12(R)-hydroxy-5,8,10,14-eicosatetraenoic acid is a chemoattractant fo human polymorphonuclear leucocytes in vitro

Increased amounts of 12-hydroxy - 5,8,10,14-eicosatetraenoic acid (12-HETE) are found in the lesional skin of patients with the skin disease psoriasis when compared to clinically normal skin. Stereochemical analysis has recently shown that the 12-HETE present in lesional psoriatic scale is the (R), and not the (S) hydroxyl enantiomer, produced by platelets. Since the chemoattractant activity of 12(R)-HETE has not previously been described, the (R) and (S) hydroxyl enantiomers of 12-HETE have now been synthesised and their chemokinetic activity compared in vitro. 12(R)-HETE, was more potent than 12(S)-HETE as a chemokinetic agent for human polymorphonuclear leucocytes but 2000 times less potent than leukotriene B₄. In contrast to results obtained with the 12-HETE enantiomers, the chemoattractant compound 5(S)-HETE was found to be more potent than the 5(R) hydroxyl enantiomer. Thus, the configuration of the hydroxyl group appears to be of importance to the chemokinetic activity of the HETEs, and the increased potency of the 12(R) enantiomer may enhance its significance as a mediator of inflammation in psoriasis.     

A comparison of the proinflammatory effects of 12(R)- and 12(S)-hydroxy-5,8,10,14-eicosatetraenoic acid in human skin

Topical application of racemic 12-hydroxy-5,8,10,14-eicosatetraenoic acid [12(R,S)-HETE] produces erythema and leucocyte accumulation in human skin. Since 12(R)-HETE is more potent than its epimer 12(S)-HETE as a neutrophil chemoattractant in vitro, their proinflammatory effects have now been compared in vivo. 12(R)- and 12(S)-HETE (0.5 - 20 ug/site) were applied topically to the forearm skin of 5 healthy volunteers and the sites occluded for 6 h. Five ug each of the two enantiomers were also applied to the opposite forearm. At 6 and 24 h blood flow and the areas of erythematous responses were measured. The 5 ug application sites were biopsied at 24 h. Both enantiomers caused dose related erythema and increased blood flow at 6 and 24 h, which were not significantly different at either of the time points tested. In contrast, pronounced neutrophil infiltrates were seen in the epidermis (25.2 +/- 13 cells/hpf) and dermis (13.2 +/- 5.1 cells/hpf) 24 h after application of 12(R)-, but not 12(S)-HETE (0.02 +/- 0.02 and 1.02 +/- 0.7 cells/hpf in epidermis and dermis respectively). However, the numbers of dermal mononuclear cells accumulating in response to the two enantiomers were similar. 12(R)-HETE thus appears to be a more potent neutrophil chemoattractant than 12(S)-HETE in human skin in vivo and may be of potential importance as a mediator of inflammation in man.     

Lipid lymphocyte chemoattractants in psoriasis

In view of the evidence that lymphocyte infiltrates are a constant feature of the skin lesions of psoriasis and the demonstration that certain hydroxylated metabolites of arachidonic acid are present in lesional psoriatic skin and possess lymphocyte chemoattractant properties, lipid extracts of samples from lesional and normal skin were assayed to determine which are the predominant lipid lymphocyte chemoattractants in psoriasis. Dilution-related lymphocyte chemoattractant activity was found in lipid extracts of stratum corneum samples from psoriatic lesions, but not in similar extracts the samples from both sources contained equivalent amounts of this activity. Subsequent purification of lesional stratum corneum lipid extracts by straight and reversed phase high performance liquid chromatography (HPLC) revealed the presence of at least two different lipid chemoattractants, one major component being identified as 12-(R)-hydroxy-5,8,10,14-eicosatetraenoic acid (12[R]-HETE) by its biological and chromatographic properties. These compounds may play a role in the pathogenesis of the lymphocyte infiltrates in psoriatic lesions.     

12(S)-hydroxy-5,8,10,14-eicosatetraenoic acid is a more potent neutrophil chemoattractant than the 12(R) epimer in the rat cornea

12(R)-hydroxy-5,8,10,14-eicosatetraenoic acid [12(R)-HETE] is reported to be more potent than its epimer 12(S)-HETE as a chemoattractant for human neutrophils in vitro and following topical application to the skin. To assess the in vivo neutrophil chemoattractant potencies of 12(S)-HETE and 12(R)-HETE in the rat, we injected 1 microgram, 5 micrograms, or 10 micrograms of these eicosanoids into the corneal stroma. Rats were killed 12-15 hours after injection, and the number of neutrophils in the stroma was counted in a histological section of the cornea including the injection site. The number of neutrophils was significantly increased in corneas injected with 5 micrograms (+103% of control) or 10 micrograms (+456% of control) of 12(S)-HETE and in those injected with 10 micrograms of 12(R)-HETE (+111% of control). The neutrophilic infiltrate in corneas injected with 1 microgram or 5 micrograms of 12(S)-HETE was not significantly different from that in corneas injected with 1 microgram of leukotriene B4. The data for the 10 micrograms injections indicate that 12(S)-HETE is a more potent neutrophil chemoattractant than 12(R)-HETE in the rat cornea. Our results suggest that species or tissue specificity may determine the relative potencies of 12-HETE epimers as chemoattractants for neutrophils, and that 12(S)-HETE may be an important inflammatory mediator in the rat cornea.     

12(R)-hydroxyeicosatetraenoic acid is a neutrophil chemoattractant in the cavine, lapine, murine and canine dermis

Psoriasis is a disease state characterized by epidermal proliferation, neutrophil infiltration, along with release of the proinflammatory mediators leukotriene-B4(LTB4) and 12(R)-hydroxyeicosatetraenoic acid [12(R)-HETE]. LTB4 and 12(R)-HETE are chemoattractant to the neutrophil, the latter approximately 1000x less potent. LTB4 and 12(R)-HETE are present in psoriatic scale, the latter in quantities so much greater than LTB4 that it is proposed as a primary mediator of neutrophil infiltration in psoriasis. 12(R)-HETE, synthesized in optically pure form by a new, shorter route, was injected into the dermis of the cavine, lapine, canine, mouse and rat. At doses up to 50 mu gm per intradermal site, 12(R)-HETE was chemoattractant to the neutrophil (as assessed by dermal myeloperoxidase levels) with response in the cavine greater than canine greater than lapine greater than mouse greater than rat.     

SC-41930 inhibits neutrophil infiltration of the cavine dermis induced by 12(R)-hydroxyeicosatetraenoic acid

Psoriasis is a disease state characterized by epidermal proliferation, neutrophil infiltration, along with release of the proinflammatory mediators leukotriene-B4 (LTB4) and 12(R)-hydroxyeicosatetraenoic acid [12(R)-HETE]. LTB4 and 12(R)-HETE are chemoattractant to the neutrophil, the latter approximately 1000X less potent. LTB4 and 12(R)-HETE are present in psoriatic scale, the latter in quantities so much greater than LTB4 that it is proposed as a primary mediator of neutrophil infiltration in psoriasis. 12(R)-HETE, synthesized in optically pure form by a new, shorter route, was injected into the cavine dermis. At a dose of 25 micrograms m per intradermal site, 12(R)-HETE was a significant chemoattractant to the neutrophil (as assessed by dermal myeloperoxidase levels). SC-41930, 7-[3-(4-acetyl-3-methoxy-2-propylphenoxy)-propoxy]- 3,4-dihydro-8-propyl-2H-1-benzopyran-2-carboxylic acid, given intragastrically inhibited 12(R)-HETE-induced neutrophil infiltration of the cavine dermis with an ED50 value of 13.5 mg/kg. Compounds such as SC-41930 may well have utility for treating human psoriasis.     

Stereochemical difference between 12-hydroxy-5,8,10,14-eicosatetraenoic acid in platelets and psoriatic lesions

Stereochemical analysis of 12-hydroxy-5,8,10,14-eicosatetraenoic acid derived from the lesional scale of patients with psoriasis is reported. Resolution of the C-12 hydroxyl enantiomers was carried out by high pressure liquid chromatography of their diastereomeric methyl ester dehydroabietyl urethane derivatives. The 'psoriasis derived" compound was shown to be stereochemically distinct from the platelet 12(S)-enantiomer as its derivative co-chromatographed with the 12(R)-diastereomer.     

Neutrophil chemoattractant and IL-1-like activity in samples from psoriatic skin lesions. Further characterization

The IL-1-like neutrophil chemoattractant activity previously reported by us to be present in the stratum corneum of psoriatic skin lesions has now been characterized further. Aqueous extracts of stratum corneum samples from psoriatic lesions and from the heels of normal volunteers were ultrafiltered to yield 10- to 30-kDa fractions. The ultrafiltered psoriatic preparations consistently contained greater neutrophil chemokinetic activity than the normal heel preparations, but in contrast the latter contained markedly greater IL-1 activity than the former. Successive chromatographic purification of psoriatic lesional stratum corneum extracts showed that the neutrophil chemokinetic material previously reported to co-elute with IL-1 activity on reversed phase HPLC, but to be distinct from C5a des arg, could now be separated by anion exchange HPLC into at least four different chemokinetic compounds that were also resolved from the IL-1 activity. The reversed phase HPLC-purified chemokinetic material from psoriatic stratum corneum was also active in a neutrophil chemotaxis assay. These findings show that samples from psoriatic skin lesions contain a group of novel 10- to 30-kDa neutrophil chemoattractant compounds that are distinct from both C5a des arg and IL-1. The contrasting neutrophil chemokinetic and IL-1 activities in psoriatic lesional and normal heel stratum corneum preparations support the finding that the two activities are produced by different compounds. These neutrophil chemoattractant and IL-1-like compounds may be of pathogenic importance in inflammatory skin disease.     

The identification of hydroxy fatty acids in psoriatic skin

Psoriasis is a common chronic inflammatory and proliferative skin disease characterised by epidermal neutrophil infiltration which may be induced by chemotactic substances in the involved epidermis. Superficial psoriatic scale was shown to contain biologically active amounts of leukotriene B₄ and monohydroxy-eicosatetraenoic acid (HETE)- like material as determined by assay for chemokinetic activity in high performance liquid chromatography (HPLC) fractions of scale extracts. Extracts of scale and chamber fluid from abraded lesional and uninvolved psoriatic skin were purified by HPLC and appropriate fractions were analysed by gas chromatography - mass spectrometry (GC-MS). The following monohydroxy metabolites of arachidonic, linoleic and 11,14-eicosadienoic acids were identified : 15-HETE, 12-HETE, 11-HETE, 9-HETE, 8-HETE, 5-HETE, 13-hydroxy-octadecadienoic acid (13-HODD), 9-HODD and 15-hydroxy-eicosadienoic acid (15-HEDE). The results suggested that 12-HETE, 13-HODD and 9-HODD are the most abundant monohydroxy fatty acids in the psoriatic skin extracts described above. Assays of 13-HODD, 9-HODD and 15-HEDE for chemokinetic activity were negative with concentrations up to 10^?4M. The biological significance of these three compounds in not known, but some of the hydroxylated metabolites of arachidonic acid may, by virtue of their chemotactic properties, be relevant to the pathogenesis of the psoriatic neutrophil infiltrate.     

Proinflammatory properties of unsaturated fatty acids and their monohydroxy metabolites

The proinflammatory effects of unsaturated fatty acids and, where appropriate, their monohydroxy derivatives, have been investigated both by application to human skin and with respect to human polymorphonuclear leukocyte (PMN) migration. Of the fatty acids applied to the skin only eicosapentaenoic and arachidonic acids (EPA; AA) produced consistent, measurable erythema. The monohydroxy derivatives of the two fatty acids also caused erythema, the 12-hydroxy isomers being the most potent. Chemokinetic activity towards PMNs was observed in the presence of AA, EPA and alpha-linolenic acid using an agarose microdroplet chemokinesis assay. In contrast to their in vivo properties, the 5-hydroxy isomers of AA and EPA were the most potent, being approximately 10 times more chemokinetically active than the other isomers. Quantification of the hydroxyeicosatetraenoic and hydroxyeicosapentaenoic acids (HETEs; HEPEs) in the lesional skin of psoriatic patients demonstrated that, of the metabolites measured, 12-HETE was present in the greatest amounts. Twenty five times more 12-HETE than 12- or 15-HEPE was detected, these being the most abundant of the HEPEs formed. The monohydroxy derivatives of AA and EPA may contribute to the inflammatory changes observed in psoriasis. The HETEs appear to be of greater importance than the HEPEs in view of the relative amounts present.     

Proinflammatory properties of unsaturated fatty acids and their monohydroxy metabolites

The proinflammatory effects of unsaturated fatty acids and, where appropriate, their monohydroxy derivatives, have been investigated both by application to human skin and with respect to human polymorphonuclear leukocyte (PMN) migration. Of the fatty acids applied to the skin only eicosapentaenoic and arachidonic acids (EPA;AA) produced consistent, measurable erythema. The monohydroxy derivatives of the two fatty acids also caused erythema. the 12-hydroxy isomers being the most potent. Chemokinetic activity towards PMNs was observed in the presence of AA, EPA and α-linolenic acid using an agarose microdroplet chemokinesis assay. In contrast to their properties, the 5-hydroxy isomers of AA and EPA were the most potent, being approximately 10 times more chemokinetically active than the other isomers. Quantification of the hydroxyeicosatetraenoic and hydroxyeicosapentaenoic acids (HETEs;HEPEs) in the lesional skin of psoriatic patients demonstrated that, of the metabolites measured, 12-HETE was present in the greatest amounts. Twenty five times more 12-HETE than 12- or 15-HEPE was detected, these being the most abundant of teh HEPEs formed. The monohydroxy derivatives of AA and EPA may contribute to the inflammatory changes observed in psoriasis. The HETEs appear to be of greater importance than the HEPEs in view of the relative amounts present.     

Psoriatic skin lesions contain biologically active amounts of an interleukin 1-like compound

The presence of neutrophil chemoattractant material in aqueous extracts of lesional psoriatic scale has been investigated by use of an agarose microdroplet chemokinesis method in combination with ultrafiltration and high-performance liquid chromatography (HPLC). Fractions were also assayed for murine thymocyte co-stimulating activity. Aqueous extracts of psoriatic scale contained significantly greater neutrophil chemokinetic activity than extracts of scale from normal skin. Successive ultrafiltration of extracts showed that the chemokinetic material was 10 to 30 kd. Heat lability and gel filtration HPLC characteristics suggested that the major chemokinetically active material in aqueous extracts of psoriatic scale is different from C5a des arg. Reversed-phase HPLC of 0.1% trifluoroacetic acid/acetonitrile extracts of psoriatic scale revealed two clearly resolved peaks of chemokinetic activity, the major peak consistently containing thymocyte co-stimulating activity. No significant neutrophil chemokinetic activity was seen in fractions after reversed-phase HPLC of scale from normal skin. These findings suggest that a major portion of the neutrophil chemoattractant activity in aqueous extracts of psoriatic scale is due to interleukin 1-like material, which may play a role in the pathogenesis of this disease.     

Differential Metabolism of Hydroxyeicosatetraenoic Acid Isomers by Mouse Cerebromicrovascular Endothelium

Hydroxyeicosatetraenoic acid (HETE) derivatives of arachidonic acid are produced in the brain and have been implicated as pathologic mediators in various types of brain injury. To understand better their fate in the brain, particularly in cerebral microvessels, several HETEs were incubated with cultured mouse cerebromicrovascular endothelium for 1, 2, and 4 h, followed by HPLC analysis of medium and cellular lipids. 5(S)-, 8(RS)-, and 9(RS)-HETE were not metabolized by the cells, but were extensively incorporated, unmodified, into cell lipids. On the other hand, 11(RS)-, 12(S)-, and 15(S)-HETE were extensively metabolized and only minimally incorporated into cell lipids. Previously, the major 12-HETE metabolite was identified as 8-hydroxyhexadecatrienoic acid. In the present study, we identified the major 11-HETE metabolite as 7-hydroxyhexadecatrienoic acid and the major 15-HETE metabolite as 11-hydroxyhexadecatrienoic acid. omega-3 compounds, 15(S)- and 12(S)-hydroxyeicosapentaenoic acids (HEPE), were also metabolized to more polar compounds, but to a lesser extent than their tetraenoic acid, omega-6 counterparts. Comparison of 5-, 12-, and 15-HETE enantiomers revealed no differences in metabolism or incorporation between the R and S stereoisomers. These data suggest that many isomers of HETE and HEPE can be incorporated into cell lipids or metabolized by pathways that do not distinguish between enantiomers. These pathways, however, are sensitive to the position or number of double bonds and are selective based on the position of the hydroxyl group.     

Stereoselective binding and activity of oxotremorine analogs at muscarinic receptors in rat brain.

The activities of the enantiomers of BM-5 were examined to measure muscarinic cholinergic selectivity in the central nervous system. Autoradiographic studies assessed the ability of each enantiomer to inhibit the binding of [3H]-(R)-quinuclidinyl benzilate ([3H]-(R)-QNB) to muscarinic receptors in the rat brain. (+)-(R)-BM-5 inhibited [3H]-(R)-QNB binding to rat brain sections at concentrations below 1.0 microM, while 100-fold higher concentrations of (-)-(S)-BM-5 were required for comparable levels of inhibition. Analysis of the autoradiograms indicated that both stereoisomers had a similar distribution of high affinity binding sites. Each enantiomer displayed higher affinity for muscarinic receptors in the superior colliculi and lower affinity for receptors in the cerebral cortex and hippocampus. (+)-(R)-BM-5 and oxotremorine inhibited adenylyl cyclase activity in the cerebral cortex with efficacies comparable to that for acetylcholine. (+)-(R)-BM-5 was 26-fold more potent than (-)-(S)-BM-5 in inhibiting adenylyl cyclase. Oxotremorine-M and carbamylcholine stimulated phosphoinositide turnover in the cerebral cortex. Oxotremorine had lower activity and (+)-(R)-BM-5 was essentially inactive at comparable concentrations. The difference in activity of the two enantiomers indicates a remarkable stereochemical selectivity for muscarinic receptors. The stereoselectivity index is comparable for both the autoradiographic assays (48) and measures of adenylyl cyclase activity (26) in the cerebral cortex.     

Effects of pure enantiomers of flurbiprofen in comparison to racemic flurbiprofen on eicosanoid release from various rat organs ex vivo.

The effects of oral treatment of rats with pure enantiomers of flurbiprofen in comparison to racemic flurbiprofen on ex vivo release of eicosanoids from gastric mucosa, jejunum, lung, brain and clotting whole blood were investigated. With the S(+) enantiomer and the racemate dose-dependent inhibition of release of cyclooxygenase products of arachidonate metabolism in all tissues tested was observed, while release of leukotriene (LT) C4 was inhibited in gastric mucosa, but not in jejunum and lung. On the other hand, the R(-) enantiomer inhibited cyclooxygenase in the various tissues less potently and to a variable degree with no significant effect in the jejunum. The R(-) enantiomer had no effect on LTC4 release from any of the tissues investigated. Furthermore, the effect of a high dose of 25 mg/kg of the S(+) enantiomer on release of cyclooxygenase products from the various tissues was much longer lasting than that of an identical dose of the R(-) enantiomer. Stereoselective pharmacokinetics of the flurbiprofen enantiomers and/or organ specific cyclooxygenase activities could underly these results. The more potent cyclooxygenase inhibition by the S(+) enantiomer correlates with its higher anti-inflammatory activity and gastrointestinal toxicity. On the other hand, both enantiomers have been shown previously to be almost equally effective analgesics. Inhibition of brain cyclooxygenase might contribute to this effect.     

Stereoselective formation and hydration of 12-methylbenz[a]anthracene 5,6-epoxide enantiomers by rat liver microsomal enzymes.

The K-region trans-5,6-dihydrodiols formed in the metabolism of 12-methylbenz[a]anthracene (12-MBA) by liver microsomal preparations from untreated, phenobarbital-treated and 3-methylcholanthrene-treated male Sprague-Dawley rats were found by chiral stationary-phase h.p.l.c. (c.s.p.-h.p.l.c.) analyses to contain (5S,6S)/(5R,6R) enantiomer ratios of 93:7, 88:12 and 97:3 respectively. The absolute stereochemistry of a 12-MBA trans-5,6-dihydrodiol enantiomer was elucidated by the exciton-chirality c.d. method. The 5,6-epoxides formed in the metabolism of 12-MBA by liver microsomal preparations from untreated, phenobarbital-treated and 3-methylcholanthrene-treated male Sprague-Dawley rats in the presence of the epoxide hydrolase inhibitor 3,3,3-trichloropropylene 1,2-oxide were isolated from a mixture of metabolites by normal-phase h.p.l.c., and their (5S,6R)/(5R,6S) enantiomer ratios were found by c.s.p.-h.p.l.c. analyses to be 73:27, 78:22 and 99:1 respectively. The absolute configurations of 12-MBA 5,6-epoxide enantiomers, resolved by c.s.p.-h.p.l.c., were determined via high-resolution (500 MHz) proton-n.m.r. and c.d. spectral analyses of the two isomeric methoxylation products derived from each of the 12-MBA 5,6-epoxide enantiomers. Enantiomeric pairs of the two methoxylation products were resolved by c.s.p.-h.p.l.c. The results indicate that enantiomeric 5S,6R-epoxide and 5S,6S-dihydrodiol were the major enantiomers preferentially formed in the metabolism at the K-region 5,6-double bond of 12-MBA by all three rat liver microsomal preparations. Optically pure 12-MBA 5S,6R-epoxide was hydrated predominantly at the C(6) position (R centre) to form 12-MBA trans-5,6-dihydrodiol with a (5S,6S)/(5R,6R) enantiomer ratio of 97:3. However, optically pure 12-MBA 5R,6S-epoxide was hydrated nearly equally at both C(5) and C(6) positions to form 12-MBA trans-5,6-dihydrodiol with a (5S,6S)/(5R,6R) enantiomer ratio of 57:43.     

Stereospecificity of leukotriene B4 and structure-function relationships for chemotaxis of human neutrophils

The chemotactic activity of leukotriene B4 (5S, 12R Dihydroxy 6, 14 cis, 8, 10 trans eicosatetraenoic acid) (LTB4) was examined by using a sensitive Boyden-chamber assay. The activity of LTB4 was compared to other biosynthetic stereoisomers: 5S, 12R Dihydroxy 6, 8, 10 trans 14 cis eicosatetraenoic acid (6-trans LTB4); 5S, 12S Dihydroxy 6, 8, 10 trans 14 cis eicosatetraenoic acid (12-epi-6-trans LTB4), 5S, 12S DiHETE; the metabolic product 20-Hydroxy LTB4 (20-OH LTB4); methylated LTB4 (Methyl-LTB4), and the related monoHETE 5-HETE and 12-HETE. The compounds were purified by several steps of reverse phase and straight phase HPLC. The LTB4 exhibits measurable chemotactic activity at 10(-9) M with maximal activity at 10(-7) M and an ED50 of 10(-8) M. The LTB4 isomers and monoHETE were less chemotactic than previously reported. The monoHETE (5-HETE and 12-HETE), the isomer 12-epi-6-trans LTB4, and 5S, 12S DiHETE fail to attract neutrophils at levels between 10(-6) and 10(-5) M. If these compounds are chemotactic, then activity is at least four orders of magnitude less than that of LTB4. The isomer 6-trans LTB4 at 10(-6) to 10(-5) M induced chemotaxis with an extrapolated ED50 value of 10(-5) M, indicating that a trans for cis change in configuration at position 6 reduces the chemotactic activity of LTB4 by 1000-fold. Conversely, the metabolic product 20-OH LTB4 is at least as active as the native compound LTB4. Methylation of the carboxyl group of LTB4 reduces its chemotactic activity by two orders of magnitude. These results indicate a high degree of stereospecificity for the LTB4 receptor with strict dependence on hydroxyl group, and triene configuration and considerable dependence on the carboxyl group. Modification at the aliphatic omega end of the LTB4 molecule has a minimal effect on function, suggesting that the hydrophobicity of this portion of the molecule is not important for optimal activity. Furthermore, we propose that metabolic products of LTB4 may be of greater importance than LTB4 as physiologic inflammatory mediators in vivo.     

Stereoselective carbonyl reductases from rat skin and leukocyte microsomes converting 12-ketoeicosatetraenoic acid to 12(S)-HETE

Cell-free preparations from rat polymorphonuclear leukocytes and skin were found to catalyze the reduction of 12-keto-5,8,10,14-eicosatetraenoic acid (12-KETE) to 12-hydroxyeicosatetraenoic acid (12-HETE). The reductase activity was associated with the microsomal fraction and showed a marked preference for NADH over NADPH as reducing cofactor. Characterization of the reaction product by chiral phase HPLC of the methyl ester derivative indicated that 12-KETE reduction generated almost exclusively 12(S)-HETE. The results demonstrate that rat skin and leukocyte microsomes possess an NADH-dependent 12-KETE reductase activity that forms 12(S)-HETE as a major product. The identification of stereoselective 12-KETE reductases provides a basis for further defining the role these enzymes may play in the regulation of 12-KETE levels and in the protection against degradation of 12-KETE to the pro-inflammatory 12(R)-HETE by selectively generating 12-HETE of the S configuration.     

Stereospecific inhibition of CETP by chiral N,N-disubstituted trifluoro-3-amino-2-propanols

Chiral N,N-disubstituted trifluoro-3-amino-2-propanols represent a recently discovered class of compounds that inhibit the neutral lipid transfer activity of cholesteryl ester transfer protein (CETP). These compounds all contain a single chiral center that is essential for inhibitory activity. (R,S)SC-744, which is composed of a mixture of the two enantiomers, inhibits CETP-mediated transfer of [(3)H]cholesteryl ester ([(3)H]CE) from HDL donor particles to LDL acceptor particles with an IC(50) = 200 nM when assayed using a reconstituted system in buffer and with an IC(50) = 6 microM when assayed in plasma. Upon isolation of the enantiomers, it was found that the (R,+) enantiomer, SC-795, was about 10-fold more potent than the mixture, and that the (S,-) enantiomer, SC-794, did not have significant inhibitory activity (IC(50) > 0.8 microM). All of the activity of the (S,-)SC-794 enantiomer could be accounted for by contamination of this sample with a residual 2% of the highly potent (R,+) enantiomer, SC-795. The IC(50) of (R,+)SC-795, 20 nM, approached the concentration of CETP (8 nM) in the buffer assay. These chiral N,N-disubstituted trifluoro-3-amino-2-propanols were found to associate with both LDL and HDL, but did not disrupt overall lipoprotein structure. They did not affect the on or off rates of CETP binding to HDL disk particles. Inhibition was highly specific since the activities of phospholipid transfer protein and lecithin cholesterol acyl transferase were not affected. Competition experiments showed that the more potent enantiomer (R)SC-795 prevented cholesteryl ester binding to CETP, and direct binding experiments demonstrated that this inhibitor bound to CETP with high affinity and specificity. It is estimated, based on the relative concentrations of inhibitor and lipid in the transfer assay, that (R)SC-795 binds approximately 5000-fold more efficiently to CETP than the natural ligand, cholesteryl ester. We conclude that these chiral N,N-disubstituted trifluoro-3-amino-2-propanol compounds do not affect lipoprotein structure or CETP-lipoprotein recognition, but inhibit lipid transfer by binding to CETP reversibly and stereospecifically at a site that competes with neutral lipid binding.     

Synthesis and dopaminergic properties of the two enantiomers of 3-(3,4-dimethylphenyl)-1-propylpiperidine, a potent and selective dopamine D4 receptor ligand

The synthesis of the two enantiomers of 3-(3,4-dimethylphenyl)-1-propylpiperidine 1, a potent and selective D4 dopaminergic ligand, was performed. The 3-(3,4-dimethylphenyl)- 1-propylpiperidine with the R configuration showed an affinity for the D4 receptors 6-fold higher than the corresponding enantiomer with the S configuration. Furthermore, the (R)-1 enantiomer proved to be highly selective for D4 receptors with respect to D2-D3 receptors, with a Ki ratio higher than 25,000, while the (S)-1 enantiomer was about 100-fold less selective than the (R)-1 one.