UMLS:C0027960 - FACTA Search

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21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transition temperature of dipalmitoylglycerophosphocholine in multi-lamellar aqueous suspensions, as observed by high-sensitivity differential scanning calorimetry, is raised from 41.4 to 61.5 degrees C by addition of palmitic acid at a mole fraction of 0.67. It appears that the fatty acid chains pack in the hexagonal lattice with the lipid chains in a one-to one ratio, thereby eliminating the destabilizing crowding of the phosphatidylcholine head groups. A similar effect on dilauroylglycerophosphocholine is produced by lauric acid. The stabilizing effect is not produced in full measure by acids of different chain lengths, nor by alcohols or saturated hydrocarbons of the same chain length.
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PMID:Incorporation of saturated fatty acids into phosphatidylcholine bilayers. 85 86

The inhibition of dansylsarcosine (DS) binding at the benzodiazepine binding site of human serum albumin has been studied in the presence of saturated and unsaturated free fatty acids (FFA) of various chain lengths (C6-C20, C18:1, C18:2). In order to determine the mechanism of displacement, velocity constants for association (k2) and dissociation (k-2) and binding constants (KA and KA') have been measured using the stopped-flow method. The inhibitory effect of FFA on DS binding kinetics at site II is dependent of their structure. With increasing amounts of FFA the association velocity constant of DS binding decreases from 520 s-1 (fatty acid free albumin) by a factor of 3-10 and affinity decreases according to FFA chain length. Inhibition is strongest in the presence of caprylic, capric and lauric acid (C8-C12) i.e. with more than one mole FFA per mole albumin, DS association could no longer be measured. Short chain caproic and the long chain FFA C14-C20 showed only a less inhibitory effect since in the presence of a twofold excess k2 ranged between 100 and 200 s-1. Dissociation velocity of DS from the benzodiazepine binding site could be measured in relationship to FFA chain length using ibuprofene, another drug binding at site II. Dissociation velocity constants k-2 remained constant up to 2 moles FFA per mole albumin (k-2 = 16-18 s-1). A rise in k-2 to 70 s(-1) was seen, however, when 2-4 moles capric, lauric, myristic and palmitic (C10-C16) acid were bound, whereas no change was observed when increasing concentrations of caproic, caprylic, stearic and arachic acid.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetics of drug binding to human serum albumin: allosteric and competitive inhibition at the benzodiazepine binding site by free fatty acids of various chain lengths. 247 Oct 88

Cytochrome P-450LA omega purified from clofibrate-induced rat liver oxidizes lauric acid to 11- and 12-hydroxydodecanoic acid in approximately a 1:17 ratio at a rate of 20 nmol/nmol P-450/min. In contrast, cytochrome P-450b oxidizes lauric acid much more slowly (0.5 nmol/nmol P-450/min) to an 8:1 mixture of the same metabolites. Western blot analysis indicates that P-450LA omega accounts for 1-2 and 16-30%, respectively, of the total cytochrome P-450 in uninduced and clofibrate-induced rat liver. Cytochrome b5 increases the efficiency of omega-hydroxylation but not the rate of catalytic turnover. Incubation of the enzyme with 10-undecynoic acid (10-UDYA) results in loss of approximately 45% of the enzymatic activity but none of the enzyme chromophore. Approximately 1 mol of 1,11-undecandioic acid is produced per mole of inactivated enzyme. This extraordinary inactivation efficiency is confirmed by NADPH consumption studies. Approximately 0.5 equivalents of label are covalently bound to the enzyme when it is incubated with 14C-labeled 10-UDYA. 11-Dodecenoic acid appears not to be a substrate for cytochrome P-450LA omega but is oxidized, presumably by a contaminating isozyme, to a 10:1 mixture of 11,12-epoxydodecanoic acid and 12-oxododecanoic acid. The results suggest the presence of two closely related P-450LA omega enzymes, only one of which is susceptible to inactivation by 10-UDYA. They also indicate that cytochrome P-450LA omega has a highly structured active site that sterically suppresses omega-1-hydroxylation in order to deliver the oxygen to the thermodynamically disfavored terminal carbon. Protein rather than heme alkylation follows from this reaction regiospecificity.
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PMID:The catalytic site of rat hepatic lauric acid omega-hydroxylase. Protein versus prosthetic heme alkylation in the omega-hydroxylation of acetylenic fatty acids. 319 93

Binding of free fatty acid (FFA) to human serum albumin (HSA) was studied by 1H-NMR spectroscopy. Addition of FFA to defatted HSA at a mole ratio (FFA/HSA) up to 4 caused a small change in the NMR spectrum of HSA. The integrated intensity of sharp signals of the histidine C2 proton region of HSA decreased as the mole ratio was increased from 0 to 4 for both medium chain (lauric acid) and long chain (palmitic acid, stearic acid, and oleic acid) FFA's. By contrast, when the mole ratio was increased above 4, several histidine C2 proton signals coalesced and sharpened. Therefore, the HSA molecule appears to have a different conformation on binding with more than 4 FFA molecules, which allows increased local motions of HSA. By analyzing the NMR difference spectra of HSA with various amounts of FFA, the conformational change of HSA was investigated in more detail. The difference spectrum between [HSA + 2FFA] and [HSA + FFA] was almost the same as the difference spectrum between [HSA + FFA] and [HSA], which suggests that one primary site binds a pair of FFA molecules. These results are consistent with those of a spectroscopic study with polyene fatty acids (Berde, C.B., et al. (1979) J. Biol. Chem. 254, 391-400). The existence of a bimolecular complex of FFA molecules in aqueous solution may facilitate this type of binding. Similarly, it was found that the third and fourth FFA molecules were bound to a secondary site on HSA, because the difference spectrum between [HSA + 4FFA] and [HSA + 3FFA] was nearly equal to the difference spectrum between [HSA + 3FFA] and [HSA + 2FFA]. Further addition of FFA resulted in a drastic spectral change of HSA. The NMR difference spectrum between HSA solutions with perdeuterated FFA and those with undeuterated FFA gave the 1H-NMR spectra of FFA molecules bound to HSA. Titration of FFA revealed that, in the binding to the primary site of HSA, the carboxyl group of FFA is tightly bound to the protein, whereas the methyl group is not so firmly bound. In contrast, in the binding to low affinity sites, the methyl group is bound to HSA as tightly as other portions of the molecule.
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PMID:1H-NMR study on the interactions of human serum albumin with free fatty acid. 357 Nov 85

Groups of five male and five female rats were fed diets containing from 0% to 2.5% di(2-ethylhexyl)terephthalate (DEHT) or 1.2% di(2-ethylhexyl)phthalate (DEHP) for 21 days. Feed consumption and body weight gains were collected and, at study termination, animals were examined for alterations in body weight, differences in serum lipids, changes in the activities of certain enzymes associated with fat metabolism, and proliferation of hepatic peroxisomes. Feed consumption and weight gain were greatly decreased in DEHT-fed animals only at 2.5%. No biologically significant alterations in absolute liver weight occurred with DEHT. Relative liver weights were increased at 2.5% in both sexes and at 1.0% and 1.2% in females. The alterations were due wholly to decreased terminal body weights. Serum triglyceride and cholesterol levels were not found useful in interpreting the effects of DEHT. Cyanide-insensitive palmitoyl CoA oxidation and lauric acid 11- and 12-hydroxylation were increased in animals consuming 2.5%, but no lower levels of DEHT. Induction of hepatic peroxisomes did not occur at 1.2% DEHT. Interpretation of minimal peroxisomal effects with 2.5% DEHT was confounded by reduced feed consumption. Slight decreases in weight gain occurred in males consuming the 1.2% DEHP diet, but differences were minor relative to effects observed at 2.5% DEHT. Results with DEHP contrasted with those obtained with DEHT. Absolute and relative liver weights, activities of enzymes of lipid metabolism, and peroxisome content were all significantly increased at 1.2% DEHP. Reduction of feed intake was implicated in the effects observed at 2.5% DEHT, since the amount of DEHT consumed by 2.5% animals was only 1.4 times as much as by 1.2% animals. A possible explanation for the observed differences between DEHP and DEHT was related to the results of a metabolic fate study on DEHT. Metabolism of DEHT by the rat appears to occur via rapid hydrolysis of both ester linkages to give two moles of 2-ethylhexanol and one mole of terephthalic acid. Although 2-ethylhexanol has been shown to induce peroxisome proliferation, it appears to be less active in this respect than the monoester of DEHP. The relatively smaller amounts of monoester produced during the metabolism of DEHT may explain the differences seen in these experiments.
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PMID:Peroxisome induction studies on di(2-ethylhexyl)terephthalate. 361 70

The solubility and solution behavior of lauric acid (LA) and its 1:1 acid soap (potassium hydrogen dilaurate) were investigated at 32 degrees C over a pH range of 2.5-8.5 and at varying KCl concentrations to examine the self-association of this long-chain carboxylic acid under these conditions. LA's solubility in water exhibited the classical pH dependence of a monocarboxylic acid with no evidence of self-association. In 0.1 M KCl between pH 6.3 and pH 7.3, filtered samples were turbid, suggesting the presence of high molecular weight aggregates (mesophase), which could be removed by ultrafiltration. The apparent LA solubility vs pH profile in ultrafiltered samples was consistent with a solid phase consisting of either the free acid (pH < 6.5) or potassium hydrogen dilaurate (pH > 6.5), again with no evidence of self-association to form low molecular weight species (dimers, etc.). Quasi-elastic light scattering (QLS) studies and mannitol trapping experiments indicated that vesicles were present in samples containing mesophase. The mesophase composition was characterized and a mass-action law for mesophase formation was developed to describe the apparent LA solubility versus pH in the mesophase region in terms of three parameters. The index of cooperativity, theta, indicated that the mesophase consists of approximately 25 molecules of LA with an acid:anion ratio, rho, of 1.7. The standard free energy of mesophase formation per mole of monomer was determined to be -6.3 kcal/mol. The aggregate size determined thermodynamically is several orders of magnitude less than that of the mesophase particle size determined by QLS measurements, suggesting that the LA monomer concentration in equilibrium with mesophase may be governed by a small unit domain of the vesicle. These observations may have a bearing on the thermodynamics of self-assembly of lipid bilayer membranes.
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PMID:Salt and mesophase formation in aqueous suspensions of lauric acid. 827 19

Heparin is clinically administered mainly by intravenous injection because of its highly hydrophilic property. A slightly hydrophobic heparin derivative which can be dissolved in organic solvent can be widely used in polymeric devices for clinical applications. In this study, hydrophobic heparin derivatives were prepared by coupling heparin with deoxycholic acid, cholesterol, lauric acid, and palmitic acid, respectively. The hydrophobicity of these heparin derivatives depended on the feed mole ratio of heparin to hydrophobic agents, and they showed good solubility in the co-solvent of acetone and water, as well as in water alone. Also, these heparin derivatives showed high anticoagulant activity. This approach for preparing hydrophobic heparin is expected to advance the drug delivery system by further extending the applications of heparin to medical devices such as cardiopulmonary bypass circuits, heart lung oxygenators, and kidney dialyzers.
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PMID:Preparation of slightly hydrophobic heparin derivatives which can be used for solvent casting in polymeric formulation. 984 23

The condensation of a primary amine with fatty acids has been studied to determine optimum conditions for selective formation of amide surfactants via enzymatic amidification. Monoacylated ethanolamide and the diacylated amide-ester can be isolated from the reaction mixture, but the monoacylated ester cannot be isolated. The selectivity of the reaction depends on the solubility of the intermediate amide. Continuous precipitation of this product decreases the amount of amide-ester produced. Solubility values of the desired product (amide) are reported for different conditions.In acetonitrile, the ethyl ester of the corresponding fatty acid has been used successfully to avoid formation/precipitation of the ion-pair of the precursor reagents. In this medium, use of the transacylation reaction permits one to accelerate the reaction without producing a significant change in the selectivity toward the intermediate amide. This strategy is not successful in n-hexane where the solubilities of both ethanolamine and its ion-pair with lauric acid are similar.Results obtained for high loadings of substrates have been analyzed. In n-hexane and acetonitrile, the kinetics of the direct acylation reactions are controlled by the limited solubility of the ion pair formed by the two precursor reagents For the transacylation reaction in acetonitrile, at a sustrate loading of 2 mol l(-1,) selective production of as much as 92 mole percent N-acyl ethanolamine was observed in only 1.5 h.
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PMID:Enzymatic synthesis of amide surfactants from ethanolamine. 1126 48

Aeromonas hydrophila CGMCC 0911 isolated from lake water was found to be able to synthesize a polyhydroxyalkanoate (PHA) copolymer (PHBHHx) consisting of 3-hydroxybutyrate (HB) and 4-6 mol% 3-hydroxyhexanoate (HHx). The wild-type bacterium accumulated 49% PHBHHx containing 6 mol% HHx in terms of cell dry weight (CDW) when grown on lauric acid for 48 h. When A. hydrophila CGMCC 0911 expressed the Acyl-CoA dehydrogenase gene ( yafH) of Escherichia coli, the recombinant strain could accumulate 47% PHBHHx, while the HHx content reached 17.4 mol%. The presence of changing glucose concentration in the culture changed the HHx content both in wild type and recombinant A. hydrophila CGMCC 0911. When 5 g l(-1) glucose was added to a culture containing 5 g l(-1) lauric acid as co-substrate, 45% PHBHHx/CDW consisting of 8.8 mol% HHx was produced by wild-type A. hydrophila CGMCC 0911 compared with only 5% in the absence of glucose. When the recombinant A. hydrophila CGMCC 0911 was grown on a mixed substrate containing lauric acid and 8-10 g l(-1) glucose, the HHx content could be further increased to 35.6 mol%. When the glucose concentration exceeded 10 g l(-1), cell growth, PHA content and mole percentages of HHx in PHBHHx were significantly reduced.
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PMID:Production of poly(3-hydroxybutyrate- co-3-hydroxyhexanoate) with flexible 3-hydroxyhexanoate content in Aeromonas hydrophila CGMCC 0911. 1292 Apr 88

Derivatives containing arginine-glycine-aspartic acid (RGD) inhibit fibrinogen binding to activated platelets and promote endothelial and smooth muscle cell attachment. An amphiphilic derivative of RGD that can be dissolved in an organic solvent has potential in the development of non-thrombogenic biomaterials. Such a derivative, LA-GRGD, was synthesised by coupling glycine-arginine-glycine-aspartic acid (GRGD) with lauric acid (LA). Its solubility and antithrombotic, cytotoxic and cell-binding effects were then evaluated in comparison with heparin (which is used clinically) and a fibronectin-engineered protein polymer (FEPP). Thromboelastography (TEG) was used to measure blood clotting time using fresh whole blood from healthy volunteers. Tissue factor (TF) activity was measured using plasma with a standard prothrombin time assay (PT). Cytotoxicity was assessed on human umbilical cord endothelial cells (HUVECs) using an Alamar blue assay. Solubility of the conjugate was assessed in a co-solvent. These techniques were used to study LA-GRGD, using heparin and FEPP as controls. The amphiphilic property of LA-GRGD was dependent on the feed mole ratio of GRGD to LA. LA-GRGD was soluble in acetone:water and water. LA-GRGD inhibited TF by >90% and prolonged TEG-r by 8.2+/-3.3 min (200 microg ml(-1)). Heparin inhibited TF by >90%, but prolonged TEG-r by 97.4+/-1.6 min (1 U ml(-1)); FEPP inhibited TF by >90% (100 microg ml(-1)) and prolonged TEG-r by 73.7+/-8.4 min (10 microg ml(-1)). Heparin had no cytotoxic effect on EC metabolism and viability at the concentrations studied (0.1-100 U ml(-1)). No significant cytotoxic effect was produced by LA-GRGD or FEPP at concentrations ranging from 0.1 microg ml(-1) to 50 microg ml(-1), but, at higher concentrations (100 microg ml(-1) and 200 microg ml(-1)), a detrimental effect was observed. Cell binding studies showed that LA-GRGD bound 29% of ECs compared with FEPP (60%) and heparin (22%). This new approach for synthesising amphiphilic RGD and its analogues has potential as a drug delivery system for the manufacture of new polymer formulations for use in bypass grafts and other tissue-engineered devices.
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PMID:Synthesis and evaluation of amphiphilic RGD derivatives: uses for solvent casting in polymers and tissue engineering applications. 1468 1

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