Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Human peripheral blood phagocytes ingest Escherichia coli 026:B6 lipopolysaccharide (LPS)-coated paraffin oil droplets containing Oil red O only if fresh serum deposits C3 on the surfaces of the particles (opsonizes them), by reactions involving the properdin system. The rate of binding of purified [125-I]C3 in serum to LPS-coated particles correlated precisely with the rate of acquisition of ingestibility assayed spectrophotometrically. Once opsonized, LPS-coated particles remained fully ingestible and retained fixed [125-I]C3 radioactivity even after exposure to extremes of temperature, pH, ionic strength, phospholipases, urea or guanidine, some nonionic and ionic detergents, and organic solvents. Trypsin, human conglutinogen-activating factor, another heat-stable activity found in human serum, and sodium dodecyl sulfate removed radioactivity and diminished ingestibility of the opsonized particles. Alkylation, reduction plus alkylation and F(ab')2 from anti-C3 blocked ingestibility but did not alter particle-bound radioactivitymelectrophoretic and tryptic peptide autoradiographic analysis of dodecyl sulfate eluates of opsonized particles, cleansed of many contaminating proteins by boiling with 2 M NaCl (yet still opsonized), revealed that the polypeptide with C3-derived radioactivity had a mol wt of approximately 140,000 and was composed of 70,000 mol wt subunits linked by disulfide bonds. Immunochemical analysis and comparison of the peptide structure of the eluate with that of C3 indicated that the opsonic fragment is not the fragment defined as C3b but a smaller derivative of C3.
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PMID:The opsonic fragment of the third component of human complement (C3). 23 57

Mouse macrophages activated by interferon-gamma kill intracellular Leishmania by a process that depends on the generation of L-arginine-derived nitrogen oxidation products. Interferon-induced intracellular killing can be mimicked by exposure of macrophages to the Ca2+ ionophore A23187 in the presence of lipopolysaccharide. The mechanisms of this effect were therefore investigated. Destruction of the parasite was accompanied by accumulation of nitrite in the macrophage culture fluids. Leishmanicidal activity and nitrite production in cultures stimulated with ionophore A23187 and lipopolysaccharide were abrogated when cells were activated in medium containing arginase or the L-arginine analogues L-canavanine, guanidine or NG-monomethyl-L-arginine. L-Arginine was required during the lipopolysaccharide-induced triggering phase only. Indeed, macrophage priming with ionophore A23187 in L-arginine-depleted medium led to full microbicidal activity and nitrite generation provided that L-arginine was present during subsequent triggering by lipopolysaccharide. Addition of NG-monomethyl-L-arginine to ionophore-activated macrophages increased O2- production on phorbol myristate stimulation, while inhibiting glucose oxidation through the hexose monophosphate shunt pathway. Leishmanicidal activity and nitrite production were also inhibited when ionophore-treated cultures were incubated with excess iron, implying a role for iron as a defence mechanism against the toxicity of nitrogen derivatives. These results indicate that the ionophore-induced leishmanicidal activity occurs through a process similar to that evoked by interferon-gamma, i.e. the production of L-arginine-derived nitrogen oxidation products.
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PMID:Macrophage activation for intracellular killing as induced by a Ca2+ ionophore. Dependence on L-arginine-derived nitrogen oxidation products. 159 22

The experiments described in this report were aimed at determining whether L-arginine (L-arg)-derived nitrogen oxidation products (nitric oxide, nitrous acid, nitrites) are involved in the intracellular killing of Leishmania parasites by activated murine macrophages in vitro. Peritoneal or bone marrow-derived macrophages were infected with L. enriettii or L. major, then activated by exposure to recombinant murine interferon-gamma or to macrophage activating factor (MAF)-rich media in the presence of lipopolysaccharide. Activation of macrophages in regular (i.e., arginine-containing) culture medium led to complete destruction of the microorganisms within 24 h (L. enriettii) or 48 h (L. major), concomitant with accumulation of nitrites (NO2-) in the culture fluids. When macrophage activation was carried out in L-arg-free medium, however, neither parasite killing nor NO2- production was obtained. A similar inhibition of macrophage leishmanicidal activity and of NO2- release was observed using media treated with arginase (which converts L-arg to urea and ornithine), or supplemented with NG-monomethyl-L-arg or guanidine (which inhibit the conversion of L-arg to nitrogen oxidation products). In all these situations, an excellent correlation between the levels of NO2- production by macrophages and intracellular killing of Leishmania was observed, whereas no strict correlation was detectable between leishmanicidal activity and superoxide production. Intracellular parasite killing by activated macrophages could be prevented by addition of iron salts to the incubation fluids. Incubation of free parasites with NaNO2 at acid pH (which permits the production of nitrous acid) led to immobilisation, multiplication arrest, and morphological degeneration of the microorganisms. Similarly, exposure of infected cells to NaNO2 led to killing of the intracellular parasite without affecting macrophage viability. These experiments strongly suggest that the leishmanicidal effect of activated murine macrophages involves the agency of L-arg-derived nitrogen oxidation products.
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PMID:Killing of Leishmania parasites in activated murine macrophages is based on an L-arginine-dependent process that produces nitrogen derivatives. 184 12

L-Arginine is required for expression of the activated macrophage cytotoxic effector mechanism that causes inhibition of mitochondrial respiration, aconitase activity, and DNA synthesis in tumor target cells. This effector mechanism is active in the presence of L-arginine even when the cocultivation medium lacks all other amino acids and serum. Cytotoxic activated macrophage-induced inhibition of mitochondrial respiration in target cells is proportional to the concentration of L-arginine in the medium. L-Arginine must be present during the cocultivation period. Pretreatment of cytotoxic activated macrophages with L-arginine or posttreatment of the target cells after cocultivation is not effective. D-Arginine does not substitute for L-arginine and at high concentrations is a competitive inhibitor of the L-arginine-dependent effector mechanism. Other analogues that could not replace L-arginine include agmatine, argininic acid, arginine hydroxamate, and tosyl-L-arginine methyl ester. L-homoarginine, however, can effectively substitute for L-arginine. NG-monomethyl-L-arginine is a potent competitive inhibitor of this effector mechanism. High concentrations of lipopolysaccharide do not reverse inhibition of the L-arginine-dependent effector mechanism by NG-monomethyl-L-arginine. However, inhibition of the effector mechanism by NG-monomethyl-L-arginine can be overridden by increasing the concentration of L-arginine in the culture medium. We compared NGNG-dimethyl-L-arginine and NGN1G-dimethyl-L-arginine with NG-monomethyl-L-arginine as inhibitors of the L-arginine-dependent effector mechanism. The results show that the inhibitory effect of these guanidino methylated derivatives of L-arginine is highly determined by structure. Guanidine is a weak competitive inhibitor of the L-arginine-dependent effector mechanism. The requirement for L-arginine does not appear to be for protein synthesis, creatine biosynthesis, polyamine biosynthesis, or ADP ribosylation reactions. Bacterial lipopolysaccharide is effective as a second signal only when the cocultivation medium contains L-arginine, and this strict L-arginine dependency is not overridden by increasing the concentration of lipopolysaccharide. Bovine liver arginase, by competing for L-arginine in the cocultivation medium, inhibits the L-arginine-dependent activated macrophage cytotoxic effector mechanism.
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PMID:L-arginine is required for expression of the activated macrophage effector mechanism causing selective metabolic inhibition in target cells. 243 29

The long term (18 day) metabolic response of bovine articular cartilage to treatment with either E. Coli lipopolysaccharide (LPS) or interleukin 1 was studied. For LPS treatment, incorporation of [35S]sulfate into the large proteoglycan population was inhibited 80% while that into the small interstitial proteoglycans was only inhibited 40%. Incorporation of [3H]serine into the large proteoglycan population was inhibited approximately 72% while incorporation into other protein was inhibited only 16%. Furthermore, the rate of catabolism of [3H]serine labeled proteoglycans was increased 2-fold by LPS treatment while the rate of 3H-labeled general protein catabolism was not affected. Incorporation of [3H]glucosamine into hyaluronate was increased; however a correction for changes in the specific activity of the intracellular [3H]glucosamine precursor pool in LPS-treated cultures indicated that the net amount of hyaluronate synthesized was not altered by LPS treatment. The 3H/35S ratios in isolated chondroitin sulfate disaccharides labeled with [35S]sulfate and [3H]glucosamine precursors were significantly changed during long term LPS treatment, suggesting that general carbohydrate pathways are altered. The 3H/35S changes were larger in the disaccharides isolated from the small proteoglycans indicating that different precursor pools, probably in different cell populations, preferentially synthesize this proteoglycan population. Interleukin-1 affected the same chondrocytic pathways as LPS as shown by a) the extent of inhibition of proteoglycan synthesis, b) the selective inhibition of synthesis of the large proteoglycan species, c) acceleration of proteoglycan catabolism, d) net depletion of proteoglycans from the tissue, e) increases in guanidine HCl extractable [3H]hyaluronate, f) increases in levels of prostaglandin E2 synthesis, g) changes in 3H/35S ratios in glycosaminoglycan chains and, h) minimal effects on general protein synthesis.
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PMID:Effects of interleukin-1 and lipopolysaccharides on protein and carbohydrate metabolism in bovine articular cartilage organ cultures. 250 33

The binding characteristics of partially purified glucocorticoid receptor complexes from hormone sensitive, non-differentiating BCL1 cells to sequentially deproteinized BCL1 chromatin-cellulose was investigated. [3H]Triamcinolone acetonide (TA)-receptor complexes were purified (approx. 30-fold) from DEAE-cellulose columns by salt elution which allowed receptor activation only in the absence of molybdate. Addition of 10 mM molybdate completely blocked salt activation. The binding pattern of the activated [3H]TA-receptor complexes to chromatin-cellulose extracted with 0-8 M guanidine hydrochloride revealed three regions of increased binding activity (acceptor sites), at 2, 5 and 7 M guanidine hydrochloride. Acceptor site binding was markedly reduced for chromatin extracted with 3, 6 and 8 M guanidine hydrochloride. Non-activated receptor complexes demonstrated very low binding to deproteinized chromatin. It was also shown that chromatin binding required glucocorticoid receptors and that free ligand or ligand bound to other proteins did not bind significantly to chromatin. In addition, binding of [3H]TA-receptor complexes to partially deproteinized chromatin was competable by unlabeled TA-receptor complexes. Scatchard analysis demonstrated that chromatin from non-differentiating BCL1 cells possesses multiple, high-affinity binding sites which differ in their affinity for the glucocorticoid receptor. Partially deproteinized chromatin from lipopolysaccharide-stimulated BCL1 cells demonstrated a different pattern of receptor binding, i.e., receptor binding was significantly greater to chromatin previously extracted with 6-8 M guanidine hydrochloride. These results suggest that differentiation alters the state of chromatin and the interaction of non-histone protein/DNA acceptor sites with glucocorticoid receptors. These alterations may play a role in the acquisition of hormone resistance.
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PMID:Binding of [3H]triamcinolone acetonide-receptor complexes to chromatin from the B-cell leukemia line, BCL1. 387 35

Serum from mice treated with bacterial lipopolysaccharide (LPS) was fractionated by Con A-Sepharose affinity chromatography, and assayed in vitro for colony-stimulating factor (CSF) using mouse bone marrow cells. The CSF failing to bind to concanavalin A-Sepharose (pool A) had similar biological properties to the unfractionated serum, i.e., it stimulated the formation of about equal numbers of granulocytic, mixed granulocyte-macrophage and macrophage colonies. The fraction eluted from the Con A-Sepharose column with alpha-methyl-D-glucopyranoside (pool B) had a steeper dose-response curve than either the unfractionated serum or the pool A CSF and most of the colonies were composed of macrophages. A mixture of the pool A and pool B CSFs stimulated colonies in a similar way as unfractionated serum and poolA. The apparent molecular weights of the two types of CSF were determined by two different gel-filtration procedures. Sephacryl S-200 gel-filtration suggested an apparent molecular weight of 85,000 for pool A CSF and 180,000 for pool B CSF. Gel-filtration on Sepharose CL-6B in the presence of guanidine hydrochloride (6M) yielded an apparent molecular weight of approximately 23,000 for pool A CSF and 33,000 for pool B CSF. The colony-forming cells (CFC) responding to pool B CSF were found to have a relatively high sedimentation velocity (peak sedimentation velocity 5.6--6.2 mm/hr) compared to the CFC responding to mouse-lung conditioned medium (MLCM) whose peak sedimentation velocity was between 4.0--4.5 mm/hour. The CFC responding to pool A CSF had an intermediate sedimentation velocity (peak 4.6--5.2 mm/hour). A time-course analysis of the morphology of clones or colonies in cultures stimulated with either MLCM or pool B CSF showed that the proportion of different colony types depends significantly on the incubation period and suggested that pool tb csf induced an early commitment of CFC towards macrophages differentiation.
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PMID:Serum of lipopolysaccharide-treated mice contains two types of colony-stimulating factor, separable by affinity chromatography. 696 84

Seven days after subcutaneous injection of 2% carrageenin solution in mice, the induced inflammatory tissue was isolated and treated with 0.1% trypsin. When the dispersed cells were incubated in a nutrient medium containing 5-20% calf serum, the cells grew adhering to the culture-dish surface and colony-stimulating factor (CSF) was accumulated in the medium gradually. Addition of lipopolysaccharide (Escherichia coli endotoxin) in the cell culture did not enhance the CSF production. It was shown by isoelectrofocusing that the majority of the produced CSF was an acidic molecule (pI = 3.8), while the treatment of this CSF with neuraminidase yielded a less acidic CSF species (pI = 5.1). Upon gel-filtration chromatography in the presence of 6 M guanidine HCl, the CSF exhibited an apparent molecular weight of 42,000. On the other hand, polyacrylamide gel-electrophoresis in the presence of 0.1% sodium dodecyl sulfate gave a molecular weight estimate of 65,000. Microscopic examination of the bone marrow cell culture showed that about one-third of the colonies were granulocytic. Addition of prostaglandin E1(PGE1) in the bone marrow cell culture significantly inhibited the action of the CSF, while prostaglandin D2 was less inhibitory than PGE1. The result suggests that the cells isolated from the inflammatory tissue are capable of producing CSF, which may have a role for proliferation and maturation of the mononuclear phagocytes at the site of inflammation.
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PMID:A granulocyte-macrophage colony-stimulating factor (GM-CSF) produced by carrageenin-induced inflammatory cells of mice. 697 69

In this study, we examined the influence of lipopolysaccharide (LPS) on aggrecan metabolism and structure in the growth plate. Two experimental approaches were used: (i) in vivo administration of LPS to 10-day-old chicks; and (ii) in vitro addition of LPS to explant culture of normal chick growth plate. Twelve-day-old male broiler chicks were killed 48 hr after intravenous injection of LPS (3 mg/kg) or saline (control), and growth plate from the femur or tibia was cultured or frozen. Tissue for explant culture was (i) cultured for 5 days with daily medium change (glycosaminoglycan release into the medium estimates proteoglycan breakdown rates), or (b) incubated with 35SO4 to determine the rate of proteoglycan synthesis. Proteoglycan structure was determined by associative (0.5 M sodium acetate) and dissociative (4 M guanidine HCl) Sepharose CL2B chromatography. Explant culture of growth plate from LPS-injected chicks (in vivo) showed a decrease (P < 0.05) in the rate of proteoglycan synthesis. There were a greater proportion of small monomers and a reduced ability to aggregate in growth plate from LPS-injected chicks. In vitro addition of LPS (100 micrograms/ml) to explant culture medium reduced proteoglycan synthesis (P < 0.02), and the rate of release was increased (P < 0.001). In addition, the total and newly synthesized proteoglycans released into the medium from LPS-treated explant culture had a reduced aggregation and a majority of monomers that were smaller than control. These results demonstrate that LPS disrupts the normal metabolism and structure of growth plate aggrecan, and we hypothesize that this may adversely influence longitudinal growth.
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PMID:Lipopolysaccharide alters aggrecan metabolism in the growth plate. 875 97

Recent studies in our laboratory demonstrated that fish macrophages produce nitric oxide. To elucidate the mechanisms which regulate nitric oxide production in teleosts, we examined whether macrophage activating factors (MAFs) secreted by mitogen stimulated leukocytes, induced nitric oxide production in a long-term cultured macrophage cell line and in primary cultures of kidney macrophages from the goldfish. The results indicate that both primary and long term cultured goldfish macrophages produce nitric oxide in response to MAF or bacterial lipopolysaccharide (LPS), and co-stimulation with both factors results in a synergistic induction of nitric oxide production. MAF that induced nitric oxide production were present in leukocyte supernatants as early as 24 h after addition of mitogens to cell cultures. The production of MAF was dependent upon the incubation temperature, presence of serum in the culture medium and duration of incubation: maximal MAF activity was detected in 72-96 h supernatants raised in media with serum at 30 degrees C. MAF-induced nitric oxide production by long term cultured macrophages was inhibited by 1000 microM NG-monomethyl-L-arginine or amino-guanidine, indicating an L-arginine-dependent metabolic pathway for the production of the reactive nitrogen intermediates in teleosts. The biochemical events of cytokine induced nitric oxide production by teleost macrophages appear to be similar to those of mammalian macrophages.
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PMID:Macrophage activating factor(s) secreted by mitogen stimulated goldfish kidney leukocytes synergize with bacterial lipopolysaccharide to induce nitric oxide production in teleost macrophages. 877 98


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