery if the LPS treatment times were relatively short (2 weeks or less) and if the tissue was obtained from younger animals; net increase in proteoglycan contents occurred infrequently if at all during recovery protocols. Histological examinations revealed that chondrocytes in cultures maintained in fetal calf serum appeared normal with large stores of glycogen. In LPS treated cultures, chondrocytes were depleted of glycogen stores and contained numerous lipid droplets. In recovery cultures, chondrocytes replenished their glycogen contents, but the lipid droplets remained. For both LPS treated and recovery groups the extracellular matrix was depleted of proteoglycans with time in culture. The results provide further evidence for the ability of this explant culture system to maintain steady state metabolic parameters for proteoglycan metabolism over long time periods and for its utility to study reagents which regulate or perturb these parameters.
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PMID:Biochemical and morphological studies of steady state and lipopolysaccaride treated bovine articular cartilage explant cultures. 280 82

We have studied concurrent production of macrophage agglutination factor (MAggF) and procoagulant activity by antigen-stimulated human blood mononuclear cells to gain insight into biochemical mechanisms underlying delayed hypersensitivity inflammatory reactions. After stimulation of cells from tuberculin-sensitive donors with tuberculin, MAggF was present in culture supernatants while the overwhelming majority of procoagulant activity remained cell-associated. Neither MAggF nor procoagulant activity was found in reconstituted control cultures, nor in tuberculin-stimulated cultures of non-sensitive cells. Concanavalin A and lipopolysaccharide elicited both activities from cultured mononuclear cells, regardless of donor sensitivity. Human MAggF bound to insolubilized gelatin, heparin and a monoclonal anti-fibronectin (FN) antibody, and its activity was inhibited by another monoclonal antibody directed against the gelatin-binding domain of FN. Treatment of indicator peritoneal exudate cells with monoclonal anti-FN receptor antibody inhibited their response to human MAggF. These results suggest that human MAggF, like the analogous guinea-pig activity, is FN-associated. Antigen-elicited procoagulant activity shortened the recalcification time of normal, factor VII- and factor IX-deficient plasma, partially corrected prothrombin times of factor VII-deficient plasma, had no effect on recalcification and prothrombin items of factor X- and factor V-deficient plasma, and was inhibited by specific anti-factor VII antibody. Thus, human mononuclear cell procoagulant consists of both tissue factor and factor VII, whether it is induced by antigen or mitogen. Antigen-stimulated blood mononuclear cells are able to provide a signal for local fibrin deposition and a protein mediating fibrin binding to mononuclear phagocytes and collagen at sites of delayed hypersensitivity reactions.
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PMID:Concurrent production of macrophage agglutination factor and factor VII by antigen-stimulated human peripheral blood mononuclear cells. 293 89

Human macrophages have been implicated in connective tissue remodeling; however, little is known about their direct effects upon collagen degradation. We now report that human alveolar macrophages in culture produced both a collagenase and a collagenase inhibitor. The collagenase was secreted in latent form and could be activated by exposure to trypsin. Collagenase production could be increased three- to fourfold by incubating the cells with lipopolysaccharide, but synthesis was largely unaffected by exposure to phorbol myristate acetate. By several criteria, macrophage collagenase was the same as the collagenase secreted by human skin fibroblasts: (a) they were antigenically indistinguishable in double immunodiffusion; (b) both degraded type III collagen preferentially to type I, had little activity against type II collagen, and none against types IV and V, and (c) their affinity for susceptible collagens was equivalent, Michaelis constant = 1-2 microM. Collagenase inhibitory activity was also present in the macrophage-conditioned medium, and was accounted for by an antigen that showed immunologic and functional identity with the collagenase inhibitor secreted by human skin fibroblasts. The amount of inhibitor released by unstimulated cells, approximately 100 ng/10(6) cells per 24 h, was substantially augmented by both phorbol and lipopolysaccharide, although considerable variability in response to these agents was observed between macrophage populations derived from different subjects. As negligible quantities of collagenase or collagenase inhibitor were detectable intracellularly, it appeared that both proteins were secreted rapidly after synthesis. Thus, human macrophages have the capacity to modulate collagen degradation directly by production of collagenase and collagenase inhibitor.
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PMID:Human alveolar macrophages produce a fibroblast-like collagenase and collagenase inhibitor. 299 37

Although the fibrosis observed during chronic liver injury is the result of a complex process, the striking accumulation of collagen in end stage liver disease has provoked interest in the mechanisms that regulate both collagen production and degradation in the diseased liver. The present studies have examined the cell interactions that may be important in the regulation of collagen degradation. Although minimal amounts of interstitial collagenase activity were noted in cultures of normal hepatocytes and sinusoidal cells, the co-cultures of these cells in the presence of lipopolysaccharide showed a substantial increase in collagenase activity. When the hepatocytes were obtained from rats that had been treated with carbon tetrachloride in vivo, the enhanced activity seen in the co-cultures did not require the addition of lipopolysaccharide. Further characterization of this interaction suggested that the increase in collagenolytic activity was partially due to the elaboration of soluble factors by the hepatocyte, which stimulated collagenase production by the sinusoidal cell population. Elaboration of collagenase activity by the sinusoidal cells was inhibited by cycloheximide, suggesting that protein synthesis was required. The proteolytic activity was abrogated by inhibitors of metalloproteinases but not by serine or thiol proteinase inhibitors. The degradation products of type I collagen were typical of the expected products seen with vertebrate collagenases. Thus, it appears that the increased collagenolytic activity detected in this co-culture system is attributable to the production of interstitial collagenase by the sinusoidal cell population. Such cell-cell interactions may play an important role in the maintenance of normal connective tissue structure of the liver during disease processes.
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PMID:Stimulation of interstitial collagenase in co-cultures of rat hepatocytes and sinusoidal cells. 300 4

Thirty rabbits received an infusion of lipopolysaccharide B (75 micrograms/kg.h) over 4 hours (groups E, EI, EA; n = 10 each). Saline was given to a control group (C; n = 8). In group EI, prostacyclin (PGI2; 500 ng/kg.min) was given simultaneously to endotoxin. Into group EA animals, aspirin (20 mg/kg) was injected before the endotoxin infusion was started. PGI2 and aspirin both improved survival of animals (6/10 each vs. 2/10 in group E). The drop of platelet counts was significantly reduced by PGI2, while leukocyte depletion was similar in all endotoxin groups. PGI2 preserved the functional capacity of platelets as indicated by collagen stimulated aggregation and thromboxane formation. PGI2 but not aspirin significantly reduced renal fibrin deposition.
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PMID:Beneficial effects of prostacyclin in a rabbit endotoxin shock model. 305 16


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