Stereospecific synthesis and absolute configuration of mexiletine

Data on the absolute configuration of mexiletine (MEX) do not appear to have been published, although in several published reports the configuration is referred to as (?)-(R) and (+)-(S), based on information from manufactures providing the drug stereoisomers. We demonstrate that (?)-MEX has the (R)-configuration by mean of a new stereospecific synthesis. X-Ray analysis of an optical active sample of (+)-MEX as its hydrobromide salt, obtained from chemical resolution of the racemic mixture, was carried out in order to obtain precise information on bond lengths and angles, useful for studies on structure–activity relationships. We also report the NMR analysis in presence of Eu(hfc)₃ as shift reagent, which represents a simple method for the determination of enantiomeric excess (ee) in addition to the well-known chiral HPLC methods. © 1994 Wiley-Liss, Inc.     

Stereospecific synthesis of trans-arachidonic acids.

An effective synthesis is described for the preparation of all four mono trans isomers of arachidonic acid via deoxidation of epoxide precursors with lithium diphenylphosphide and quaternization with methyl iodide.     

Stereospecific synthesis of alpha-anomeric pyrimidine nucleoside.

A facile stereospecific synthetic method for alpha-anomeric 2'-deoxypyrimidine nucleoside unit utilizing aminooxazoline derivative of ribofuranose was investigated. Thus, easily accessible riboaminooxazoline derivative prepared by ribose and cyanamid was allowed to react with ethyl alpha-bromoethylacrylate to give corresponding adduct. The adduct was cyclized by strong base such as potassium t-butokiside. The resulted 2,2'-cyclonucleoside was then treated with acetyl bromide followed by n-butyltin hydride to give alpha-anomeric 3',5'-di-O-acetylthymidine. 3',5'-Di-O-acety groups of the nucleoside were easily removed by the action of excess of triethyl amine in methanol. Essentially same procedure afforded corresponding 2'-deoxyuridine, which was further, converted to alpha-anomeric 2'-deoxycytidine.     

Stereospecific synthesis of (+)-oxybiotin from D-xylose

A new 14-step synthesis of (+)-oxybiotin, an oxygen analogue of (+)-biotin, was achieved starting from D-xylose by use of selected 2,5-anhydro sugar derivatives as key intermediates.     

Stereospecific synthesis of 3 beta-hydroxylated bile alcohols

This paper describes the synthesis of 5 beta-cholestane-3 beta, 7 alpha,25-triol and 5 beta-cholestane-3 beta, 7 alpha, 12 alpha, 25-tetrol from their corresponding 3 alpha-analogs. The method consists of refluxing a mixture of a steroid alcohol, triphenylphosphine, and diethyl azodicarboxylate in benzene solution with an acid such as formic acid. The sterically pure ester (3 beta-formate) so formed after saponification then allows an easy access to the epimer of the starting alcohol. Differentiation of these 3 beta-hydroxy bile alcohols from their corresponding 3 alpha-epimeric analogs was made possible on the basis of proton, 13C-NMR, and mass spectra as well as chromatographic mobility. Steric requirements of sterols and nucleophilicity of attacking acidic components played an important role for the success of this synthesis. Only equatorial hydroxyl groups in these bile alcohols reacted under mild conditions and epimerization, as well as protection of the alcoholic group, was achieved in one step. Formic acid was the acid of choice since the axial formate ester formed is sufficiently reactive to be hydrolyzed (KHCO3/aq X MeOH) under mild conditions.     

Stereospecific synthesis of chiral caprolactone monomers from D-glucose

The synthesis and characterisation of a novel chiral bicyclic oxacaprolactone is reported. The choice of diisopropylidene-D-glucose as a starting material allowed selective introduction of the synthetic equivalent necessary for the formation of the seven-membered ring of the lactone, i.e., one carbon atom and the carbonyl of the ester which was to become the carbonyl group of the lactone. In order to complete the formation of the seven-membered ring, via intramolecular lactonisation, it was necessary to excise carbon six and to establish a primary alcohol group at C-5. The lactone was fully characterised and available for ring-opening polymerisation.     

Stereospecific synthesis of (-)-neplanocin F

The stereospecific synthesis of (-)-neplanocin F was achieved in 15 steps from 2,3-O-isopropylidene-D-1,4-ribonolactone. The synthetic methodology can give an access through appropriate modifications to new series of carbanucleosides.     

Stereospecific synthesis of a novel series of pyridine nucleosides

Condensation of $\text{3,5-}\text{di}\text{-O-}\text{benzoyl}\text{-β-}\text{d}\text{-}\text{ribofuranosyl}$ chloride severally with 3-acetyl-5-alkylpyridines, 5-alkyl-3-methoxycarbonylpyridines (alkyl = Me, Et, Pr, and ⁱPr), 5-isopropylnicotinamide, and 3,5-diacetylpyridine bis(ethylene acetal) in acetonitrile at ?5° gave the corresponding $\text{1-(3,5-}\text{di}\text{-O-}\text{benzoyl}\text{-β-}\text{d}\text{-}\text{ribofuranosyl}\text{))-3,5-}\text{disubstituted}$ pyridinium chlorides in excellent yield (90%). From the reaction of a series of $\text{2,3-O-}\text{isopropylidene}\text{-β-}\text{d}\text{-ribofuranosyl}$ halides with 3-acetyl-5-methyl-pyridine at room temperature, the α-nucleosides were obtained.     

Stereospecific synthesis of new steroidal isoxazoles in dry media

An easy and fast procedure was developed for one-pot synthesis of steroidal isoxazoles starting from 23-acetylsapogenins derivatives in presence of P₂O₅/SiO₂ in dry media under microwaves irradiation is described. Substrates of the 25S and 25R series were used as raw materials, establishing that this new methodology is applicable to both series.     

Stereospecific synthesis of chiral benzylic centers from D-erythro-pentulose derivatives

Stereospecific, Grignard addition reactions are described that afford C-phenyl branched-chain pentitols having either the D-arabino(2) or D-ribo(19) stereochemistry, according to the mode of substitution of the starting 2-pentulose. The reaction of 3,5-O-benzylidene-1-deoxy-D-erythro-2-pentulose (1) with phenyl-magnesium bromide led stereospecifically to 3,5-O-benzylidene-1-deoxy-2-C-phenyl-D-arabinitol (2), the configuration of which was established by a nuclear Overhauser experiment with its 2,4:3,5-dibenzylidene acetal (3). Acid hydrolysis of 2 led to the novel, crystalline 1-deoxy-2-C-phenyl-D-arabinitol (4), further characterized as its triacetate 5. In attempts to mask certain hydroxyl groups of 2 selectively, the 2,4-O-isopropylidene (6) and 2,4-O-carbonyl (7) derivatives, the 4-acetate 8, the 4-(trimethylsilyl) and 4-(tert-butyldimethylsilyl) ethers (10 and 17), and the corresponding 2-phenylcarbamates 9 (from 8) and 11 (from 10) were prepared. Catalytic hydrogenolysis of the carbamates 9 and 11 resulted in deoxygenation of the benzylic center with inversion of configuration to give 2(S)-3,5-O-benzylidene-1,2-dideoxy-2-C-phenyl-D-erythro-pentitol (12; from 11) and its 4-O-acetyl analog 13 (from 9). Benzylation of the trimethylsilyl ether 10 afforded 2-O-benzyl-3,5-O -benzylidene-1-deoxy-2-C-phenyl-4-O-(trimethylsilyl)-D-arabinitol (15), together with the corresponding 2,4-dibenzyl ether 14. Acid hydrolysis of 15 yielded the crystalline, branched-chain, benzyl ether 16. The tert-butyldimethylsilyl ether of 1 reacted with phenylmagnesium bromide to give, exclusively, the C-phenyl branched-chain pentitol (19) having the D-ribo stereochemistry.     

Stereospecific synthesis and two-dimensional 1H-NMR investigation of isoursocholic acid.

This report describes the chemical synthesis of isoursocholic acid (3 beta, 7 beta, 12 alpha-trihydroxy-5 beta-cholanoic acid) from its corresponding 3 alpha-analog. The method consists of refluxing a mixture of ursocholic acid, triphenylphosphine, and diethyl azodicarboxylate in benzene solution with an acid such as formic acid. The sterically pure ester (3 beta-formate) so formed after saponification with LiOH-aqueous methanol then allowed an easy access to the epimer of the starting acid. Large scale preparative separation and purification of the final product and synthetic intermediates were accomplished by flash column chromatography of their methyl ester derivatives. Structural assignment of the isourscholic acid molecule was confirmed by complete analysis of proton NMR spectra using 2-D NMR correlation experiments which rigorously established the (3 beta/3 alpha) and (7 beta/7 alpha) hydroxyl configurations in the isoursocholic and ursocholic acids. It is suggested that the isoursocholic acid will be useful as a reference compound and as a substrate in studies dealing with the hepatic inversion of the 3 beta-hydroxy group.     

Fractionation studies of the enzyme complex involved in teichoic acid synthesis.

The membrane-bound enzymes participating in the syntheses of the teichoic acid main chain and linkage unit have been solubilized with Triton X-100 and fractionated by sucrose density gradient centrifugation. Two main fractions were obtained: a heavy fraction, containing enzymes effecting synthesis of the main chain attached to the linkage unit, which was associated with only a small amount of lipid, and a light fraction which was rich in prenyl phosphate and catalyzed only linkage-unit synthesis. The separation by density was not based entirely on polypeptide chain length, as some of the shortest chains appeared in the denser fractions and some relatively high-molecular-weight peptides occurred in the lightest fraction. High activity for linkage-unit synthesis was observed in a fraction containing only a few peptides. Addition of ficaprenyl phosphate to the enzyme preparations had no stimulatory effect. It is concluded that the enzymes for main-chain and linkage unit syntheses frm one or more fairly tightly associated complexes and that polyprenyl phosphate is an integral firmly bound component of the complex in which the linkage unit is synthesized.     

Stereospecific synthesis of "para-hydroxymexiletine" and sodium channel blocking activity evaluation

Both enantiomers of "para-hydroxymexiletine" (PHM), one of the main metabolites of mexiletine, were synthesized and fully characterized. Properties of (R)- and (S)-PHM, in terms of blocking potency and stereoselectivity on frog skeletal muscle Na(+) channels, were evaluated. The presence of a hydroxy group on the aryloxy moiety in the 4-position, as in PHM, reduced potency with respect to mexiletine in reducing I(Na max). However, PHM showed clear use-dependent behavior similar to that of mexiletine and, in contrast with what is observed with the parent compound, maintained its stereoselectivity during the use-dependent block. Chirality 16:72-78, 2004.     

Stereospecific synthesis of sugar-1-phosphates and their conversion to sugar nucleotides

As Leloir glycosyltransferases are increasingly being used to prepare oligosaccharides, glycoconjugates, and glycosylated natural products, efficient access to stereopure sugar nucleotide donor substrates is required. Herein, the rapid synthesis and purification of eight sugar nucleotides is described by a facile 30 min activation of nucleoside 5'-monophosphates bearing purine and pyrimidine bases with trifluoroacetic anhydride and N-methylimidazole, followed by a 2 h coupling with stereospecifically prepared sugar-1-phosphates. Tributylammonium bicarbonate and tributylammonium acetate were the ion-pair reagents of choice for the C18 reversed-phase purification of 6-deoxysugar nucleotides, and hexose or pentose-derived sugar nucleotides, respectively.     

Stereospecific synthesis of beta-D-allopyranosides by dihydroxylation of beta-D-erythro-2,3-dideoxyhex-2-enopyranosides

The synthesis of 4,6-O-benzylidene-beta-D-erythro-2-3-dideoxyhex-2-enopyranosides and their osmium and ruthenium catalysed dihydroxylation reactions have been investigated. These reactions have been shown, for a range of monosaccharides and a disaccharide, to proceed stereospecifically to give beta-D-allopyranosides in moderate to excellent yield.     

Stereospecific synthesis and bio-activity of novel beta(3)-adrenoceptor agonists and inverse agonists

Since it is widely distributed into the body, beta(3)-adrenoceptor is becoming an attractive target for the treatment of several pathologies such as obesity, type 2 diabetes, metabolic syndrome, cachexia, overactive bladder, ulcero-inflammatory disorder of the gut, preterm labour, anxiety and depressive disorders, and heart failure. New compounds belonging to the class of arylethanolamines bearing one or two stereogenic centres were prepared in good yields as racemates and optically active forms. They were, then, evaluated for their intrinsic activity towards beta(3)-adrenoceptor and their affinity for beta(1)- and beta(2)-adrenergic receptors. Stereochemical features were found to play a crucial role in determining the behaviour of such compounds. In particular, alpha-racemic, (alphaR)- and (alphaS)-2-{4-[2-(2-hydroxy-2-phenylethylamino)ethyl]phenoxy}-2- methylpropanoic acid, (alpha-rac, beta-rac)-, (alphaR, betaS)- and (alphaR, betaR)- 2-{4-[2-(2-hydroxy-2-phenylethylamino)ethyl]phenoxy}propanoic acid were found to be endowed with beta(3)-adrenoceptor agonistic activity. Whereas, (alphaS, betaS)- and (alphaS, betaR)-2-{4-[2-(2-hydroxy-2-phenylethylamino)ethyl]phenoxy}propanoic acid behaved as beta(3)-adrenoceptor inverse agonists. Such compounds showed no affinity for beta(1)- and beta(2)-adrenergic receptor, respectively. Thus, resulting highly selective beta(3)-adrenoceptor ligands.