Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study was undertaken to isolate and identify various lipids bound to 14C label during hepatic microsomal metabolism of 14CCl4 in vitro under anaerobic conditions and in vivo in rats. The two major radioactive fractions identified by thin-layer chromatography each for neutral lipids and phospholipids from in vitro and in vivo experiments corresponded to fatty acids and triglycerides and to phosphatidylcholine (PC) and phosphatidylethanolamine (PE), respectively. Approximately 89% of the radioactivity associated with phospholipids was found in PC and PE fractions. Hydrolysis of PC and PE with phospholipase A2 (EC 3.1.1.4) released about 50% of the total radioactivity as lipid moieties corresponding to fatty acids. The radioactive neutral lipids and the lipid moieties hydrolyzed from PC and PE were methylated with boron trifluoride in methanol. These methylated lipids were separated by reversed-phase high-performance liquid chromatography (HPLC), and the elution profiles of 14C label found for the lipids obtained from in vitro experiments were similar to those from in vivo. The major radioactive fractions eluted immediately after methyl oleate were identified as trichloromethyloctadecenoic and trichloromethyleicosatrienoic acid methyl esters by chemical ionization mass spectrometry. The mass spectral analysis of these fractions also indicated the formation of dichlorocarbene adduct of oleic acid. However, similar mass spectrometric detection of trichloromethylated lipids was not evident in neutral lipids and phospholipids isolated from in vivo studies. The 14C-labeled lipids eluted as a nonpolar fraction exhibited a high molecular weight containing more than three chlorines. Dimerization and cross-linking of trichloromethylated lipids based on HPLC and mass spectral analysis are also discussed in this paper.
Mol Toxicol
PMID:Covalent modification of hepatic microsomal lipids of rats by carbon tetrachloride. 248 57

The treatment of human HL-60 promyelocytic leukemia cells with 12-O-tetradecanoylphorbol-13-acetate (TPA) is associated with induction of tumor necrosis factor (TNF) transcript. The study reported here has examined TPA-induced signaling mechanisms responsible for the regulation of TNF gene expression in these cells. Run-on assays demonstrated that TPA increases TNF mRNA levels by transcriptional activation of this gene. The induction of TNF transcripts by TPA was inhibited by the isoquinolinesulfonamide derivative H7 but not by HA1004, suggesting that this effect of TPA is mediated by activation of protein kinase C. TPA treatment also resulted in increased arachidonic acid release. Moreover, inhibitors of phospholipase A2 blocked both the increase in arachidonic acid release and the induction of TNF transcripts. These findings suggest that TPA induces TNF gene expression through the formation of arachidonic acid metabolites. Although indomethacin had no detectable effect on this induction of TNF transcripts, ketoconazole, an inhibitor of 5-lipoxygenase, blocked TPA-induced increases in TNF mRNA levels. Moreover, TNF mRNA levels were increased by the 5-lipoxygenase metabolite leukotriene B4. In contrast, the cyclooxygenase metabolite prostaglandin E2 inhibited the induction of TNF transcripts by TPA. Taken together, these results suggest that TPA induces TNF gene expression through the arachidonic acid cascade and that the level of TNF transcripts is regulated by metabolites of the pathway, leukotriene B4 and prostaglandin E2.
Mol Cell Biol 1989 Jan
PMID:Role of arachidonic acid metabolism in transcriptional induction of tumor necrosis factor gene expression by phorbol ester. 249 31

The effects of Ca-antagonists on the thrombin-induced mobilization of radiolabeled arachidonate preincorporated into rat platelets as well as the subsequent formation of labeled cyclooxygenase and lipoxygenase products were analyzed in the presence of either Ca2+ or Ca2+-substitutes, Sr2+ and Ba2+. Results indicate that following thrombin stimulation (0.2 U/ml) in the presence of Ca2+, nitrendipine (Nit), Cd2+ or Mn2+ reduced the release of arachidonate and the biosynthesis of thromboxane B2. Inhibition of arachidonic acid release and metabolism were also obtained by both Nit and Cd2+ in the presence of Sr2+ and Ba2+. Results from studies with a semi-purified phospholipase A2 fraction prepared from rat platelets indicated that the activity was almost unaffected by Nit or Cd2+. From these findings, we concluded that inhibition of platelet-induced release and metabolism of arachidonic acid by the Ca-antagonists tested require intact platelets. These data support the hypothesis of an interaction of these agents at an unknown surface membrane level.
Mol Cell Biochem 1989 Feb 21
PMID:Effects of organic and inorganic Ca antagonists on rat platelet arachidonic acid metabolism in the presence of Ca2+, Sr2+ and Ba2+. 249 42

Many neurotransmitters and hormones activate receptors that are known to be coupled to their effectors by GTP-binding regulatory proteins, G proteins. Activation of many of these same receptors elicits arachidonate release and metabolism. During the past few years, novel experimental techniques have revealed that in many cells arachidonate release is independent of generation of other second messengers, including inositol phosphates, diacylglycerols, and elevation in free intracellular calcium. Much evidence has accumulated to implicate phospholipase A2 as the enzyme catalyzing arachidonate release, and suggesting that this effector enzyme, too, is activated by G proteins. In neural tissues as well as epithelium, endothelium, contractile and connective tissues, and blood cells, G proteins coupled to receptors for a variety of peptide and nonpeptide neurotransmitters and hormones have been shown to directly activate phospholipase A2. In retinal rod outer segments, transducin is the coupling G protein, but the G proteins coupling receptor activation to phospholipase A2 in other cell types is less clear. Some are pertussis toxin-sensitive, whereas others are not, and evidence exists that the ras gene product G protein may also be coupled to and regulate phospholipase A2.
Mol Neurobiol 1989
PMID:G protein regulation of phospholipase A2. 251 Jul 70

A question of whether or not casein kinase II (CKII) activity associated with Fc gamma 2aR is involved in the regulation of phagocytic process mediated by this type of Fc gamma R was investigated. Our previous studies showed that the rate of phagocytosis of sheep erythrocytes (SRBC) coated with anti-SRBC antibody (EA) by P388D1 cells varies significantly depending on the isotypes of antibody and that Fc gamma 2aR isolated from the detergent lysate of P388D1 cells is associated with CKII activity, whereas Fc gamma 2bR is not. Fc gamma Rs-mediated phagocytosis is a major function of macrophages by which invading pathogens such as bacteria could be eliminated and therefore warrants the investigation of its biochemical mechanisms. We have recently shown that phagocytosis of EA2b mediated by Fc gamma 2bR of P388D1 cells as well as murine peritoneal macrophages could be up-regulated by promoting the association of various cytoskeletal components with the receptor by inhibiting Fc gamma 2bR-associated phospholipase A2 (PLA2). CKII activity-associated Fc gamma 2aR mediates phagocytosis of EA2a more effectively than PLA2-associated Fc gamma 2bR mediates phagocytosis of EA2b. We have therefore examined a potential role of CKII in Fc gamma 2aR-mediated phagocytosis by the use of a specific inhibitor of CKII activity (heparin). Results showed that heparin inhibited CKII activity associated with Fc gamma 2aR and effectively down-regulated the Fc gamma 2aR-mediated phagocytosis by apparently blocking the association of the receptor with four types of cytoskeletal components (actin-binding protein, myosin heavy chain, alpha tubulin, and actin).(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Cell Immunol 1989
PMID:Regulation of Fc gamma 2a receptor-mediated phagocytosis by a murine macrophage-like cell line, P388D1: involvement of casein kinase II activity associated with Fc gamma 2a receptor. 253 85

Madin-Darby canine kidney cells (MDCK) are known to release free arachidonic acid and arachidonic acid metabolites (AA) in response to tumor-promoting phorbol esters, such as tetradecanoyl phorbol-13-acetate, and to agonists active at alpha 1-adrenergic and bradykinin B2 receptors. These experiments were conducted to define the role of Ca2+/phospholipid-dependent protein kinase (protein kinase C) activation in the stimulation of AA release, in the clonal isolate cell line MDCK-D1, by use of three inhibitors of protein kinase C, sphingosine, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), and staurosporine. We found that alpha 1-adrenergic- and bradykinin-stimulated [3H]AA release can be distinguished by differential dependence on protein kinase C; epinephrine-stimulated release was more dependent on protein kinase C activation than was bradykinin-stimulated release. The inhibition of bradykinin-stimulated AA release by sphingosine (20.2 +/- 6.1%) was substantially less than the inhibition observed for tetradecanoyl phorbol-13-acetate- (67.2 +/- 5.5%) and epinephrine-stimulated release (50.2 +/- 9.2%). These findings were confirmed by results using H-7 and staurosporine. The relative independence of bradykinin-stimulated AA release of protein kinase C was also demonstrated by the inability of phorbol ester-induced down-regulation of protein kinase C to eliminate bradykinin-stimulated AA release. The inhibition of alpha 1-adrenergic receptor-mediated AA release by sphingosine, H-7, and staurosporine was not due to a change in receptor number or affinity. Analysis of the products comprising [3H]AA release indicated that treatment with sphingosine did not change the composition of the released AA (34-48% prostaglandin E2, 17-27% free arachidonic acid, and 25-51% unidentified metabolites). These results indicate that two different types of hormone receptors in the same cell type can promote AA release by mechanisms that differ in their dependence on protein kinase C. The protein kinase C-dependent mechanism may represent protein kinase C-mediated activation of phospholipase A2.
Mol Pharmacol 1989 Aug
PMID:Defining the role of protein kinase C in epinephrine- and bradykinin-stimulated arachidonic acid metabolism in Madin-Darby canine kidney cells. 254 87

Manoalide is a potent antiinflammatory marine natural product and a direct inactivator of venom phospholipase A2 (PLA2; EC 3.1.1.4). Manoalide has been shown to irreversibly inhibit PLA2, with the corresponding modification of a selective number of lysine residues. The mechanism of inactivation has not yet been elucidated and structure-activity relationship studies were, therefore, performed in order to determine the contributions of the various functional groups incorporated in the gamma-hydroxybutenolide, alpha-hydroxydihydropyran, and trimethylcyclohexenyl ring systems to the efficacy (irreversibility) and potency of this series of inhibitors. These studies indicate that 1) the presence of the hemiacetal in the alpha-hydroxydihydropyran ring is required for irreversible binding of manoalide, 2) the gamma-hydroxybutenolide ring is involved in the initial interaction of manoalide with PLA2, and 3) the hydrophobic nature of the trimethylcyclohexenyl ring system allows nonbonded interactions between manoalide and PLA2 that enhance the potency of these analogs. These structure-activity relationship studies suggest that the closed ring form of manoalide is the predominant molecular species that accounts for the selective and potent inhibition of PLA2 by manoalide. Elucidation of the mechanism awaits further detailed physicochemical studies on the structure of the manoalide (analog)-protein adducts in model systems and using PLA2.
Mol Pharmacol 1989 Nov
PMID:Manoalide: structure-activity studies and definition of the pharmacophore for phospholipase A2 inactivation. 258 92

A novel method for analysing molecular dynamics trajectories has been developed, which filters out high frequencies using digital signal processing techniques and facilitates focusing on the low-frequency collective motions of proteins. These motions involve low energy slow motions, which lead to important biological phenomena such as domain closure and allosteric effects in enzymes. The filtering method treats each of the atomic trajectories obtained from the molecular dynamics simulation as a "signal". The trajectories of each of the atoms in the system (or any subset of interest) are Fourier transformed to the frequency domain, a filtering function is applied and then an inverse transformation back to the time domain yields the filtered trajectory. The filtering method has been used to study the dynamics of the enzyme phospholipase A2. In the filtered trajectory, all the high frequency bond and valence angle vibrations were eliminated, leaving only low-frequency motion, mainly fluctuations in torsions and conformational transitions. Analysis of this trajectory revealed interesting motions of the protein, including concerted movements of helices, and changes in shape of the active site cavity. Unlike normal mode analysis, which has been used to study the motion of proteins, this method does not require converged minimizations or diagonalization of a matrix of second derivatives. In addition, anharmonicity, multiple minima and conformational transitions are treated explicitly. Thus, the filtering method avoids most of the approximations implicit in other investigations of the dynamic behaviour of large systems.
J Mol Biol 1989 Dec 05
PMID:Filtering molecular dynamics trajectories to reveal low-frequency collective motions: phospholipase A2. 261 36

Recent studies have implicated accelerated sarcolemmal phospholipid catabolism as a mediator of the lethal sequelae of atherosclerotic heart disease. We have demonstrated that plasmalogens are the predominant phospholipid constituents of canine myocardium and that plasmalogens are hydrolyzed by a novel calcium independent plasmalogen selective phospholipase A2. Since the activities of phospholipases are modulated by the molecular dynamics and interfacial characteristics of their phospholipid substrates, we compared the molecular dynamics of plasmenylcholine and phosphatidylcholine vesicles by electron spin resonance spectroscopy and deuterium magnetic resonance spectroscopy. Plasmenylcholine vesicles have separate and distinct molecular dynamics in comparisons to their phosphatidylcholine counterparts as ascertained by substantial decreases in the angular fluctuations and motional velocities of probes attached to their sn-2 aliphatic constituents. Furthermore, since free radical oxidation of myocardial lipid constituents occurs during myocardial ischemia and reperfusion, we demonstrated that 1O2 mediated oxidation of plasmenylcholine resulted in the generation of several products which have chromatographic characteristics and molecular masses corresponding to 2-acyl lysophosphatide derivatives. Taken together, these studies underscore the biologic significance of the predominance of sarcolemmal plasmalogens present in mammalian myocardium and suggest that their catabolism by plasmalogen selective phospholipases and/or oxidative processes may contribute to the lethal sequelae of myocardial ischemia.
Mol Cell Biochem
PMID:Subcellular distribution, molecular dynamics and catabolism of plasmalogens in myocardium. 267 69

Uteroglobin (UG) or blastokinin is a steroid-dependent low molecular weight secretory protein in the rabbit. This protein has many immunomodulatory properties. Recently, UG has been reported to be a potent phospholipase A2 (E.C. 3.1.1.4) inhibitor and this property may explain, at least in part, the immunomodulatory/antiinflammatory effects of this protein. Although UG has been detected in many reproductive and non-reproductive tissues of the rabbit it has not been reported in the circulation of this animal. Here, we present biochemical and immunochemical evidence for the presence of a low molecular weight circulating protein with progesterone binding and phospholipase A2 inhibitory properties similar to rabbit uterine UG. The major organs which contribute UG-like protein in circulation seem to be the tracheobronchial tree and to a lesser extent the uterus. The concentration of this protein is much higher in the vicinity of these organs as compared to peripheral circulation. Phospholipase A2 (PLA2)-catalyzed reaction is the major pathway of arachidonic acid production from cell membrane phospholipids. Arachidonic acid participates in the stimulation of guanylate cyclase, adenylate cyclase, protein kinase C and release of calcium from intracellular stores. These processes are thought to be involved in cellular signal transduction. Arachidonic acid is also essential for eicosanoid synthesis and many eicosanoids (e.g. prostaglandins, leukotrienes, etc.) are proinflammatory. Thus, the UG-like protein by inhibiting PLA2 may play a vital role in the regulation of cellular signal transduction, control of inflammation and platelet aggregation.
Mol Cell Endocrinol 1989 Apr
PMID:Detection of a uteroglobin-like phospholipase A2 inhibitory protein in the circulation of rabbits. 274 26


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