Enantiospecific high-performance liquid chromatographic assay with fluorescence detection for the monoamine oxidase inhibitor tranylcypromine and its applicability in pharmacokinetic studies

In order to be able to measure low concentrations of tranylcypromine enantiomers in biological material, chiral fluorescent derivatization and high-performance liquid chromatography (HPLC) were employed. The internal standard S-(+)-amphetamine and borate—sodium hydroxide buffer pH 11 were added to plasma or urine sample aliquots. o-Phthaldialdehyde was used for precolumn derivatization in combination with the chiral mercaptan N-acetylcysteine. HPLC resolution of the diastereoisomeric derivatives was possible on an octadecylsilane column. The mobile phase consisted of sodium phosphate buffer solution pH 6.5, methanol and tetrahydrofuran. The fluorescence of the eluate was monitored at 344/442 nm. The intra-day coefficients of variation were below 10%, the limit of determination was 0.5 ng/ml. The assay was found to be applicable for routine analyses in a preliminary pharmacokinetic study, in which an oral dose of 20 mg racemic tranylcypromine sulfate was administered to three healthy volunteers. The plasma concentrations were generally low, and those of S-(−)-tranylcypromine significantly exceeded those of the R-(+)-enantiomer. Average maximum concentrations were 57.5 and 6.3 ng/ml for S- and R-tranylcypromine, respectively. While S-tranylcypromine was well detectable within the whole study period (8 h), R-tranylcypromine concentrations fell below the detection limit after 4 h in two out of the three studied volunteers.     

Determination of total dopamine, R- and S-salsolinol in human plasma by cyclodextrin bonded-phase liquid chromatography with electrochemical detection

A reliable and sensitive high-performance liquid chromatographic (HPLC) method is presented for the determination of total (free and conjugated) plasma dopamine and the enantiomers R- and S-salsolinol. Plasma is purified on two cartridges, containing primary and secondary amines and phenylboronic acid. Dopamine, R- and S-salsolinol are then separated by HPLC using a β-cyclodextrin-OH phase column. The eluate is monitored electrochemically, without further purification nor derivatization. The method is suited for routine analysis. It allows the detection of total (free and conjugated) dopamine and R- and S-salsolinol in human plasma in concentrations as low as 0.02 ng/ml plasma. The sensitivity is sufficient to measure the naturally occurring levels of salsolinol.     

Stereoselective determination of mepivacaine in human serum using a brush-type chiral stationary phase and solid-phase extraction

A stereoselective high-performance liquid chromatography assay method was developed for the quantitation of R-(+)- and S_-(−)-mepivacaine in human serum. The assay uses a Pirkle brush-type. ((S)-tert.-leucine, (R)-(-naphthyl)ethylamine stationary phase (Sumichiral OA-4700, 250×4 mm I.D.) at ambient temperature with a mobile phase of hexane-ethylenedichloride-absolutte methanol (85:10:5, v/v) for the separation of R-(+) and (S)-(−)-mepivacaine. The eluents were monitored using UV detection at 220 nm. Isolation of the analytes from serum was performed using a 1-ml C₁₈ solid-phase extraction cartridge with high recovery and selectivity. The detection limits were 100 ng/ml for each enantiomer and the limits of quantitation were 150 ng/ml for both enantiomers. Linear calibration curves in the 150–2400 ng/ml range showed good correlation coefficients (r>0.9994, N=3). Precision and accuracy of the method were within 2.1–5.3 and 2.0–3.6%, respectively, for (R)-(+)-mepivacaine and 2.7–5.7% and 1.7–4.2%, respectively, for S-(−)-mepivacaine.     

Esterified, optical pure (3S, 3′S)-astaxanthin from flowers of Adonis annua

The quantitative carotenoid composition of the red flower petals of Adonis annua is reported. Optically pure (3S, 3′S)-astaxanthin occurs both as a diester (64% of total carotenoid) and as a monoester (11%). The optical purity was determined by hydrolysis of the natural esters in the absence of oxygen and subsequent HPLC analysis of the paren -ketol esterified with (−)-camphanic acid. All non-animal sources hitherto examined synthesize pure 3S,3′S- or 3R,3′R-isomers of astaxanthin, whereas marine animal sources contain mixtures of all three optical isomers, including the meso form.     

Microbial reduction of cyclohexanones

A Brazilian strain of the bacteria Serratia rubidaea CCT 5742 quantitatively reduced 4-tert-butylcyclohexanone and 4-methylcyclohexanone to the less thermodynamically stable diastereoisomeric alcohols cis-4-tert-butylcyclohexanol and cis-4-methylcyclohexanol with a diastereoisomeric excesses (de) of 96% and 44%, respectively. 2-Methylcyclohexanone was also totally reduced to the corresponding alcohols affording the trans-(+)-(1S, 2S)-2-methylcyclohexanol with 78% of de and an enantiomeric excess (ee) of 80%. The cis-(+)-(1S, 2R)-2-methylcyclohexanol was obtained in 98% ee.     

Effects of phenobarbital and sodium salicylate on cytochrome P-450 mixed function oxygenase and glutathione S-transferase activities in rat brain

The effects of acute and therapeutic doses of phenobarbital and sodium salicylate on cytochrome P-450 mixed function oxygenase (EC 1.14.14.1) and glutathione S-transferase (EC 2.5.1.18) activities have been studied in rat brain and compared with those of rat liver. P-450 enzymic activity was assayed by N-demethylation of p-chloro-N-methylaniline and 1-chloro-2,4-dinitrobenzene was used as substrate for glutathione S-transferase activity. The acute effects of a single daily dose of phenobarbital (75 mg/kg/day;i.p.) and sodium salicylate (500 mg/kg/day;i.p.) for 3 days increased cytochrome P-450 as well as glutathione S-transferase in rat liver. But the same doses of both drugs decreased glutathione S-transferase levels in rat brain and increased cytochrome P-450 dependent N-demethylation of p-chloro-N-methylaniline. The therapeutic doses of sodium salicylate (50 mg/kg/day;i.p.) and phenobarbital (10 mg/kg/day;i.p.) daily for 21 days increased cytochrome P-450 in rat liver as well as in brain. The increase in brain glutathione S-transferase by prolonged treatment of phenobarbital was significant compared to the control values.     

Enantioselective cleavage of activated amino acid esters promoted by chiral palladacycles

The ester cleavage of R- and S-isomers N-CBZ-leucine p-nitrophenyl ester intermolecularly catalyzed by R- (a) and S-stereoisomers (b) of the Pd(II) metallacycle [Pd(C₆H₄C^*HMeNMe₂)Cl(py)] (3) follows the rate expression k_obs = k_o + k_cat [3], where the rate constants k_cat equal 25.8 ± 0.4 and 7.6 ± 0.5 dm³ mol⁻¹ s⁻¹ for the S- and R-ester, respectively, in the case of 3a, but are 5.7 ± 0.6 and 26.7 ± 0.5 dm³ mol⁻¹ s⁻¹ for the S- and R-ester, respectively, in the case of 3b (pH 6.23 and 25°C). Thus, the best catalysis occurs when the asymmetric carbons of the leucine ester and Pd(II) complex are R and S, or S and R configured, respectively. Molecular modeling suggests that the stereoselection results from the spatial interaction between the CH₂CHMe₂ radical of the ester and the -methyl group of 3. A hydrophobic/stacking contact between the leaving 4-nitrophenolate and the coordinated pyridine also seems to play a role. Less efficient intramolecular enantioselection was observed for the hydrolysis of N-t-BOC-S-metthionine p-nitrophenyl ester with R- and S-enantiomers of [Pd(C₆H₄C*HMeNMe₂)Cl] coordinated to sulfur.     

Overexpression of Serratia marcescens lipase in Escherichia coli for efficient bioresolution of racemic ketoprofen

Lipase from Serratia marcescens ECU1010 was cloned and overexpressed in E. coli. After optimization, the maximum lipase activities reached 5000–6000 U/l and this recombinant lipase could enantioselectively hydrolyze (S)-ketoprofen esters into (S)-ketoprofen. Among six alkyl esters of racemic ketoprofen investigated, this lipase showed the best enantioselectivity for the kinetic resolution of ketoprofen ethyl ester, with an ee_p (enantiomeric excess of product) of 91.6% and E-value of 63 obtained at 48.2% conversion. Twelve nonionic surfactants were tested for enhancing the enantioselectivity of this lipase in the bioresolution of ketoprofen ethyl ester. A very high E-value of 1084 was achieved, with an optical purity of >99% ee_p and a yield of 42.6% in the presence of 3% Brij 92V. Further studies showed that the selectivity of the lipase was improved with the increase of Brij 92V concentration. The substrate (ketoprofen ethyl ester) does not inhibit the lipase activity, while the product (S)-ketoprofen inhibits the lipase activity to some extent. These results indicate that the S. marcescens lipase is very useful for biocatalytic production of chiral profens such as (S)-ketoprofen.     

Synthesis of [2S-2-H]- and [2R-2-H]hexadecanoic acids

[2S-2-²H]- and [2R-2-²H]hexadecanoic acids were synthesized in overall yields of 59–67%. Methyl(2R)-2-hydroxyhexadecanoate, from the acid produced by Hansenula sydowiorum, was converted to the p-toluenesulphonate, reduced to trideutero alcohol with lithium aluminium deuteride and oxidized to [2S-2-²H]hexadecanoic acid. Methyl (2S)-2-chlorohexadecanoate, which was a by-product of tosylation and was also prepared by chlorinatioon of the hydroxy ester with thionyl chloride, on reduction and oxidation as before gave [2R-2-²H]-hexadecanoic acid. Intermediates were fully characterized, isotopic purity was 97% and optical purity was maintained throughout the syntheses. Attempts to reduce the tosyl or chloro groups, only, with sodium borodeuteride gave low yields probably due to preferential reduction of the ester group; 1,2-epoxyhexadecane was obtained from the tosylate and 2-chlorohexadecan-1-ol from the chloro ester.     

Quantitative determination of disopyramide, verapamil and flecainide enantiomers in rat plasma and tissues by high-performance liquid chromatography

Enantiomers of disopyramide (DP), flecainide (FLC) and verapamil (VP) were extracted from rat plasma and tissues (brain, lung, heart, liver, kidney and muscle), followed by quantitative determination using enantioselective high-performance liquid chromatography with chiral stationary-phase columns. The recoveries of S-(+)- and R-(−)-DP from tissues were higher than 69%, and the within- and between-day coefficients of variation were very low (0.5 – 5.7%). The lower limits of detection in each tissue were less than 289 ng/g tissue. The recoveries of S-(+)- and R-(−)-FLC from tissues were higher than 88%, and the within- and between-day coefficients of variation were 1.2–6.0%. The lower limits of detection in each tissue were less than 37 ng/g tissue. The recoveries of S-(−)- and R-(+)-VP from tissues were higher than 80%, and the within- and between-day coefficients of variation were 0.5–6.2%. The lower limits of detection in each tissue were less than 51 ng/g tissue. The analytical methods established in this study will be suitable for determining the concentrations of the enantiomers of these anti-arrhythmic agents in rat plasma and tissues.     

Stereoselective determination of R-(+)- and S-(−)-remoxipride, a dopamine D2-receptor antagonist, in human plasma by chiral high-performance liquid chromatography

A stereoselective high-performance liquid chromatographic (HPLC) method is described for the selective and sensitive quantitation in human plasma of R-(+)- and S-(−)-enantiomers of remoxipride. Remoxipride was extracted from basified plasma into hexane-methyl-tert.-butyl ether (20:80, v/v), washed with sodium hydroxide (1.0 M), then back-extracted into phosphoric acid (0.1 M). A structural analog of remoxipride was used as an internal standard. The sample extracts were chromatographed using a silica-based derivatized cellulose chiral column, Chiralcel OD-R, and a reversed-phase eluent containing 30–32% acetonitrile in 0.1 M potassium hexafluorophosphate. Ultraviolet (UV) absorbance detection was performed at 214 nm. Using 0.5-ml plasma aliquots, the method was validated in the concentration range 0.02-2.0 μg/ml and was applied in the investigation of systemic inversion of remoxipride enantiomers in man.     

Enantioselective biotransformations of racemic 2-aryl-3-methylbutyronitriles using Rhodococcus sp. AJ270

Rhodococcus sp. AJ270 is a useful biocatalyst for the synthesis of some enantiopure S-(+)-2-aryl-3-methylbutyric acids and R-(+)-2-aryl-3-methylbutyramides from the hydrolysis of 2-aryl-3-methylbutyronitriles under mild conditions. The nitrile-hydrolyzing enzymes involved in this novel microorganism are very sensitive to the steric effect of the para-substituent on the aromatic ring. While the nitrile hydratase displays a low S-enantioselectivity against nitriles, the amidase has a strict S-enantioselectivity against 2-aryl-3-methylbutyramides.     

Quantification of ketoprofen enantiomers in human plasma based on solid-phase extraction and enantioselective column chromatography

An HPLC method for the quantification of ketoprofen enantiomers in human plasma is described. Following extraction with a disposable C₁₈ solid-phase extraction column, separation of ketoprofen enantiomers and I.S. (3,4-dimethoxy benzoic acid) was achieved using a chiral column [Chirex 3005; (R)-1-naphthylglycine 3,5-dinitrobenzoic acid] with the mobile phase, 0.02 M ammonium acetate in methanol, set at a flow-rate of 1.2 ml/min. Baseline separation of ketoprofen enantiomers and I.S., free from interferences, was achieved in less than 20 min. The calibration curves (n = 14) were linear over the concentration range of 0.16 to 5.00 μg/ml per enantiomer [mean r² of 0.999 for both enantiomers, root mean square error were 0.015 for R(−) and 0.013 for S(+)]. The inter-day coefficient of variation for duplicate analysis of spiked samples was less than 7% and the accuracy was more than 93% over the concentration range of 0.2 to 4.0 μg/ml for individual enantiomer using 1 ml of plasma sample. This method has been applied to a pharmacokinetic study from healthy human volunteers following the administration of a ketoprofen extended release product (200 mg). This method is simple, fast and should find wide application in monitoring pharmacokinetic studies of ketoprofen.     

Monoclonal antibodies for the detection and quantitation of the endogenous plant growth regulator, abscisic acid

Monoclonal antibodies (mAB) have been produced which recognize the physiologically active 2-cis-(S-form of the endogenous plant growth regulator, abscisic acid (ABA). Cross-reaction with the ABA-catabolites, phaseic and dihydrophaseic acid, is negligible, and (R)-ABA, 2-trans-ABA, the ABA-conjugate, ABA-β-D-glucopyranosyl ester, as well as the putative ABA precursor, xanthoxin, are totally unreactive. In addition to being very specific, the mAB exhibit high affinites for 2-cis-(S)-ABA: the K values were 7.9 × 10⁹ l/mol and 3.7 × 10⁹ l/mol for antibodies from two different clones. By mAB-radioimmunoassay (RIA), 4 pg 2-cis-(S)-ABA (99.5% confidence level) can be detected. mAB-RIA can be used to quantitate ABA directly in unprocessed plant extracts.     

Significantly improved esterase activity of Trichosporon brassicae cells for ketoprofen resolution by 2-propanol treatment

The kinetic resolution of racemic ketoprofen was carried out by enantioselective hydrolysis of ketoprofen ethyl ester using intact cells of Trichosporon brassicae CGMCC0574 as a biocatalyst. After the yeast cells were pretreated by 2 vol.% of 2-propanol for 10 h, the esterase activity on the (S)-ketoprofen ester increased dramatically, by a factor of ca. 310% without reducing the enantioselectivity of enzymatic resolution.     

Biocatalytic oxidation of S-alkylcysteine derivatives by chloroperoxidase and Beauveria species

Treatment of N-methoxycarbonyl C-carboxylate ester derivatives of S-methyl- -cysteine by chloroperoxidase (CPO)/hydrogen peroxide resulted in oxidation at sulfur to produce the (R_S) sulfoxide in moderate to high diastereomeric excess (DE). The (S_S) natural product sulfoxide chondrine was obtained via biotransformation of the N-t.boc derivative of -4-S-morpholine-2-carboxylic acid using Beauveria bassiana or Beauveria caledonica.     

Biotransformations of ortho-, meta- and para-aromatic nitrocompounds by strains of Aspergillus terreus: Reduction of ketones and deracemization of alcohols

Seven strains of the fungus Aspergillus terreus isolated from several provenances in Brazil, catalyzed biotransformations of ortho-, meta- and para-nitrophenyl compounds at different pH values. ortho-Nitroacetophenone and meta-nitroacetophenone were transformed into (S)-(+)-1-(ortho-nitrophenyl)ethanol and (S)-(−)-1-(meta-nitrophenyl)ethanol with high enantiomeric excess (e.e. ≥98%) and conversion (≥98%) by all the strains used. Deracemization of (RS)-1-(meta-nitrophenyl)ethanol was obtained with high selectivity (e.e. up to ≥98%) and good conversion (c 98%). The biotransformations in acidic medium using these fungus strains were more efficient than under basic or neutral conditions.     

Enantiomers of cis- and trans-3-(4-propyl-cyclopent-2-enyl) propyl acetate. A study on the bioactive conformation and chiral recognition of a moth sex pheromone component

The enantiomers of cis- and trans-3-(4-propyl-cyclopent-2-enyl) propyl acetate, which are conformationally constrained analogues of (Z)-5-decenyl acetate (1), a sex pheromone component of the turnip moth, Agrotis segetum, have been synthesized and tested using the electrophysiological single-sensillum technique. The analogues mimic a cisoid and transoid conformation of 1, respectively. In addition, the enantiomers of each of the cis- and trans-isomers are conformationally constrained analogues of enantiomeric cisoid and transoid conformations of 1. Thus, the compounds prepared and tested are well suited to investigate the nature of the bioactive conformation of the natural pheromone component 1 and the chiral sense of its interaction with the receptor. Electrophysiological single-sensillum recordings show that the activity of the most active cis-isomer, which has a (1S,4R)-configuration, is more than two orders of magnitude higher than that of the most active trans-isomer. Furthermore, the (1S,4R)-isomer is at least 100 times more active than its enantiomer. These results strongly support a previously proposed cisoid bioactive conformation of 1. Furthermore, the (1S,4R)-configuration of most active stereoisomer identifies the chiral sense of the interaction between the natural pheromone component 1 and its receptor.     

Bioreduction of aromatic ketones: preparation of chiral benzyl alcohols in both enantiomeric forms

Substituted phenacyl chlorides are reduced with whole-cell biocatalysts to give (R)- or (S)-chlorohydrines in high yields and to make them good for high enantiomeric excess. Yields and enantiomeric purity of the S-enantiomer could be increased by performing bioreduction in the presence of polymeric absorbing resins. With this methodology, 2-chloro-1(S)-(3,4-dichloro-phenyl)-ethanol of 98% e.e. and 2-(R)-(4-nitro-phenyl)-ethanol of 92% e.e. have been prepared and used respectively as precursors in the synthesis of (+)-cis-1(S),4(S)-sertraline and of the β-blocker (R)-nifenalol®.     

Biotransformation of (S)-(−)- and (R)-(+)-limonene using Solanum aviculare and Dioscorea deltoidea plant cells

(S)-(−)- and (R)-(+)-limonene was transformed to carvone via corresponding cis- and trans-carveol using Solanum aviculare and Dioscorea deltoidea plant cells. Both carveols and carvone formed were racemic in all biotransformations.