Experimental study of isolas in nonlinear systems featuring modal interactions

The objective of the present paper is to provide experimental evidence of isolated resonances in the frequency response of nonlinear mechanical systems. More specifically, this work explores the presence of isolas, which are periodic solutions detached from the main frequency response, in the case of a nonlinear set-up consisting of two masses sliding on a horizontal guide. A careful experimental investigation of isolas is carried out using responses to swept-sine and stepped-sine excitations. The experimental findings are validated with advanced numerical simulations combining nonlinear modal analysis and bifurcation monitoring. In particular, the interactions between two nonlinear normal modes are shown to be responsible for the creation of the isolas.

The Position of Rumenic Acid on Triacylglycerols Alters Its Bioavailability in Rats

The metabolic fate of rumenic acid (9cis,11trans-octadecenoic acid) related to its position on the glycerol moiety has not yet been studied. In the present work, synthetic triacylglycerols (TAG) esterified with oleic and rumenic acids were prepared. Rats were force-fed synthetic dioleyl monorumenyl glycerol with (14)C labeled rumenic acid in the internal (sn-2) or in the external position (sn-1 or sn-3). Rats were then placed in metabolic cages for 16 h. At the end of the experiment, the radioactivity in tissues, carcass and expired CO(2) was measured. Rumenic acid that was esterified at the external positions on the TAG was better absorbed and oxidized to a greater extent than when esterified at the internal position. The fatty acid from the 2-TAG form was also better incorporated into the rat carcass. In the liver, rumenic acid appeared mainly in TAG (50%) and to a lesser extent in phospholipids (33%) whatever its dietary form. Moreover, analyses of lipids from Camembert cheese and butter revealed that rumenic acid was located mainly on the sn-1 or sn-3 positions (74%). Taken together, these data suggest that rumenic acid from dairy fat may be well absorbed and used extensively for energy production.

Stereoselective synthesis of (6Z,10E,12Z)-octadeca-6,10,12-trienoic acid, (8Z,12E,14Z)-eicosa-8,12,14-trienoic acid, and their [1-14C]-radiolabeled analogs

To study the metabolic fate of conjugated linoleic acid isomers, we synthesized, in seven steps, from 1-heptyne, (6Z,10E,12Z)-octadeca-6,10,12-trienoic acid, (8Z,12E,14Z)-eicosa-8,12,14-trienoic acid, and their [1-(14)C]-analogs. In the case of (6Z,10E,12Z)-octadecatrienoic acid, a series of palladium-catalyzed cross-coupling reactions between 1-heptyne and (E)-1,2-dichloro-ethene, a coupling reaction with a Grignard reagent and cleavage of the dioxolane gave (E)-dodec-4-en-6-ynal 3. Stereoselective Wittig reaction between aldehyde 3 and triphenyl-[5-(tetrahydro-pyran-2-yloxy)-pentyl]-phosphonium provided a dienyne. Stereocontrolled reduction of the triple bond and replacement of the tetrahydropyranyl group by a bromine gave (5Z,9E,11Z)-1-bromo-heptadeca-5,9,11-triene 10. Formation of the alkenyl lithium derivative and carbonation with CO(2) furnished (6Z,10E,12Z)-octadecatrienoic acid. (8Z,12E,14Z)-eicosa-8,12,14-trienoic acid was obtained by the same route but using triphenyl-[5-(tetrahydro-pyran-2-yloxy)-heptyl]-phosphonium iodide for the Wittig reaction. [1-(14)C]-analogs were obtained from the bromides by carbonation with (14)CO2. In all cases, chemical or radiochemical purities were found to be better than 95% after purification by flash chromatography on silica gel (>99% after additional purification by RP-HPLC). Metabolism studies in animals are in progress.

In vitro desaturation and elongation of rumenic acid by rat liver microsomes

Various nutritional studies on CLA, a mixture of isomers of linoleic acid, have reported the occurrence of conjugated long-chain PUFA after feeding experimental animals with rumenic acid, 9c,11t-18:2, the major CLA isomer, probably as a result of successive desaturation and chain elongation. In the present work, in vitro studies were carried out to obtain information on the conversion of rumenic acid. Experiments were first focused on the in vitro delta6-desaturation of rumenic acid, the regulatory step in the biosynthesis of long-chain n-6 PUFA. The conversion of rumenic acid was compared to that of linoleic acid (9c,12c-18:2). Isolated rat liver microsomes were incubated with radiolabeled 9c,12c-18:2 and 9c,11t-18:2 under desaturation conditions. The data indicated that [1-(14)C]9c,11t-18:2 was a poorer substrate for delta6-desaturase than [1-(14)C]9c,12c-18:2. Next, in vitro elongation of 6c,9c,11t-18:3 and 6c,9c,12c-18:3 (gamma-linolenic acid) was investigated in rat liver microsomes. Under elongation conditions, [1-(14)C]6c,9c,11t-18:3 was 1.5-fold better converted into [3-(14)C]8c,11c,13t-20:3 than [1-(14)C]6c,9c,12c-18:3 into [3-(14)C]8c,11c,14c-20:3. Finally, in vitro delta5-desaturation of 8c,11c,13t-20:3 compared to 8c,11c,14c-20:3 was investigated. The conversion level of [1-(14)C]8c,11c,13t-20:3 into [1-(14)C]5c,8c,11c,13t-20:4 was 10 times lower than that of [1-(14)C]8c,11c,14c-20:3 into [1-(14)C]5c,8c,11c,14c-20:4 at low substrate concentrations and 4 times lower at the saturating substrate level, suggesting that conjugated 20:3 is a poor substrate for the delta5-desaturase.

Synthesis of (6Z,9Z,11E)-octadecatrienoic and (8Z,11Z,13E)-eicosatrienoic acids and their [1-(14)C]-radiolabeled analogs

In order to study the metabolic pathway and the physiological effects of 9c,11t-18:2 (major isomer of conjugated linoleic acid) and its C(18:3) and C(20:3) metabolites, 6c,9c,11t-18:3 and 8c,11c,13t-20:3 and their [1-(14)C]-radiolabeled analogs were prepared stereoselectively by total synthesis. The 8c,11c,13t-20:3 was obtained in 11 steps. The synthesis involves a highly stereoselective Wittig reaction between 3-(t-butyldiphenylsilyloxy)propanal and the ylide of 7-(2-tetrahydropyranyloxy)heptanylphosphonium salt which gave (3Z)-1-(t-butyldiphenylsilyloxy)-10-(2-tetrahydropyranyloxy)dec-3-ene in a first step. Then the t-butyldiphenylsilyl derivative was deprotected selectively and the resulting alcohol function was converted via a bromide into a phosphonium salt. The second stereoselective Wittig condensation between the phosphonium salt and commercial (2E)-non-2-enal under cis-olefinic conditions using Lithium hexamethyldisilazide as base afforded the (7Z,10Z,12E)-1-(2-tetrahydropyranyloxy)nonadeca-7,10,12-triene in a very good isomeric purity. The intermediate product was brominated and transformed by reaction with magnesium into Grignard reagent, which was one-carbon elongated by unlabeled or labeled carbon dioxide to obtain the 8c,11c,13t-20:3 in good isomeric purity (95%) and high radiochemical purity for its [1-(14)C]-radiolabeled analog (99%). 6c,9c,11t-18:3 was synthesized in a similar way by using 5-(2-tetrahydropyranyloxy)pentanylphosphonium salt in place of 7-(2-tetrahydropyranyloxy)heptanylphosphonium salt in a first step. Other reactions were unchanged and products were obtained in similar yields. Similar to 8c,11c,13t-20:3, the 6c,9c,11t-18:3 was obtained in a very good isomeric purity (95%) and its [1-(14)C]-radiolabeled analog in a high radiochemical purity (95%).

Isomerization increases the postprandial oxidation of linoleic acid but not alpha-linolenic acid in men

Human lipid intake contains various amounts of trans fatty acids. Refined vegetable and frying oils, rich in linoleic acid and/or alpha-linolenic acid, are the main dietary sources of trans-18:2 and trans-18:3 fatty acids. The aim of the present study was to compare the oxidation of linoleic acid, alpha-linolenic acid, and their major trans isomers in human volunteers. For that purpose, TG, each containing two molecules of [1-(13)C]linoleic acid, alpha-[1-(13)C]linolenic acid, [1-(13)C]-9cis,12trans-18:2, or [1-(13)C]-9cis,12cis,15trans-18:3, were synthesized. Eight healthy young men ingested labeled TG mixed with 30 g of olive oil. Total CO(2) production and (13)CO(2) excretion were determined over 48 h. The pattern of oxidation was similar for the four fatty acids, with a peak at 8 h and a return to baseline at 24 h. Cumulative oxidation over 8 h of linoleic acid, 9cis,12trans-18:2, alpha-linolenic acid, and 9cis,12cis,15trans-18:3 were, respectively, 14.0 +/- 4.1%, 24.7 +/- 6.7%, 23.6 +/- 3.3%, and 23.4 +/- 3.7% of the oral load, showing that isomerization increases the postprandial oxidation of linoleic acid but not alpha-linolenic acid in men.

Sequential substitution of 1,2-dichloro-ethene: a convenient stereoselective route to (9Z,11E)-, (10E,12Z)- and (10Z,12Z)-

Conjugated linoleic acid (CLA) isomers are present in human foods derived from milk or ruminant meat. To study their metabolism, (9Z,11E)-, (10E,12Z)- and (10Z,12Z)-[1-(14)C]-octadecadienoic acids with high radiochemical and isomeric purities (>98%) were prepared by stereoselective multi-step syntheses involving sequential substitution of 1,2-dichloro-ethene. In the case of the (9Z,11E) isomer, a first metal-catalyzed cross-coupling reaction between (E)-1,2-dichloro-ethene and 2-non-8-ynyloxy-tetrahydro-pyran, obtained from 7-bromo-heptan-1-ol, gave a conjugated chloroenyne. A second coupling reaction with hexylmagnesium bromide provided a heptadecenynyl derivative. Stereoselective reduction of the triple bond and bromination afforded (7E,9Z)-17-bromo-heptadeca-7,9-diene. Formation of the Grignard reagent and carbonation with 14CO(2) gave (9Z,11E)-[1-(14)C]-octadeca-9,11-dienoic acid (overall yield from 7-bromo-heptan-1-ol, 14.4%). (10E,12Z)- and (10Z,12Z)-[1-(14)C]-octadeca-10,12-dienoic acids were synthesized by the same methodology using 1-heptyne, 8-bromo-octan-1-ol and, respectively, (E)-1,2-dichloro-ethene and its (Z) isomer (overall yield from 8-bromo-octan-1-ol, 13.1% (10E,12Z); 17.2% (10Z,12Z)). Impurities (<2% if present) were identified as being (E,E) CLA isomers and were removed by RP-HPLC. Metabolism studies in animal are in progress.

Incorporation and metabolism of trans 20:5 in endothelial cells. Effect on prostacyclin synthesis

To study the ability of long-chain trans fatty acids (FA) to be incorporated and metabolized into endothelial cells, bovine aortic endothelial cells were incubated with medium enriched eicosapentaenoic acid (EPA) bound to albumin (M2) or one of its geometrical isomers: 20:5 5c,8c,11t,14c,17c (M3), 20:5 5c,8c,11c,14c,17t (M4), or 20:5 5c,8c,11t,14c,17t (M5). After 48 h of incubation, supernatant and cells were harvested and their lipids were analyzed, including prostacyclin synthesis. EPA and 22:5n-3 of endothelial cells incubated with M2 were, respectively, three and two times higher than in control cells (incubated in M1, without any fatty acid added), whereas 22:6n-3 increased only in the supernatant, suggesting its release after biosynthesis. However, 18:2n-6 and 22:4n-6 decreased (about 30%). Trans 20:5 isomers represented 4.7, 3.9, and 5.2% of total phospholipid FA in endothelial cells incubated with M3, M4, and M5, respectively. They were elongated into trans 22:5 and trans 24:5, as revealed by gas chromatography-mass spectrometry and gas chromatography-Fourier transform infrared analysis. In cells incubated with M2, M3, M4, and M5, prostacyclin synthesis was inhibited by 49.0, 62.5, 60.5, and 72.0%, respectively. This effect may be due to less available arachidonic acid in the cells and to a competition between EPA isomers and AA at the level of cyclooxygenase pathway, as it was demonstrated that 20:5 delta17t was metabolized by this enzyme.

Large-scale preparation of (9Z,12E)-[1-(13)C]-octadeca-9,12-dienoic acid, (9Z,12Z,15E)-[1-(13)C]-octadeca-9,12,15-trienoic acid and their [1-(13)C] all-cis isomers

Several grams of labelled trans linoleic and linolenic acids with high chemical and isomeric purities (>97%) have been prepared for human metabolism studies. A total of 12.5 g of (9Z, 12E)-[1-(13)C]-octadeca-9,12-dienoic acid and 6.3 g of (9Z,12Z, 15E)-[1-(13)C]-octadeca-9,12,15-trienoic acid were obtained in, respectively, seven steps (7.8% overall yield) and 11 steps (7% overall yield) from 7-bromo-heptan-1-ol. The trans bromo precursors used for the labelling were synthesised by using copper-catalysed couplings. The trans fatty acids were then obtained via the nitrile derivatives. A total of 23.5 g of (9Z,12Z)-[1-(13)C]-octadeca-9, 12-dienoic acid and 10.4 g of (9Z,12Z,15Z)-[1-(13)C]-octadeca-9,12, 15-trienoic acid were prepared in five steps in, respectively, 32 and 18% overall yield. Large quantities of bromo and chloro precursors were synthesised from the commercially available acid according to Barton's procedure. In all cases, the main impurities (>0.5%) of each labelled fatty acid have been characterised.

Production in vitro by the cytochrome P450 CYP94A1 of major C18 cutin monomers and potential messengers in plant-pathogen interactions: enantioselectivity studies

The major C(18) cutin monomers are 18-hydroxy-9,10-epoxystearic and 9,10,18-trihydroxystearic acids. These compounds are also known messengers in plant-pathogen interactions. We have previously shown that their common precursor 9,10-epoxystearic acid was formed by the epoxidation of oleic acid in Vicia sativa microsomes (Pinot, Salaün, Bosch, Lesot, Mioskowski and Durst (1992) Biochem. Biophys. Res. Commun. 184, 183-193). Here we determine the chirality of the epoxide produced as (9R,10S) and (9S,10R) in the ratio 90:10 respectively. We further show that microsomes from yeast expressing the cytochrome P450 CYP94A1 are capable of hydroxylating the methyl terminus of 9,10-epoxystearic and 9,10-dihydroxystearic acids in the presence of NADPH to form the corresponding 18-hydroxy derivatives. The reactions were not catalysed by microsomes from yeast transformed with a void plasmid or in absence of NADPH. After incubation of a synthetic racemic mixture of 9,10-epoxystearic acid with microsomes of yeast expressing CYP94A1, the chirality of the residual epoxide was shifted to 66:34 in favour of the (9S,10R) enantiomer. Both enantiomers were incubated separately and V(max)/K(m) values of 16 and 3.42 ml/min per nmol of P450 for (9R, 10S) and (9S,10R) respectively were determined, demonstrating that CYP94A1 is enantioselective for the (9R,10S) enantiomer, which is preferentially formed in V. sativa microsomes. Compared with the epoxide, the diol 9,10-dihydroxystearic acid was a much poorer substrate for the omega-hydroxylase, with a measured V(max)/K(m) of 0.33 ml/min per nmol of P450. Our results indicate that the activity of CYP94A1 is strongly influenced by the stereochemistry of the 9, 10-epoxide and the nature of substituents on carbons 9 and 10, with V(max)/K(m) values for epoxide>>oleic acid>diol.

Stealth PEGylated polycyanoacrylate nanoparticles for intravenous administration and splenic targeting

The aim of the present work was to investigate the biodistribution characteristics of PEG-coated polycyanoacrylate nanoparticles prepared by the nanoprecipitation/solvent diffusion method using the previously synthesized poly(MePEGcyanoacrylate-hexadecylcyanoacrylate) copolymer. It was observed that [14C]-radiolabeled PEGylated nanoparticles remained for a longer time in the blood circulation after intravenous administration to mice, compared to the non-PEGylated poly(hexadecylcyanoacrylate) (PHDCA) nanoparticles. Furthermore, hepatic accumulation was dramatically reduced, whereas a highly increased spleen uptake was shown. The PEGylation degree of the polymer seemed not to affect the in vivo behavior of the nanoparticles, whereas previously obtained in vitro data have shown a modification of plasma protein adsorption depending on the density of PEG at the surface of the particles. Moreover, the study of the in vitro cytotoxicity of the nanoparticles revealed that the PEGylation of the cyanoacrylate polymer reduced its toxicity. These results open up interesting perspectives for the targeting of drugs to other tissues than the liver.

Dodecylphosphocholine micelles as a membrane-like environment: new results from NMR relaxation and paramagnetic relaxation enhancement analysis

To further examine to what extent a dodecyl-phosphocholine (DPC) micelle mimics a phosphatidylcholine bilayer environment, we performed 13C, 2H, and 31P NMR relaxation measurements. Our data show that the dynamic behavior of DPC phosphocholine groups at low temperature (12 degrees C) corresponds to that of a phosphatidylcholine interface at high temperature (51 degrees C). In the presence of helical peptides, a PMP1 fragment, or an annexin fragment, the DPC local dynamics are not affected whereas the DPC aggregation number is increased to match an appropriate area/volume ratio for accommodating the bound peptides. We also show that quantitative measurements of paramagnetic relaxation enhancements induced by small amounts of spin-labeled phospholipids on peptide proton signals provide a meaningful insight on the location of both PMP1 and annexin fragments in DPC micelles. The paramagnetic contributions to the relaxation were extracted from intra-residue cross-peaks of NOESY spectra for both peptides. The location of each peptide in the micelles was found consistent with the corresponding relaxation data. As illustrated by the study of the PMP1 fragment, paramagnetic relaxation data also allow us to supply the missing medium-range NOEs and therefore to complete a standard conformational analysis of peptides in micelles.

Desaturation and chain elongation of [1-14C]mono-trans isomers of linoleic and alpha-linolenic acids in perfused rat liver

Trans polyunsaturated fatty acids are produced during heat treatment of oils, such as deodorization and frying. The detailed metabolic pathways of these trans isomers are not fully understood. In the present work, the desaturation and chain elongation of [1-14C]linoleic acid, 9cis,12trans -18:2, 9trans,12cis -18:2, alpha-linolenic acid, 9cis, 12cis,15trans -18:3 and 9trans,12cis, 15cis -18:3 were studied using a perfused rat liver model. After perfusion with both trans isomers of 18:2n-6, the 14C was equally distributed between phospholipids and triacylglycerols, compared to the 70:30 distribution (phospholipids:triacylglycerols) observed after infusing linoleic acid. The corresponding distribution of 14C after perfusion with both trans isomers of 18:3n-3 was comparable to what was obtained for alpha-linolenic acid. The products of conversion were analyzed by combination of different radio chromatographic methods. 9cis,12trans -18:2 was 16 times more converted into a C18:3n-6 fatty acid than linoleic acid into gamma-linolenic acid. Trans -18:2 isomers were more elongated into "dead-end products" when compared to the conversion of linoleic acid into 20:2n-6 (from 2- to 5-times more). 9cis,12cis,15trans -18:3 and 9trans,12cis, 15cis-18:3 were 2- and 10-times less converted to trans -20:5, respectively, than alpha-linolenic acid into eicosapentaenoic acid. Moreover, 9cis,12cis,15trans -18:3 and 9trans, 12cis, 15cis -18:3 were equally and 2.5-times more elongated into "dead-end products", respectively, than alpha-linolenic acid into 20:3n-3. The partitioning of the conversion between formation of desaturated and chain elongated products on the one hand and production of "dead-end products" on the other was also calculated. Compared to their cis analogs, 9trans,12cis -18:2 and 9trans,12cis, 15cis -18:3 were elongated into trans "dead-end products" rather than being converted to desaturated and chain elongated trans-metabolites. On the other hand 9cis,12cis,15trans -18:3 was more desaturated and chain elongated into 17trans 20:5 rather than elongated into 17trans -20:3.

Effects of three trans isomers of eicosapentaenoic acid on rat platelet aggregation and arachidonic acid metabolism

Three trans isomers of eicosapentaenoic acid (EPA) were added to rat platelets stimulated with arachidonic acid (AA) in order to compare their effects on platelet aggregation and on AA oxygenation with those of EPA. The production of metabolites from radiolabelled 20:5delta 17trans was studied also. EPA induced an inhibition of platelet aggregation of 26.7 +/- 6.6% for a 20:5/20:4 ratio equal to 1. The 20:5delta 11trans and the 20:5delta 11trans,17trans were twice as antiaggregant. In contrast, the 20:5delta 17trans induced similar antiaggregant effect as its cis homologue. Each fatty acid showed a dose-dependent effect. In opposition to EPA, 20:5delta 17trans was also able to induce platelet aggregation (12 +/- 4.9% at 5 microM). With regards to the metabolism of AA, 20:5delta 11trans, 20:5delta 17trans and 20:5delta 11trans,17trans (20:5/20:4 = 1) reduced the formation of the cyclooxygenase metabolites (-63%, -37% and -68%, respectively) and enhanced that of 12-HETE (+67%, +38% and +74%, respectively) as compared to EPA. The analysis showed that radiolabelled 20:5delta 17trans was metabolized into five compounds which remained to be identified. The Rf of three of these compounds (X1, X2 and X4) were those of the metabolites of EPA. Experiments using baicalein induced an inhibition of the production of X2. This suggested that this compound was formed through the 12-lipoxygenase pathway. In the same way, using indomethacin as inhibitor, we observed that X1 and X4 were produced by the cyclooxygenase pathway. Our results suggest that the trans double bond in the delta 11 position may be responsible of the different physiological effects of the trans polyunsaturated fatty acids as compared to their cis homologue (EPA). Furthermore, 20:5delta 17trans seems to be recognised by the enzymatic system as 20:4 n-6.

Oxidative metabolism of [1-14C] mono-trans isomers of linoleic and alpha-linolenic acids in the rat

Trans polyunsaturated fatty acids are formed during processing of vegetable oils such as deodorization and frying. The oxidative metabolism of linoleic and alpha-linolenic acids and of their mono-trans isomers (9cis,12trans-18:2, 9trans,12cis-18:2 and 9cis, 12cis,15trans-18:3, 9trans,12cis,15cis-18:3, respectively) was studied in fasting rats. A single dose of 18.5 MBq of each [1-14C] labelled fatty acid (260 microg) was orally given to the animals. The 14CO2 expired was monitored during 24 h. Radioactive countings of the CO2-trapping agent were performed at regular intervals up to 24 h after oral administration of the radiolabelled fatty acid. Radioactive countings were also performed on several tissues (liver, heart, brain, kidneys, sus-epidydimal fat, gastrocnemian muscle, gastrointestinal tract and carcass). The 14CO2 production 24 h after oral administration of the fatty acid ranged from 55.5% to 68.7% of the radioactivity administered for the C18:2 isomers and from 69.7% to 73.5% for the C18:3 fatty acids. From 6 to 24 h, 14CO2 recovery was significantly higher after oral administration of 9cis, 12trans-18:2 than after giving both other octadecadienoic isomers. 14C retention per gram of tissue in the liver and in the heart was significantly lower after feeding 9cis,12trans-18:2 than after administration of both other C18:2 isomers. 14C retention per gram of tissue in the muscle was significantly lower after administration of both trans C18:2 isomers compared to linoleic acid. Neither 14CO2 recoveries nor 14C retentions were significantly different after administration of the three octadecatrienoic acids. The difference observed in 14CO2 recovery within the dienes was probably not due to a higher specificity of the enzymes involved in the beta-oxidation sequence for the Delta12trans double bond, as previously reported. Indeed, due to the labelling of the fatty acids on the carboxyl end, 14C values recorded in the CO2-trapping agent were only due to the first cycle of beta-oxidation.

Tentoxin has at least two binding sites on CF1 and epsilon-depleted CF1 ATPases isolated from spinach chloroplast

A new procedure for synthesis of 14C-labeled tentoxin [14C-MePhe[(Z)delta]3-tentoxin], with a high specific activity, is described. Binding experiments with CF1 or CF1-epsilon isolated from spinach chloroplast have been carried out using equilibrium dialysis technique. The results show the presence of two classes of binding sites. The association constants of the two major binding sites were derived from non-linear fitting of the binding curves. At 4 degrees C, the first binding site has a value of Ka1 = 8.2 x 10(5) M(-1) in CF1 and 8.7 x 10(5) M(-1) in CF1-epsilon, while the second binding site has lower affinity with Ka2 = 1.5 x 10(4) M(-1) in CF1 and 2.3 x 10(3) M(-1) in CF1-epsilon.

Effects of a trans isomer of arachidonic acid on rat platelet aggregation and eicosanoid production

The addition of a trans isomer of arachidonic acid (20:4 delta 14trans) to rat platelet suspensions inhibited the aggregation induced by 7.5 microM of arachidonic acid. This inhibitory effect of 20:4 delta 14trans was significant at concentrations of 7.5-22.5 microM and the range of inhibition was 20% at an inhibitor/substrate ratio (I/S) 1 to 66% when I/S reached 3. However, the addition of its structural homolog (20:3n-9) or the natural isomer (20:4n-6) did not induce any modification of the platelet aggregation. In parallel, adding 20:4 delta 14trans to the platelet significantly decreased thromboxane B2 and 12-hydroxyheptadecatrienoic acid production. In contrast, the 12-lipoxygenase pathway was stimulated, as 12-hydroxyeicosatetraenoic acid production increased up to 55% when the I/S reached 3. 20:3n-9, not being a substrate of the cyclooxygenase, did not induce any significant modification in the formation of thromboxane B2 and 12-hydroxyheptadecatrienoic acid. 20:4 delta 14t alone did not induce any platelet aggregation. However, this fatty acid was metabolized to a limited extent into two products that have still to be identified. One of them would be a product of the 12-lipoxygenase pathway.

[Intestinal metastases of bronchopulmonary cancer. Apropos of a case]

Intestinal metastases are relatively frequent in lung cancer (4.7 to 14% in autopsy series) but rarely recognized clinically before severe complications due to hemorrhage or occlusion. We report a new case and review the literature. Digestive tract localizations should always be searched in case of bronchogenic cancer as prognosis is very poor. Mean survival is 4-8 weeks requiring adapted approach to the primary tumor.

Inactivation of gastric and pancreatic lipases by diethyl p-nitrophenyl phosphate

Reacting gastric and pancreatic lipases with mixed diethyl p-nitrophenyl phosphate/bile salt micelles resulted in a stoichiometric inactivation of these enzymes as tested on emulsified tributyroylglycerol and trioleoylglycerol as substrates. Diethyl p-nitrophenyl phosphate treated gastric lipases were also inactive on water-soluble p-nitrophenyl acetate, whereas the modified pancreatic lipase was still able to hydrolyze this water-soluble substrate. The binding of diethyl p-nitrophenyl phosphate modified pancreatic and gastric lipases to tributyroylglycerol/water interface was comparable to that of native lipases. The essential free sulfhydryl group of gastric lipases underwent no chemical changes due to the reaction with micellar diethyl p-nitrophenyl phosphate. All in all, these results indicate that, in both gastric and pancreatic lipases, the essential serine residue which was stoichiometrically labeled by this organophosphorus reagent is involved in catalysis and not in lipid binding.