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 acyloxyacyl hydrolase (AOAH) is a leukocyte enzyme that hydrolyzes acyloxyacyl bonds in the lipid A region of bacterial lipopolysaccharide (LPS), thereby detoxifying the LPS. We report here that the enzyme also acts in vitro on glycerophospholipids, lysophospholipids, and diacylglycerol. While AOAH preferentially removes palmitate or stearate from the sn-1 position of phospholipid and diacylglycerol substrates that have unsaturated acyl chains in the sn-2 position, it is able to cleave both palmitates from sn-1,2-dipalmitoylphosphatidylcholine and sn-1,2-dipalmitoylglycerol. This apparent preference for removing saturated (or shorter) acyl chains from glycerolipids is consistent with its ability to cleave laurate more rapidly than palmitoleate from lipopolysaccharide (Erwin, A. L., and Munford, R. S. (1990) J. Biol. Chem. 265, 16444-16449). AOAH also catalyzes acyl transfer from LPS and phosphatidylethanolamine to acceptor lipids; approximately equal amounts of laurate and myristate are transferred from LPS to monooleoylglyceryl ether, forming acyloleoylglyceryl ether. The demonstration that AOAH has phospholipase, lysophospholipase, diacylglycerol lipase, and acyltransferase activities in vitro suggests that the enzyme may have roles in addition to LPS deacylation (detoxification) in phagocytic cells.
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PMID:Acyloxyacyl hydrolase, a leukocyte enzyme that deacylates bacterial lipopolysaccharides, has phospholipase, lysophospholipase, diacylglycerollipase, and acyltransferase activities in vitro. 157 81

Acyloxyacyl hydrolase, a lysosomal enzyme that deacylates and thus detoxifies lipopolysaccharide (endotoxin) has been identified in bovine peripheral blood and milk neutrophils. Enzymatic activity increases on a per neutrophil basis during cases of experimental Escherichia coli mastitis. The objective of this study was to quantify acyloxyacyl hydrolase activity from milk neutrophils collected from mammary glands naturally infected with a variety of bacteria. Acyloxyacyl hydrolase activity was detectable in milk neutrophils isolated from cases of both Gram-negative and Gram-positive bacterial infections, with highest activities found in milk neutrophils from glands infected with organisms known to cause the most severe forms of mastitis. In addition, acyloxyacyl hydrolase activity was inhibited to varying degrees in mastitic milk by a nonprotein inhibitory substance. Nonenzymatic deacylation of endotoxin also occurred in mastitic milk, but to a lesser degree than enzymatic deacylation. Nonenzymatic deacylation of endotoxin was not found to occur in clinically normal milk. Severity of coliform mastitis in individual cows may be dependent in part on the interaction of endotoxin with milk neutrophil acyloxyacyl hydrolase activity, inhibition of acyloxyacyl hydrolase activity by an inhibitory substance, and the inherent ability of milk to deacylate endotoxin nonenzymatically.
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PMID:Deacylation of endotoxin during natural cases of bovine mastitis. 186 Sep 71

The molecular cloning and eukaryotic cell expression of the complementary DNA for human neutrophil acyloxyacyl hydrolase (AOAH) are described. AOAH is a leukocyte enzyme that selectively removes the secondary (acyloxyacyl-linked) fatty acyl chains from the lipid A region of bacterial lipopolysaccharides (endotoxins), thereby detoxifying the molecules. The two disulfide-linked subunits of the enzyme are encoded by a single mRNA. The amino acid sequence of the protein contains a lipase consensus sequence in the large subunit and a region in the small subunit that is similar to the saposins, cofactors for sphingolipid hydrolases. The recombinant enzyme, like native AOAH, hydrolyzes secondary acyl chains from more than one position on the lipopolysaccharide backbone. Acyloxyacyl hydrolase is a novel two-component lipase that, by deacylating lipopolysaccharides, may modulate host inflammatory responses to Gram-negative bacterial invasion.
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PMID:Expression and characterization of recombinant human acyloxyacyl hydrolase, a leukocyte enzyme that deacylates bacterial lipopolysaccharides. 188 28

Tumor necrosis factor (TNF) released by lipopolysaccharide (LPS)-stimulated mononuclear phagocytes is a critical mediator of sepsis. We examined the capacities of rough mutant Salmonella typhimurium LPS (Rc) and LPS partial structures lipid A, monophosphoryl lipid A (MPLA), lipid IVA, and lipid X to induce production of TNF in whole blood. Rc LPS (0.0001-10 ng/ml) produced a dose-dependent release of TNF as determined by cytotoxicity of actinomycin D-sensitized L929 murine fibroblasts. Lipid A, MPLA, lipid IVA, and lipid X exhibited decreasing capacities to stimulate production of TNF in whole blood, respectively. Fractional deacylation of LPS by incubation with acyloxyacyl hydrolase isolated from human leukocytes produced a reduction in the capacity of LPS to induce TNF release in whole blood. Maximal enzymatic deacylation reduced activity of LPS by greater than 100-fold. Coincubation with lipid IVA inhibited TNF release induced by Rc LPS or lipid A, but not by phorbol ester. In contrast, MPLA, lipid X, and deacylated LPS failed to inhibit LPS-stimulated release of TNF. Corresponding to the inhibition of the release of TNF protein, lipid IVA also inhibited the accumulation of TNF mRNA in LPS-stimulated mononuclear cells. These results suggest that lipid IVA may act as a competitive antagonist of LPS, perhaps at the receptor level.
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PMID:Lipid IVA inhibits synthesis and release of tumor necrosis factor induced by lipopolysaccharide in human whole blood ex vivo. 219 1

The factors responsible for blood-brain barrier (BBB) injury during bacterial meningitis are incompletely defined. We evaluated the role of Haemophilus influenzae type b (Hib) lipopolysaccharide (LPS) in the alteration of blood-brain barrier permeability (BBBP) in an adult, normal and leukopenic, rat model of meningitis. Intracisternal inoculation of Hib LPS resulted in (a) dose-dependent increases in BBBP from 2 pg to 20 ng, with significant attenuation in the peak response after challenge with 500 ng and 1 microgram; (b) time-dependent increases in BBBP, with a delayed onset of at least 2 h, maximum alteration at 4 h, and complete reversal at 18 h; (c) greater BBBP than after challenge with the live parent strain; (d) and a close correlation (r = 0.86) between CSF pleocytosis and BBBP at 4 h. The LPS effect was significantly inhibited by preincubation with Polymyxin B and neutrophil acyloxyacyl hydrolase, however two different oligosaccharide-specific monoclonal antibodies did not inhibit activity. No change in BBBP after inoculation with Hib LPS occurred in leukopenic rats. Hib LPS, in the setting of an intact leukocyte response, exerts profound effects on BBBP.
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PMID:Haemophilus influenzae lipopolysaccharide-induced blood brain barrier permeability during experimental meningitis in the rat. 326 27

Like other tetraacyl partial structures of lipopolysaccharide (LPS) and lipid A, LPS that has been partially deacylated by acyloxyacyl hydrolase can inhibit LPS-induced responses in human cells. To identify the site(s) of inhibition in the LPS recognition pathway, we analyzed the apparent binding affinities and interactions of 3H-labeled enzymatically deacylated LPS (dLPS) and [3H]LPS with CD14, the LPS receptor, on THP-1 cells. Using (i) incubation conditions that prevented ligand internalization and (ii) defined concentrations of LPS binding protein (LBP), which facilitates LPS and dLPS binding to CD14, we found that dLPS can antagonize LPS in at least three ways. 1) When the concentration of LBP in the medium was suboptimal for promoting LPS-CD14 binding, low concentrations of dLPS were able to compete with LPS for binding CD14, suggesting competition between LPS and dLPS for engaging LBP. 2) When LBP was present in excess, dLPS could compete with LPS for binding CD14, but only at dLPS concentrations that were at or above its KD for binding CD14 (100 ng/ml). 3) In contrast, substoichiometric concentrations of dLPS (1 ng/ml) inhibited LPS-induced (3 ng/ml) interleukin-8 release without blocking LPS binding to CD14. Functional antagonism was possible without competition for cell-surface binding because both LPS-induced interleukin-8 release and dLPS inhibition occurred at concentrations that were far below their respective CD14 binding KD values. In addition to its expected ability to compete with LPS for binding LBP and CD14, dLPS thus potently antagonizes LPS at an undiscovered site that is distal to LPS-CD14 binding in the LPS recognition pathway.
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PMID:Enzymatically deacylated lipopolysaccharide (LPS) can antagonize LPS at multiple sites in the LPS recognition pathway. 753 70

Acyloxyacyl hydrolase, a leukocyte enzyme that acts on bacterial lipopolysaccharides (LPSs) and many glycerolipids, is synthesized as a precursor polypeptide that undergoes internal disulfide linkage before being proteolytically processed into two subunits. The larger subunit contains an amino acid sequence (Gly-X-Ser-X-Gly) that is found at the active sites of many lipases, while the smaller subunit has amino acid sequence similarity to saposins (sphingolipid activator proteins), cofactors for sphingolipid glycohydrolases. We show here that both acyloxyacyl hydrolase subunits are required for catalytic activity toward LPS and glycerophosphatidylcholine. In addition, mutations that truncate or delete the small subunit have profound effects on the intracellular localization, proteolytic processing, and stability of the enzyme in baby hamster kidney cells. Remarkably, proteolytic cleavage of the precursor protein increases the activity of the enzyme toward LPS by 10-20-fold without altering its activity toward glycerophosphatidylcholine. Proper orientation of the two subunits thus seems very important for the substrate specificity of this unusual enzyme.
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PMID:A saposin-like domain influences the intracellular localization, stability, and catalytic activity of human acyloxyacyl hydrolase. 808 45

The structural determinants of lipopolysaccharide required for the induction of tissue factor in human umbilical vein endothelial cells were studied. Intact lipid A was essential for the induction of tissue factor whereas the incomplete lipid A precursors lipid IVA and lipid X, as well as monophosphoryl lipid A and acyloxyacyl hydrolase-treated lipopolysaccharide, were unable to induce tissue factor and tissue factor specific mRNA. However, the lipid A precursor, lipid IVA, was able to inhibit LPS-mediated induction of tissue factor; structural determinants distal to lipid A were found to be required for maximal induction of tissue factor activity and tissue factor mRNA. The presence of serum in the assay was found to amplify but was not obligate for tissue factor induction by LPS.
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PMID:Induction of endothelial tissue factor by endotoxin and its precursors. 811

Inositol acylation is an obligatory step in glycosylphosphatidylinositol (GPI) biosynthesis whereas mature GPI anchors often lack this modification. The GPI anchors of Trypanosoma brucei variant surface glycoproteins (VSGs) undergo rounds of inositol acylation and deacylation during GPI biosynthesis and the deacylation reactions are inhibited by diisopropylfluorophosphate (DFP). Inositol deacylase was affinity labelled with [3H]DFP and purified. Peptide sequencing was used to clone GPIdeAc, which encodes a protein with significant sequence and hydropathy similarity to mammalian acyloxyacyl hydrolase, an enzyme that removes fatty acids from bacterial lipopolysaccharide. Both contain a signal sequence followed by a saposin domain and a GDSL-lipase domain. GPIdeAc(-/-) trypanosomes were viable in vitro and in animals. Affinity-purified HA-tagged GPIdeAc was shown to have inositol deacylase activity. However, total inositol deacylase activity was only reduced in GPIdeAc(-/-) trypanosomes and the VSG GPI anchor was indistinguishable from wild type. These results suggest that there is redundancy in T.brucei inositol deacylase activity and that there is another enzyme whose sequence is not recognizably related to GPIdeAc.
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PMID:Purification, cloning and characterization of a GPI inositol deacylase from Trypanosoma brucei. 1153 56

T cell-independent type 1 agonists such as Gram-negative bacterial lipopolysaccharides can stimulate B lymphocytes to proliferate and produce antibodies by signaling through Toll-like receptors. This phenomenon is well established in vitro, yet polyclonal B cell responses after bacterial infection in vivo are often weak and short-lived. We show here that B cell proliferation and polyclonal antibody production in response to Gram-negative bacterial infection are modulated by acyloxyacyl hydrolase, a host enzyme that deacylates bacterial lipopolysaccharides. Deacylation of lipopolysaccharide occurred over several days, allowing lipopolysaccharide to act as an innate immune stimulant yet limiting the eventual amount of B cell proliferation and polyclonal antibody production. Control of lipopolysaccharide activation by acyloxyacyl hydrolase indicates that mammals can regulate immune responses to bacterial infection by chemical modification of a Toll-like receptor agonist.
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PMID:Lipopolysaccharide deacylation by an endogenous lipase controls innate antibody responses to Gram-negative bacteria. 1615 73


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