Novel synthesis of cholesterol analogs: condensation of pregnenolone with dihydropyran or dihydrofuran.

Pregnenolone 3-(2'-tetrahydropyranyl) ether (1) was condensed with 3,4-[2H]dihydropyran to mainly give (20R)-[6'-(3',4'-[2'H]dihydropyranyl)]-pregn-5-ene-3 beta,20-diol 3-(2'-tetrahydropyranyl) ether (20R-3), according to nuclear magnetic resonance (NMR). Cold, dilute HCl in ethanol removed the tetrahydropyranyl group at C-3 and also opened the dihydropyranyl ring at the C-20 position of 20R-3 to give (20R)-27-norcholest-5-en-22-one-3 beta,20,26-triol (20R-5). Analogous results were obtained by condensing pregnenolone 3-acetate with 3,4-[2H]dihydropyran to provide (20R)-[6'-(3',4'-[2'H]dihydropyranyl)]-pregn-5-ene-3 beta,20-diol 3-acetate (20R-4). Acid-catalyzed opening of the dihydropyranyl ring at C-20 in 20R-4 yielded 20R-7, which, on acetylation followed by crystallization, provided (20R)-27-norcholest-5-en-22-one-3 beta,20,26-triol 3,26-diacetate (20R-8), identical to the diacetate made from 20R-5. Varying the reaction sequence beginning with 20(R,S)-4 gave an 84:16 ratio of 20R to 20S in a mixture of 20(R,S)-8, according to NMR analysis. Crystallization of the mixture from methanol provided pure 20R-8. Condensing 2,3-dihydrofuran and 1 for producing (20R)-[5'-(2',3'-dihydrofuranyl)]-pregn-5-ene-3 beta,20-diol 3-(2'-tetrahydropyranyl) ether (6) gave instead (20R)-26,27-bisnorcholest-5-en-22-one-3 beta,20,25-triol 3-(2'-tetrahydropyranyl) ether (20R-9) by partial hydrolysis during workup. Treating 20R-9 briefly with dilute HCl produced (20R)-26,27-bisnorcholest-5-en-22-one-3 beta,20,25-triol (20R-10).(ABSTRACT TRUNCATED AT 250 WORDS)     

Four steroidal alkaloids from the leaves of Buxus sempervirens

Four new steroidal alkaloids, N20-formylbuxaminol E [(20S)-16alpha-hydroxy-20-(formylamino)-3beta-(dimethylamino)-9,10 -seco-buxa-9(11),10(19)-diene] (1), O16-syringylbuxaminol E [(20S)-16alpha-syringoyl-3beta-(dimethylamino)-20-(amino)-9, 10-seco-buxa-9(11),10(19)-diene] (2), N20-acetylbuxamine G [(20S)-20-(acetylamino)-3beta-(methylamino)-9,10-seco-buxa-9(11),1 0(19)-diene] (3) and N20-acetylbuxamine E [(20S)-20-(acetylamino)-3beta-(dimethylamino)-9,10-seco-buxa-9(11) ,10(19)-diene] (4) were isolated from the leaves of Buxus sempervirens. Their structures were determined mainly on the basis of 2D NMR studies.     

Vitrification of in vitro cultured rabbit morulae

In the present work, we attempt to establish an efficient vitrification procedure for 32-cell rabbit embryos obtained in vitro. In experiment 1, both the effect of the composition of the vitrification solutions and the cryoprotectant addition (either in one or two steps) were studied. For one-step addition, straws with embryos in the final vitrification solution (total time 60s) were plunged into liquid nitrogen. For two-step addition, previously embryos were 2 min pre-equilibrated in 0.5 ml of (1:1) PBS plus 20% FCS: vitrification solution without sucrose. Different solutions of cryoprotectants were compared: 25 vol.% ethylene glycol supplemented with 0.25 M sucrose (25EG+S) and 20% ethylene glycol plus 20% dimethyl sulfoxide, alone (20EG+20DMSO-S) or supplemented with 0.25 M sucrose (20EG+20DMSO+S). Six percent (30/487) of the total of 32-cell embryos obtained by in vitro culture in each experimental session was slow-frozen by a classical method as a technical efficiency control. Only 30% slow-frozen embryos reached blastocyst stage. Significant differences in embryo development were detected between the one-step (25EG+S) and two-step (25EG+S) groups and the one-step (20EG-20DMSO+S) and two-step (20EG-20DMSO-S) groups (0-6% versus 36-50%, respectively). Consequently, in the following experiments only these two vitrification procedures were used. In experiment 2, we attempted to substitute the use of PBS by HEPES-buffered Ham's F-10 (h-CM) in all cryoprotective solutions or media. When h-CM was used, a significant reduction in the in vitro embryo development was observed when the HEPES-buffered groups were compared with one-step (20EG-20DMSO+S) group in s-PBS (35-45% versus 73%). In experiment 3, the one-step (20EG+20DMSO+S) and two-step (20EG+20DMSO-S) procedures were assayed using two FCS levels (20 and 40%) in the PBS-based media. Relative to in vitro development, the highest rates were reached with one step (20EG-20DMSO+S), using PBS plus 20% FCS, which was different from two steps (20EG-20DMSO-S), regardless of percentage of FCS in the PBS-based media (81% versus 41-45%; P<0.05). In conclusion, we propose either the one step (20EG-20DMSO+S) or two steps (20EG-20DMSO-S) prepared in PBS plus 20% serum for use in future works.     

20-Hydroxyeicosatetraenoic acid is a potent dilator of mouse basilar artery: role of cyclooxygenase

20-Hydroxyeicosatetraenoic acid (20-HETE), an arachidonic acid (AA) metabolite synthesized by cytochrome P-450 omega-oxidases, is reported to produce vasoconstriction in the cerebral circulation. However, we find that like 14,15-epoxyeicosatrienoic acid (14,15-EET), 20-HETE produces dilation of mouse basilar artery preconstricted with U-46619 in vitro. Indomethacin inhibited the vasodilation produced by 20-HETE but not by 14,15-EET, suggesting a cyclooxygenase (COX)-dependent mechanism. Metabolic studies indicated several mechanisms that may play a role in this process. Mouse brain endothelial cells (MBEC) converted 20-HETE to 20-OH-PGE(2), which was as potent as PGE(2) in dilating the basilar artery. 20-HETE also stimulated AA release and PGE(2) and 6-keto-PGF(1alpha) production in MBEC. Furthermore, the basilar artery converted 20-HETE to 20-COOH-AA, which also produced COX-dependent dilation of the basilar artery. 20-COOH-AA increased AA release and PGE(2) and 6-keto-PGF(1alpha) production by the MBEC, but to a lesser extent than 20-HETE. Whereas the conversion of 20-HETE to 20-OH-PGE(2) and production of endogenous prostaglandins probably are primarily responsible for vasodilation, the production of 20-COOH-AA also may contribute to this process.     

Synthesis of 21-nitrogen substituted pregna-5,17(20)-dienes from pregnenolone

The facile synthesis of six [17(20)Z]- and [17(20)E]-isomeric 3β-hydroxy-pregna-5,17(20)-dien-21-oyl amides and three [17(20)E]-3β-hydroxy-2-[prergna-5,17(20)-dien-20-yl]-oxazolines from pregnenolone is presented. The synthetic scheme consists of transformation of pregnenolone into the known 17α-bromo-21-iodo-3β-acetoxypregn-5-en-20-one followed by reaction with ethanolamine, 2-methyl-2-aminopropanol, and (1-aminocyclohexyl)methanol resulted in mixture of [17(20)E]- and [17(20)Z]-pregna-5,17(20)-dien-21-(2-hydroxy)-oyl amides; separation of [17(20)E]- and [17(20)Z]-isomers; their cyclization into [17(20)E]-oxazolines under action of POCl(3) in pyridine, and removal of acetate protecting groups. Significantly different orientation of nitrogen containing substituents in [17(20)Z]- and [17(20)E]-isomers regarding to steroid backbone enables their configuration to be easily identified by NMR spectroscopy. All synthesized compounds did not exhibit marked toxic effects in three cell lines (MCF-7, Hep G2, and LNCaP). In androgen-sensitive LNCaP cells all testing compounds at concentrations of 50 nM potently stimulated proliferation.     

Metabolism of 20-epimer of 1alpha,25-dihydroxyvitamin D3 by CYP24: species-based difference between humans and rats

The 20-epi form of 1alpha,25-dihydroxyvitamin D(3) (1alpha,25(OH)(2)-20-epi-D(3)) is expected as drugs for leukemia, other cancers or psoriasis, because it shows several-hundred fold enhanced ability to induce cell differentiation and growth inhibition than 1alpha,25-dihydroxyvitamin D(3) while its calcemic activity is only slightly elevated. In this study, we compared the human and rat CYP24-dependent metabolism of 1alpha,25(OH)(2)-20-epi-D(3) by using the Escherichia coli expression system. The HPLC and LC-MS analyses of the metabolites revealed that rat CYP24 converted 1alpha,25(OH)(2)-20-epi-D(3) to 25,26,27-trinor-1alpha(OH)-24(COOH)-20-epi-D(3) through 1alpha,24,25(OH)(3)-20-epi-D(3) and 1alpha,25(OH)(2)-24-oxo-20-epi-D(3). The binding affinity of trinor-1alpha(OH)-24(COOH)-20-epi-D(3) for vitamin D receptor (VDR) was less than 1/4000 of that of 1alpha,25(OH)(2)-20-epi-D(3). These results suggest that rat CYP24 can almost completely inactivate 1alpha,25(OH)(2)-20-epi-D(3). On the other hand, human CYP24 mainly converted 1alpha,25(OH)(2)-20-epi-D(3) to its putative demethylated compound with a hydroxyl group, via 1alpha,24,25(OH)(3)-20-epi-D(3), 1alpha,25(OH)(2)-24-oxo-20-epi-D(3), and 1alpha,23,25(OH)(3)-24-oxo-20-epi-D(3). All of these metabolites showed considerable affinity for vitamin D receptor. These results clearly demonstrate the species-based difference between human and rat on the CYP24-dependent metabolism of 1alpha,25(OH)(2)-20-epi-D(3).     

Cooperative lectin recognition of periodical glycoclusters along DNA duplexes: alternate hybridization and full hybridization

We describe herein the construction of periodically, spatially controlled glycoclusters along DNA duplexes and their cooperative lectin recognition. Site-specifically alpha-mannosylated oligodeoxynucleotide 20-mer (Man-ODN20) was synthesized via the phosphoramidite solid-phase synthesis. Alternate hybridization of the Man-ODN20 with the half-sliding complementary ODN 20-mer (hscODN20) gave an alternately prolonged Man-cluster Man-ODN20/hscODN20. The binding of the Man-cluster to FITC-labeled ConA lectin showed sigmoidal fluorescence dependency on the concentration of Man-ODN, indicating that some mannose residues along the repeating DNA duplex were cooperatively bound to ConA (apparent affinity constant: K(af)=2.4 x 10(4)M(-1) and Hill coefficient: n=3.5). The duplex of Man-ODN20 with full complementary ODN 20-mer (fcODN20) was little bound to ConA. The binding behavior of Man-ODN20/hscODN20 is compared with that of the alternately prolonged Gal-cluster Gal-ODN20/hscODN20 previously reported. Duplexes 20-mer, 40-mer, and 60-mer presenting one, two, and three periodic galactoses were also prepared by full hybridization of 20-mer beta-galactosylated oligodeoxynucleotide (Gal-ODN20) with the periodically repeating full complementary 20-mer, 40-mer, and 60-mer ODNs. RCA(120) lectin was found to little bind the 20-mer and 40-mer duplexes and to bind weakly and non-cooperatively the 60-mer duplex (K(af)=1.1 x 10(4)M(-1)). The cooperative lectin recognition of these glycoclusters in relation with the degree of association (DA) of ODN and the numbers of glycosides along the DNA duplex is discussed.     

Evidence that the tertiary structure of 20(S)-ginsenoside Rg(3) with tight hydrophobic packing near the chiral center is important for Na(+) channel regulation

Ginsenosides are the active ingredients of Panax ginseng. Ginsenoside Rg(3) exists as two stereoisomers of carbon-20: 20-S-protopanaxatriol-3-[O-beta-d-glucopyranosyl (1-->2)-beta-glucopyranoside] (20(S)-Rg(3)) and 20-R-protopanaxatriol-3-[O-beta-d-glucopyranosyl (1-->2)-beta-glucopyranoside] (20(R)-Rg(3)). Recently, we reported that 20(S)-Rg(3) regulates voltage-dependent Ca(2+) channel activity and several types of ligand-gated ion channels, whereas 20(R)-Rg(3) does not have this activity. In this study, we investigated the structure-activity relationship of these two stereoisomers by NMR spectroscopy and by measurement of the current in Xenopus oocytes expressing the mouse cardiac voltage-dependent Na(+) channel (Na(v)1.5). We found that 20(S)-Rg(3) but not 20(R)-Rg(3) inhibited Na(+) channel current in a dose- and voltage-dependent manner. The difference between Rg(3) epimers in voltage-dependent ion channel regulation indicates that the structure of 20(S)-Rg(3) may be geometrically better aligned than that of 20(R)-Rg(3) for interaction with receptor regions in Na(+) channels. The (1)H and (13)C NMR chemical shifts, including all hydroxyl protons of 20(S)-Rg(3) and 20(R)-Rg(3), were completely assigned, and their tertiary structures were determined. 20(S)-Rg(3) has more tight hydrophobic packing near the chiral center than 20(R)-Rg(3). Tertiary structures and activities of 20(S)-Rg(3) and 20(R)-Rg(3) indicate that 20(S)-Rg(3) may have stronger interactions with the receptor region in ion channels than 20(R)-Rg(3). This may result in different stereoselectivity of Rg(3) stereoisomers in the regulation of voltage-dependent Na(+) channel activity. This is the first structural approach to ginsenoside action on ion channel.     

A genetic linkage map of human chromosome 20 composed entirely of microsatellite markers.

Twenty-six (CA)n polymorphic microsatellites were isolated from a flow-sorted chromosome 20 library. To reduce the number of sequencing gels, these microsatellites were genotyped on 15 CEPH families using a procedure derived from the multiplex sequencing technique of G. M. Church and S. Kieffer-Higgins (1988, Science 240:185-188). A primary map with a strongly supported order was constructed with 15 (CA)n markers. Regional localizations for the 11 other microsatellites were obtained with regard to the primary map. The 26 loci span approximately 160 cM. Regional localizations for a set of index markers (D20S4, D20S6, D20S16, and D20S19) and for other markers from the CEPH Public Database (D20S5, D20S15, D20S17, and D20S18) have also been determined. The total map spans a genetic distance of approximately 195 cM extending from the (CA)n marker IP20M7 on 20p to D20S19 on 20q. The density of microsatellite markers is markedly higher in the pericentromeric region, with an average distance of 3 to 4 cM between adjacent markers over a distance of 43 cM. Two-thirds of these randomly isolated microsatellites are clustered in that region between D20S5 and D20S16 representing approximately one-fourth of the linkage map. This might suggest a nonrandom distribution of (CA)n simple sequence repeats on this chromosome.     

Biotransformation of progesterone by suspension cultures of Digitalis purpurea cultured cells

It has been shown that the cultured cells of Digitalis purpruea are capable of transforming progesterone (I) to 5α-pregnane-3,20-dione (II), 5α-pregnan-3β-ol-20-one (III), its glucoside (IV), 5α-pregnane-3β,20α-diol (V), its glucoside (VI), 5α-pregnane-3β,20β-diol (VII), its glucoside (VIII), Δ⁴-pregnen-20α-ol-3-one (IX), its glucoside (X), Δ-pregnen-20β-ol-3-one (XI) and its glucoside (XII). 5α-Pregnan-3β-ol-20-one glucoside (IV), 5α-pregnane-3β,20α-diol glucoside (VI), 5α-pregnane-3β,20β-diol glucoside (VIII), Δ⁴-pregnen-20α-ol-3-one glucoside (X) and Δ⁴-pregnen-20β-ol-3-one glucoside (XII) have been found for the first time as new metabolises by plant tissue cultures. A scheme for the biotransformation of progesterone (I) has been proposed, and the reduction and glucosidation activities distinctly have been observed in these cultured cells.     

Synthesis and GABA(A) receptor activity of 6-oxa-analogs of neurosteroids

The 6-oxasteroids 3alpha-hydroxy-6-oxa-5alpha-pregnan-20-one (3) and 3alpha-hydroxy-6-oxa-5beta-pregnan-20-one (4) were obtained from pregnenolone acetate via the corresponding (5alpha or 5beta) 3beta, 20beta-diacetoxy-6-oxa-pregnane. Both steroids showed ca. 100-fold reduced potency for modulating [(3)H]flunitrazepam, [(3)H]muscimol or [(35)S]TBPS binding to the GABA(A) receptor when compared to their natural carbon analogs 3alpha-hydroxy-5alpha-pregnan-20-one (1) and 3alpha-hydroxy-5beta-pregnan-20-one (2).     

Biotransformation of 20(S)-protopanaxatriol by Mucor spinosus and the cytotoxic structure activity relationships of the transformed products

Biotransformation of 20(S)-protopanaxatriol (1) by the fungus Mucor spinosus AS 3.3450 gave 10 metabolites (2-10), of which 2-5 were previously known. On the basis of NMR and MS analyses, structures 6-10 were established as 12-oxo-23beta-hydroxyl-20(S)-protopanaxatriol (6), 20S,24R-epoxy-dammaran-3beta,6alpha,25-triol-12-one (7), 29-hydroxyl-20(S)-protopanaxatriol (8a), 12-oxo-11beta-hydroxyl-20(S)-protopanaxatriol (8b), 28-hydroxyl-20(S)-protopanaxatriol (9) and 12-oxo-20(S)-protopanaxatriol (10). The biotransformation kinetics of 1 has been investigated and a possible biotransformation pathway proposed. The in vitro cytotoxic activities of metabolites against three human cancer cell lines were determined by the MTT method; compounds 8a, 9 and 10 had more potent inhibitory effects against HL-60 cell line than the substrate.     

First synthesis of 3,16,20-polyoxygenated cholestanes, new cytotoxic steroids from the gorgonian Leptogorgia sarmentosa

Using tigogenin as starting material, (20S)-20-hydroxycholestane-3,6-dione (1), (16S, 20S)-16,20-dihydroxycholestan-3-one (2), (20S)-20-hydroxycholest-1-ene-3,16-dione (3) and (20S)-20-hydroxycholest-4-ene-3,16-dione (4), natural polyoxygenated steroids from the gorgonian, Leptogorgia sarmentosa, were synthesized in four steps. Antitumor activity against three tumor cell lines (breast cancer, MCF7, lung cancer NCI and oral cancer KB) was evaluated. Two compounds (3 and 4) showed strong activity against NCI (IC(50) 6.16 and 10.51 microM) and moderate activity against MCF7 and KB, the IC(50) being in the range 30.65-47.22 microM. Compound 2 showed moderate activity against NCI (IC(50) 42.68 microM) but was inactive against MCF7 and KB whereas compound 1 showed no activity against all tested cells.     

Fatty acid composition of diacyl, alkylacyl, and alkenylacyl phospholipids of control and arachidonate-depleted rat polymorphonuclear leukocytes

Phospholipid fatty acid composition and phospholipid subclass distribution of control and arachidonate-depleted rat polymorphonuclear leukocytes (PMN) were compared. The 20:4-depleted PMN contained significantly higher amounts of 16:1, 18:1 and 20:3 (delta 5,8,11) and lower amounts of 18:2 and 20:4 than the phospholipids from control cells. Choline-containing glycerophospholipids (CGP) were the major phospholipids of both control and 20:4-depleted cells representing 34% and 37% of the total phospholipids, respectively. Significant amounts of ethanolamine-containing glycerophospholipids (EGP) (29% and 30%) and sphingolipids (20% and 18%) were also present in both cell types. Serine-containing glycerophospholipids (SGP) together with inositol-containing glycerophospholipids (IGP) constituted 16% and 13% of the phospholipids in control and 20:4-depleted cells, respectively. CGP from control cells had significantly higher amounts of 16:0 and 18:2 and lower amounts of 18:0 and 20:4 than EGP, whereas CGP from 20:4-depleted cells has higher amounts of 16:0 and 16:1 and lower amounts of 20:3 than EGP. Analysis of the subclass composition of CGP and EGP revealed that both control and 20:4-depleted cells contained significantly large amounts of alkylacyl-GPC and alkenylacyl-GPE. Small amounts of alkylacyl-GPE and alkenylacyl-GPC were also observed. The predominant fatty acyl residues found in the 1,2-diacyl-GPC, alkylacyl-GPC of control cells were 16:0, 18:0, 18:1, 18:2, and 20:4, while those of 20:4-depleted cells were 16:0, 16:1, 18:0, 18:1, and 20:3. More than 60% of CGP-bound 20:4 of control cells and about 70% of the CGP-bound 20:3 of 20:4-depleted cells were found in their alkylacyl species.(ABSTRACT TRUNCATED AT 250 WORDS)     

Syntheses of 19-[O-(carboxymethyl)oxime] haptens of epipregnanolone and pregnanolone

O-(Carboxymethyl)oximes 1 and 2 derived from two epimeric 5beta-pregnanolones (3beta-hydroxy-5beta-pregnan-20-one and 3alpha-hydroxy-5beta-pregnan-20-one) in position 19 were prepared. Two synthetic routes were employed, both using protection of the 20-keto group after reduction into the (20R)-alcohol in the form of acetate. In the first route, (20R)-19-hydroxy-5beta-pregnan-3beta,20-diyl diacetate (3) was transformed into the corresponding 19-[O-(carboxymethyl)oxime] methyl ester 6, then deacetylated by acid and partially silylated with tert-butyldimethylsilyl chloride. The desired 3-O-silylated derivative 8 was separated, oxidized to the 20-ketone and protecting groups were sequentially removed to give the first title hapten 1. The second route started from (20R)-19-hydroxy-3-oxopregn-4-en-20-yl acetate (11), which was hydrogenated in the presence of base to the 5beta-pregnan-3-one derivative 12, protected in position 19 with tert-butyldimethylsilyl group and reduced with borohydride. The prevailing 3alpha-alcohol 15 was separated, protected in position 3 with a methoxymethyl group, deprotected in position 19 and transformed into the 19-[O-(carboxymethyl)oxime] 19. After deacetylation, esterification with diazomethane and oxidation in position 20, the pregnanolone skeleton was regenerated. Final deprotection steps gave the second title hapten 2. Both haptens, i.e., (19E)-3beta- and -3alpha-hydroxy-20-oxo-5beta-pregnan-19-al 19-[O-(carboxymethyl)oxime], were designed for the development of immunoassays of the corresponding parent neuroactive steroids.     

Metabolism of icosa-5,11,14-trienoic acid in human platelets and the inhibition of arachidonic acid metabolism in human platelets by icosa-5,8,14-triynoic and icosa-5,11,14-triynoic acids

Two fatty acids differing from arachidonic acid in lacking one of the internal double bonds (20:35,8,14 and 20:35,11,14) and their 1-C14 and acetylenic analogues were synthesized. 20:35,8,14 was not metabolized by human platelets but 20:35,11,14 yielded a small amount (1.5% conversion) of two hydroxy fatty acids in a three (11-hydroxy-5,12,14-icosatrienoic acid) to one (15-hydroxy-5,11,13-icosatrienoic acid) proportion. Indomethacin inhibited formation of both hydroxy fatty acids indicating that they are produced via cyclooxygenase. Both ethylenic acids were weak inhibitors of cyclooxygenase (substrate 20 microM arachidonic acid) (ID50: 8.8 microM 20:35,8,14; 11.2 microM 20:35,11,14) but were inactive against lipoxygenase (ID50 greater than 100 microM). Similarly, both acetylenic analogues were poor inhibitors of lipoxygenase (ID50: 23.4 microM 20:35,8,14; 47.8 microM 20:35,11,14) but although 20:35,8,14 was inactive against cyclooxygenase (ID50 greater than 100 microM) the 20:35,11,14 was a potent inhibitor (ID50: 0.35 microM). The results are interpreted on the basis that hydrogen removal by the lipoxygenase is from C10 and by the cyclooxygenase from C13 but only in 20:35,11,14 are these hydrogens (C13) located at the center of a 1,4 cis cis pentadiene system (ethylenic) or a 1,4 pentadiyne system (acetylenic).     

Studies of the synthesis of biomarkers. X. Synthesis of 13,17-secodiacholestanes.

13,17-Secodiacholestanes (6) were synthesized from cholesterol (1) in six steps. The key intermediates, (20R)- and (20S)-diacholest-13(17)-enes (3a and 3b), underwent ozonization and reduction to provide (20R)- and (20S)-13,17-secodiacholesta-13,17-dione (5a and 5b), respectively. On Clemmensen reduction, the diones (5a and 5b) yielded the target molecule 6. The structure of an unknown biomarker was shown to be different from the proposed 6 by gas chromatographic/mass spectrometric comparison.     

Different metabolic behavior of long-chain n-3 polyunsaturated fatty acids in human platelets

Whereas numerous studies deal with the effects and metabolism of eicosapentaenoic acid (20:5(n - 3)) in platelets, very few concern docosahexaenoic acid (22:6(n - 3)), although both acids are consumed in equal amounts from most fish fat. The present paper reports the modulation of 22:6(n - 3) oxygenation as well as that of endogenous arachidonic acid (20:4(n - 6)) in 22:6(n - 3)-rich platelets. Like the oxygenation of 20:5(n - 3), the lipoxygenation of 22:6(n - 3) occurred at a low level when incubated alone, but was markedly increased in the presence of 20:4(n - 6), suggesting a similar peroxide tone dependency. 20:5(n - 3) could not replace 20:4(n - 6) in the increasing 22:6(n - 3) lipoxygenation, whereas 22:6(n - 3) shared the potentiating effect of 20:4(n - 6) on both the cyclooxygenation and the lipoxygenation of 20:5(n - 3). On the other hand, 20:5(n - 3), 22:6(n - 3) or 20:5(n - 3) + 22:6(n - 3) enrichment of platelet phospholipids inhibited the formation of cyclooxygenase but not lipoxygenase products from endogenous 20:4(n - 6) in thrombin-stimulated platelets. In doing so, 22:6(n - 3) appeared even more potent than 20:5(n - 3), although it was not liberated after acylation in phospholipids, the opposite of what was observed with 20:5(n - 3). Therefore, it seems that, in contrast to 20:5(n - 3), which may compete with endogenous 20:4(n - 6) at the cyclooxygenase level, 22:6(n - 3) would affect the latter enzyme activity in a different way. We conclude that 20:5(n - 3) and 22:6(n - 3) behave differently and might act synergistically on the inhibition of platelet functions after fish fat intake.     

Acylated protopanaxadiol-type ginsenosides from the root of Panax ginseng

Six new protopanaxadiol-type ginsenosides, named ginsenosides Ra(4) -Ra(9) (1-6, resp.), along with 14 known dammarane-type triterpene saponins, were isolated from the root of Panax ginseng, one of the most important Chinese medicinal herbs. The structures of the new compounds were determined by spectroscopic methods, including 1D- and 2D-NMR, HR-MS, and chemical transformation as (20S)- 3-O-{β-D-6-O-[(E)-but-2-enoyl]glucopyranosyl-(1→2)-β-D-glucopyranosyl}-20-O-[β-D-xylopyranosyl-(1→4)-α-L-arabinopyranosyl-(1→6)-β-D-glucopyranosyl]protopanaxadiol (1), (20S)-3-O-[β-D-6-O-acetylglucopyranosyl-(1→2)-β-D-glucopyranosyl]-20-O-[β-D-xylopyranosyl-(1→4)-α-L-arabinopyranosyl-(1→6)-β-D-glucopyranosyl]protopanaxadiol (2), (20S)-3-O-{β-D-6-O-[(E)-but-2-enoyl]glucopyranosyl-(1→2)-β-D-glucopyranosyl}-20-O-[β-D-glucopyranosyl-(1→6)-β-D-glucopyranosyl]protopanaxadiol (3), (20S)-3-O-{β-D-6-O-[(E)-but-2-enoyl]glucopyranosyl-(1→2)-β-D-glucopyranosyl}-20-O-[α-L-arabinopyranosyl-(1→6)-β-D-glucopyranosyl]protopanaxadiol (4), (20S)-3-O-{β-D-4-O-[(E)-but-2-enoyl]glucopyranosyl-(1→2)-β-D-glucopyranosyl}-20-O-[α-L-arabinofuranosyl-(1→6)-β-D-glucopyranosyl]protopanaxadiol (5), (20S)-3-O-{β-D-6-O-[(E)-but-2-enoyl]glucopyranosyl-(1→2)-β-D-glucopyranosyl}-20-O-[α-L-arabinofuranosyl-(1→6)-β-D-glucopyranosyl]protopanaxadiol (6). The sugar moiety at C(3) of the aglycone of each new ginsenoside is butenoylated or acetylated.