An efficient approach to d-threo-3-hydroxyaspartic acid for the synthesis of novel l-threo-oxazolines as selective blockers of glutamate reversed uptake

An efficient, stereoselective synthetic strategy to d-threo-3-hydroxyaspartic acid was developed. Starting from l-(2S,3S)-N-benzoyl-3-hydroxyaspartic acid dimethyl ester by a Deoxo-fluor-catalyzed cyclization reaction, an inversion of configuration at the β-center (erythro isomer), was observed. A base-induced epimerization reaction led to the d-trans-isomer, which was hydrolyzed to give d-threo-3-hydroxyaspartic acid with excellent stereoselectivity and overall yield. Starting from d-threo-3-hydroxyaspartic acid, l-threo-oxazolines can be stereoselectively synthesized.     

The crystal structure and molecular conformation of threo 5-methylmetadone in relation to opioid receptor binding

Crystals of the hydrochloride salt of the biologically inactive threo isomer of 5-methylmethadone, C₂₂H₃₀ONCl, are monoclinic space group P2₁ with unit cell dimnsionsa = 11.019 Å, b = 8.6153Å, c = 10.680Å and β = 93.026°. The observed conformation is one in which the nitrogen bearing chain is extended with the substituents on C(5) and C(6) nearly eclipsed, a feature compatible with NMR studies and molecular mechanics calculations. The very potent agonist (5S, 6S)-erythro-5-methylmethadone has a solid state conformation in which the N atom is rotated back toward the phenyl rings [C(4)-C(5)-C(6)-N = 97°]in agreement with molecular mechanics calculations. The fact that the more potent enantiomers, (6R)-methadone and (5S)-isomethadone, and the inactive threo isomer are observed in the extended solid state conformation in contrast to (5S, 6S)-erythro-5-methylmethadone is consistent with three different models for their interaction with opioid receptors. It is proposed that the more likely of these involves a receptor bound conformation of (6R)-methadone and (5S)-isomethadone that resembles the conformation of (5S, 6S)-erythro-5-methylmethadone or that opioid receptors recognize both gauche-like and extended conformations.     

Confirmation of the stereochemistry of two naturally occurring epimeric phenylpropanoids via synthesis: Elucidation of hitherto unknown full stereostructures

Herein we report our efforts toward unequivocal assignment of the hitherto unknown absolute configurations of two naturally occurring phenylpropanoids from Abies delavayi and Abies fabri via a combination of chiral pool synthesis and single crystal X-ray analysis which also confirmed their previously reported gross structures with relative stereochemistry. Toward this end we have achieved the first stereodivergent syntheses of threo-(1R,2R)-(−)- and erythro-(1S,2R)-(+)-1-(4-hydroxyphenyl)-1-methoxy-2,3-propanediol. The synthetic threo-isomer was found to be identical to the naturally occurring threo-isomer, while the natural erythro-isomer was postulated to be the enantiomer of the synthetic erythro-isomer.     

An efficient and stereodivergent synthesis of threo- and erythro-β-methylphenylalanine. Resolution of each racemic pair by semipreparative HPLC

threo and erythro diastereoisomers of the constrained amino acid (βMe)Phe can be obtained separately on a multigram scale through a three-step synthesis from the corresponding Z and E isomers of 2-phenyl-4(α-phenylethylidene)-5(4H)-oxazolone. The 5(4H)-oxazolones are readily available from acetophenone and hippuric acid. The four enantiomerically pure isomers of β-methylphenylalanine, (2R,3R)-(βMe)Phe, (2S,3S)-(βMe)Phe, (2R,3S)-(βMe)Phe and (2S,3R)-(βMe)Phe, have been prepared by HPLC resolution of the racemic precursors methyl threo (or erythro)-2-benzamide-3-phenylbutanoates.     

Synthesis of new β- and γ-benzyloxy-S-glutamic acid derivatives and evaluation of their activity as inhibitors of excitatory amino acid transporters

An efficient stereoselective preparation of the two enantiomerically pure diasteroisomers of γ-benzyloxy-S-glutamic acid was performed using trans-4-hydroxy-l-proline as a source of chirality, while the erythro and threo isomers of β-benzyloxy-S-glutamic acid were prepared starting from (R)-Garner's aldehyde. All new derivatives were tested for their inhibitory activity against excitatory amino acid transporters in a rat synaptosomal preparation and their IC₅₀ values were compared to that of TBOA, a one carbon lower homologue commonly used as the reference blocker of glutamate transporters.     

Absolute configuration of (−)-4-methylheptan-3-ol,a pheromone of the smaller european elm bark beetle,as determined by the synthesis of its (3R,4R)-(+)- and (3S,4R)-(+)-isomers

Nerol and geraniol were stereoselectively converted to (±)-threo- and (±)-erythro-4-methylheptan-3-ol respectively. (R)-(+)-Citronellic acid was converted to a mixture of (3R,4R)-(+)-threo- and (3S,4R)-(+)-erythro-isomers which was separable by GLC. These syntheses established the absolute configuration of the naturally occurring (?)-4-methylheptan-3-ol to be 3S,4S.     

Enantiopure erythro- and threo-1-aryl-1-[2-pyrrolidyl]-methanols: synthesis from l-proline

Enantiopure (1R,2S)-erythro- and (1S,2S)-threo-isomers of four new aryl-pyrrolidyl alcohols 5aH, 5aMe, 5bH and 5bMe have been obtained in five steps from (−)-(S)-proline and fully characterized. The oxidation of alcohol 8 into aldehyde 9 was the most difficult step and racemization occurs during Swern oxidation but this difficulty can be overcome by using SO₃/pyridine as oxidant. Diastereomer I of the protected amino alcohol 10a crystallized and was shown to be the (1R,2S)-erythro-isomer (e-10a-I) using X-ray crystallography. Therefore the (1R,2S)-erythro structure was assigned to all compounds obtained from e-10a-I, and, as a consequence, the (1S,2S)-threo structure was assigned to diastereomers II.     

Fragmentation of carbohydrate anomeric alkoxyl radicals. Synthesis of highly functionalized chiral vinyl sulfones

The reaction of derivatives of 3-acetyl-d-glucal, 3-acetyl-l-rhamnal, 3-acetyl-d-galactal, and 3-acetyl-d-lactal with sodium benzenesulfinate in acid medium catalyzed by HgSO₄ afforded diastereoisomeric mixtures of the corresponding 2,3-dideoxy-3-(phenylsulfonyl)-hexopyranoses through a Ferrier rearrangement. The anomeric alkoxyl radical fragmentation of these γ-hydroxy sulfones using the system (diacetoxyiodo)benzene and iodine gave vinyl sulfones with structures of 1,2-dideoxy-4-O-formyl-2-(phenylsulfonyl)-pent-1-enitol and configurations d-erythro, l-erythro, and d-threo at the two stereogenic centers.     

Syntheis of 2-aryloxy- and 2-arylalkoxy-1-(2-piperidyl)ethanols

The preparation and separation of diastereomeric pairs of a series of 2-aryloxy- and 2-arylalkoxy-1-(2-piperidyl)ethanols is reported. The erythro aminoalcohols were converted into threo isomers by thionyl chloride treatment of their N-acetyl derivatives and alkaline hydrolysis.     

Synthesis of the enantiomeric forms of cis and trans 1-benzyloxy-2,3-epoxy butane and of (3S,4S) 4-methyl-3-heptanol

The C₄erythro and threo diols (7) and (8) are converted either into the chiral epoxides (13) and (15) or into the enantiomers (14) and (16); the epoxide (13) is used as chiral synthon for the preparation of (3$\text{S}$,4$\text{S}$) 4-methyl-3-heptanol (21).     

Stereochemistry of the reactions of β-halothioethers with NaCN and AgCN

The S_N reactions of NaCN and AgCN with $\text{erythro}$ and $\text{threo}$-2-methylthio-3-halobutanes are reported. The stereochemistry of the resulting nitriles and isonitriles demonstrates that total retention in configuration has taken place in these processes. This disagrees with the accepted explanation for the regioselectivity of these reactions.     

Etude stereochimique de l'alkylation d'anions par des derives p-nitrobenzyliques optiquement actifs : Competition SN2-SNR1

Competition between S_RN1,S_N2 and S_RN1 mechanisms is discussed according to the stereochemical results in the alkylation of anions by optically active secondary p-nitrobenzyl reagents. Results from alkylation of the anions of benzylcyanide C and α-aminonitrile A by p-nitrobenzyl chloride 2 rule out S_N2 and S_RN2 mechanisms. On the other hand, the S_N2 process becomes exclusive in O-and C-alkylation of the acetoacetic ester anion B by the p-nitrobenzyl phosphonium salt, and this result shows that it is possible to obtain p-nitrobenzyl alkylation products without racemisation. C-Alkylation of the anion B by halide 2 involves an S_N2-electron transfer competition. The whole result illustrates that the stereochemical method provides precise information on the mechanism of these reactions.     

Synthesis of D-Erythro- and D-Threo-Sphingosine Derivatives From L-Serine

The protected serine aldehyde 10 was converted to the crystalline N-Boc-protected sphingosines 6 – 9 by a three-step reaction sequence. Compound 10 was transformed with high diastereoselectivity (95%) either to the erythro- or threo-alkynols, 17 and 18 , respectively. The erythro-isomer 17 is formed by the addition to 10 of lithium pentadecyne 16 in THF/HMPT at ?78°, whereas the corresponding threo-isomer 18 is produced in the presence of ZnBr² in Et₂O. Deprotection of the acetal moiety afforded 1,3-diols 19 and 20 . These diols were selectively reduced with Red-Al to the (E)-sphingosines 6 and 8 , or the (Z)-isomers 7 and 9 by partial hydrogenation over Lindlar's catalyst. Cleavage of the N-Boc group and further transformation to ceramides were readily achieved as demonstarted by the conversion of 6 to N-octadecanoyl-D -erythro-sphingosine 5 .     

Stereocontrolled palladium(0)-catalyzed preparation of unsaturated azidosugars: an easy access to 2- and 4-aminoglycosides

The palladium-catalyzed substitution of alkyl 4,6-di-O-acetyl-α-d-erythro-hex-2-eno-pyranosides using NaN₃ as the nucleophile gave predominantly the corresponding alkyl 2-azido-2,3,4-trideoxy-α-d-threo-hex-2-enopyranosides in the presence of Pd(PPh₃)₄. However, alkyl 6-O-acetyl-4-azido-2,3,4-trideoxy-α-d-erythro-hex-2-enopyranosides were obtained as the major products using Pd(PPh₃)₄ as the catalyst in the presence of dppb as the added ligand. Conversely, alkyl 6-O-(tert-butyldimethylsilyl)-4-O-methoxycarbonyl-2,3-dideoxy-α-d-hex-2-enopyranosides gave exclusively alkyl 4-azido-6-O-(tert-butyldimethylsilyl)-2,3,4-trideoxy-α-d-erythro-hex-2-enopyranosides in the presence of Pd₂(dba)₃/PPh₃ as the catalyst and Me₃SiN₃ as the nucleophile. The bis-hydroxylation followed by hydrogenation of ethyl 4-azido-2,3,4-trideoxy-α-d-erythro-hex-2-enopyranoside afforded the corresponding 4-amino-α-d-mannopyranoside, when propyl 2-azido-2,3,4-trideoxy-α-d-threo-hex-3-enopyranoside gave the 2-amino-α-d-altropyranoside under the same conditions.     

Stereocontrolled synthesis of all of the four possible stereoisomers of erythro-3,7-dimethyl-pentadec-2-yl acetate and propionate,the sex pheromone of the pine sawflies

All of the four possible stereoisomers of 2,3-erythro-3,7-dimethylpentadecan-2-ol 1 were synthesized by a stereospecific S_N2 oxirane cleavage of (2S,3S)-2,3-epoxybutane or its antipode with lithium di[(R)- or (S)-4-methyldodecyl]cuprate. Their acetates or propionates were prepared to test their pheromone activity.     

Photochemische Umsetzung von optisch aktiven 2-(1′-Methylallyl)anilinen mit Methanol

Photochemical Reaction of Optically Active 2-(1′-Methylallyl)anilines with Methanol It is shown that (?)-(S)-2-(1′-methylallyl)aniline ((?)-(S)- 4 ) on irradiation in methanol yields (?)-(2S, 3R)-2, 3-dimethylindoline ((?)-trans- 8 ), (?)-(1′R, 2′R)-2-(2′-methoxy-1′-methylpropyl)aniline ((?)-erythro- 9 ) as well as racemic (1′RS, 2′SR)-2-(2′-methoxy-1′-methylpropyl) aniline ((±)-threo- 9 ) in 27.1, 36.4 and 15.7% yield, respectively (see Scheme 3). By deamination and chemical correlation with (+)-(2R, 3R)-3-phenyl-2-butanol ((+)-erythro- 13 ; see Scheme 4) it was found that (?)-erythro- 9 has the same absolute configuration and optical purity as the starting material (?)-(S)- 4 . Comparable results are obtained when (?)-(S)-N-methyl-2-(1′-methylallyl)aniline ((?)-(S)- 7 ) is irradiated in methanol, i.e. the optically active indoline (+)-trans- 10 and the methanol addition product (?)-erythro- 11 along with its racemic threo-isomer are formed (cf. Scheme 3). These findings demonstrate that the methanol addition products arise from stereospecific, methanol-induced ring opening of intermediate, chiral trans, -(→(?)-erythro-compounds) and achiral cis-spiro [2.5]octa-4,6-dien-8-imines (→(±)-threo-compounds; see Schemes 1 and 2).     

An unexpected high erythro-selection in the Grignard reaction with an N,O-acetal: a concise asymmetric synthesis of indolizidine alkaloid (−)-2-epi-lentiginosine

Starting from commercially available lactone 10, a concise and highly diastereoselective synthesis of (?)-(lS,2R,8aS)-2-epi-lentiginosine (2) is described. The synthesis featured an unexpected highly erythro-selective reaction of Grignard reagent 7 with the protected N,O-acetal 8. The stereochemical outcome of this reaction is contrary to the known results involving the reactions with O-benzyl protected aminofuranosides and aminoglycosides. Thus, this method constitutes an extension of the threo-diastereoselective C–C bond formation methodology.     

Two-directional synthesis of the non-adjacent bis(tetrahydrofuran) core of cis-sylvaticin

Synthesis of the C₂-symmetric, non-adjacent bis(tetrahydrofuran) core of cis-sylvaticin in seven steps and 24% overall yield from (2R,3S)-1,2-epoxy-4-penten-3-ol is reported. A strategy involving assembly of the central 1,4-diol unit by silicon-tethered ring-closing metathesis and subsequent two-directional functionalization, including establishment of the cis/threo stereochemical relationships of the tetrahydrofuran rings by Sharpless asymmetric dihydroxylation/S_N2 cyclization, is employed.     

The synthesis of 3,6-diamino-2,3,4,6-tetradeoxy-dl-threo-hexopyranose derivatives,substrates for the synthesis of negamycin

Three synthetic routes to derivatives of 3,6 - diamino - 2,3,4,6 - tetradeoxy - DL - threo - hexopyranose were investigated. Addition of sodium azide in acetic acid to 6 - phthalimido - 5,6 - dihydro - 2 - pyrone gave 4-azido compound (7) of the erythro configuration. From methyl 2,4 - dideoxy - β -dl- erythro - hexopyranoside threo 4 - phthalimido - 6 - phthalimidomethyl - tetrahydro - 2 - pyrone (17) was obtained in three steps in low overall yield. Addition of sodium azide in acetic acid to butyl 6 - oxo - 2 - hydroxy - hex - 4 - enoate followed by methylation, amonolysis of the ester group, and reduction gave methyl 3,6 - diacetamido - 2,3,4,6 - tetradeoxy - α - DL - threo - hexopyranoside (26).     

Synthese de derives de la tobrosamine par addition d'acide hydrazoique sur un systeme enonique dans la serie hydrate de carbone

Derivatives of a new diaminotrideoxy-d-ribo-hexopyranose, a component of the antibiotic tobramycin, have been prepared by addition of the elements of hydrazoic acid to the α, β-unsaturated ketone 8. After 5 min only the kinetically favored product 13 was observed, which is gradually transformed into the thermodynamically more-stable substance 20. The equilibrium mixture after 5 hours contained d-erythro and d-threo isomers 20 and 13 in the ratio 6:4 The d-erythro azide 20 was converted into the derivatives of di-N-acetyl tobrosamine.