Some Properties of a New Flavonoid,Tithymalin, Isolated from the Herbs of Euphorbia Helioscopia Linnaeous

The stereochemistry of fukiic acid (I) was elucidated. The relative configuration was determined to be erythro by IR spectrum and the evidence of acetonide formation. The absolute configuration of fukiic acid was assigned as S-configuration at C–2 and R-configuration at C–3, by Horeau’s method and the identification of ozonolysis product to be hibiscus acid (10 a).     

Structure and absolute configuration of a secolignan from Peperomia blanda

A secolignan, (−)-2-methyl-3-[bis(3′,4′-methylenedioxy-5′-methoxyphenyl) methyl]butyrolactone (1), with a rare cis configuration was isolated from the aerial parts of Peperomia blanda (Piperaceae). The structure of this compound was elucidated by a combination of spectroscopic methods, including ultraviolet, infrared, 1D- and 2D- nuclear magnetic resonance as well as high resolution mass spectrometry data. The absolute configuration of (−)-1 was determined as (2R,3S) by the comparison of experimental electronic circular dichroism (ECD) spectroscopy and time-dependent density functional theory (TDDFT) calculations.     

A new meroterpenoid, chrodrimanin C, from YO-2 of Talaromyces sp

The new meroterpenoid, chrodrimanin C (3), together with chrodrimanins A (2) and B (1) were isolated from okara (the insoluble residue of whole soybean) that had been fermented with strain YO-2 of Talaromyces sp. Their structures were elucidated by spectroscopic methods. The partial structures of 1 essential for exhibiting insecticidal activity were investigated by using a silkworm assay. The absolute configuration of 1 was also determined.     

Novel phenyl-1-benzoxepinols from butcher's broom (Rusci rhizoma)

Two novel compounds, (3S)-2,3-dihydro-3-(4-hydroxyphenyl)-1-benzoxepin-8-ol (ruscozepine A) and (3S)-2,3-dihydro-3-(4-hydroxyphenyl)-8-methoxy-1-benzoxepin-7-ol (ruscozepine B) were isolated from butcher's broom (Rusci rhizoma) together with a biosynthetically possible phenylethanoid precursor, hydroxytyrosol. The structures were elucidated by spectroscopic methods such as 1D- and 2D-NMR (COSY, HSQC, HMBC, ROESY), and HR-EI-MS experiments. The absolute configuration of the ruscozepines was determined by electronic circular dichroism.     

Isoflavonoids from Crotalaria albida Inhibit Adipocyte Differentiation and Lipid Accumulation in 3T3-L1 Cells via Suppression of PPAR-γ Pathway

Two 2″-isopropenyl dihydrofuran isoflavonoids (1 and 3), one 2″-isopropenyl dihydrofuran chromone (2), as well as 13 known compounds were isolated from the herbs of Crotalaria albida. Their structures and relative configurations were elucidated via NMR and HRESIMS analyses. The 2″ S absolute configuration of 1 and 2 were deduced by comparing their NOESY spectra with that of 3, which was determined via single crystal X-ray diffraction (CuKα). The 3R absolute configuration of 1 was determined by CD. Compounds 1, 2, and 3 inhibit the adipocyte differentiation and lipid accumulation of 3T3-L1 through down-regulation of PPAR-γ activity.     

Aspermytin A: a new neurotrophic polyketide isolated from a marine-derived fungus of the genus Aspergillus

A new polyketide, aspermytin A (1), was isolated from a cultured marine fungus, Aspergillus sp., which was separated from the mussel, Mytilus edulis. Its structure was elucidated on the basis of their spectral data, and the absolute configuration of 1 was determined by the CD spectrum. Aspermytin A induced neurite outgrowth in rat pheochromocytoma (PC-12) cells at concentration of 50 microM.     

Massarilactones E-G, new metabolites from the endophytic fungus Coniothyrium sp., associated with the plant Artimisia maritima

Three new massarilactones E-G (1-3) and the massarilactone acetonide (4) were isolated from the ethyl acetate extract of the endophytic fungus Coniothyrium sp., associated with the plant Artimisia maritima. Their structures were determined by analysis of the 1D and 2D NMR and mass spectroscopic data. The structure of massarilactones E (1) was confirmed by X-ray diffraction analysis, and its absolute configuration determined by the solid-state CD/TDDFT method.     

Chiral cruciferous phytoalexins: preparation, absolute configuration, and biological activity

Synthesized by an efficient one-pot spirocyclization method, two chiral cruciferous phytoalexins, 1-methoxyspirobrassinin (2) and 1-methoxyspirobrassinol methyl ether (4a), were prepared through optical resolution using the chiral HPLC method of corresponding racemates. The absolute configuration of natural (+)-2 was elucidated as R by using the direct comparison of ECD and VCD spectra with those of known (S)-(-)-spirobrassinin (1). Another chiral phytoalexin, (-)-4a, had its absolute configuration 2R,3R elucidated through the comparison of observed and calculated VCD. Interestingly, the absolute configurations of natural (S)-(-)-spirobrassinin (1) and (R)-(+)-1-methoxyspirobrassinin (2) were opposite of each other, even though their structures are almost similar, with the exception of an N-methoxy group. A significant difference in the antiproliferative activity between (2R,3R)-(-) and (2S,3S)-(+)-4a was observed.     

Elucidation of the absolute configuration of JNJ-27553292, a CCR2 receptor antagonist, by vibrational circular dichroism analysis of two precursors

The absolute configurations of two precursors, that is, 1-(3',4'-dichlorophenyl)-propanol and 1-(3',4'-dichlorophenyl)-propanamine, of a potent 2-mercapto-imidazole CCR-2 receptor antagonist, JNJ-27553292, were determined using vibrational circular dichroism. As a consequence, the absolute configuration of the antagonist itself was also determined. The two precursor compounds were subjected to a thorough conformational analysis and rotational strengths were calculated at the B3LYP/cc-pVTZ level of theory. Based on these data, vibrational circular dichroism spectra were simulated, which in turn were compared with experimental spectra. Agreement between the spectra allowed the assignment of the absolute configuration, which is in agreement with the proposed configuration based on stereospecific reactions on similar compounds.     

Novel Phenyl‐1‐benzoxepinols from Butcher's Broom (Rusci rhizoma)

Two novel compounds, (3S)‐2,3‐dihydro‐3‐(4‐hydroxyphenyl)‐1‐benzoxepin‐8‐ol ( 1 ; ruscozepine A) and (3S)‐2,3‐dihydro‐3‐(4‐hydroxyphenyl)‐8‐methoxy‐1‐benzoxepin‐7‐ol ( 2 ; ruscozepine B) were isolated from butcher's broom (Rusci rhizoma) together with a biosynthetically possible phenylethanoid precursor, hydroxytyrosol ( 3 ). The structures were elucidated by spectroscopic methods such as 1D‐ and 2D‐NMR (COSY, HSQC, HMBC, ROESY), and HR‐EI‐MS experiments. The absolute configuration of the ruscozepines was determined by electronic circular dichroism.     

Determination of the absolute configuration and solution conformation of a novel disubstituted pyrrolidine acid A by vibrational circular dichroism

Compound A, a novel disubstituted pyrrolidine acid, is a member of a new class of agents that are potentially useful for the treatment of diabetes and dyslipidemia. The absolute configuration of this compound was determined by using vibrational circular dichroism (VCD). The results are in agreement with the assignments based on both X-ray analysis and the stereo-selective chemical synthesis. During VCD analysis, the solution conformation for a portion of compound A in CDCl(3) was also established. The compound is found to associate as an H-bonded carboxylic acid "dimer" in CDCl(3) solution, and VCD calculations on a model dimer fragment were required to establish the absolute configuration.     

Synthesis of enantiopure phthalides including 3-butylphthalide, a fragrance component of celery oil, and determination of their absolute configurations

Enantiopure phthalides 2 and 5-8 were synthesized via enantioresolution of the corresponding alcohols with a chiral auxiliary of camphorsultam dichlorophthalic acid, (1S,2R,4R)-(-)-CSDP acid 3, followed by solvolysis with KOH in MeOH and the catalytic oxidation of chiral glycols with iridium complex 28. The absolute configurations of phthalides 2 and 5-8 were determined by applying the (1)H-NMR anisotropy method of MalphaNP acid (4), 2-methoxy-2-(1-naphthyl)propionic acid, to the chiral synthetic precursory alcohols. In the case of 3-phenylphthalide (R)-(-)-7, the absolute configuration determined by the (1)H-NMR anisotropy method using MalphaNP acid 4 agreed with that by the X-ray crystallographic method. By applying these methods, 3-butylphthalide (S)-(-)-2, a fragrance component of essential oil of celery, has been synthesized in an enantiopure form, and its absolute configuration was unambiguously determined.     

Amino acids as chiral derivatizing agents for antiproliferative substituted N‐benzyl isoindolinones

The absolute configurations of the diastereomers of novel amino acid ester derivatives of 2,3‐substituted isoindolinones, which are known as apoptosis activators due to their ability to inhibit the MDM2‐p53 PPI, were assigned using NMR and computational methods. Procedures for diastereomer separation and determining the absolute configuration were developed to perform the study. The high significance of N‐benzyl fragment for the determination of the diastereomer absolute configuration by NMR methods was established; it is determined by a number of factors inherent in this fragment and the structural features of the studied substrates. Analysis of the individual isomer activity showed that the target inhibitory effect of S‐ and R‐isoindolinone L‐valinates differs by less than 20%. It can be explained by the presence of a flexible linker between the isoindolinone core and amino acid fragment, which provides the optimal arrangement of the molecule in the hydrophobic cavity of MDM2 for both isomers.     

Phospholipids chiral at phosphorus. Absolute configuration of chiral thiophospholipids and stereospecificity of phospholipase D

Separate diastereomers of 1,2-dipalmitoyl-sn-glycero-3- thiophosphoethanolamine ( DPPsE ) were prepared in 97% diastereomeric purity and characterized by 31P, 13C, and 1H nuclear magnetic resonance (NMR). The isomers hydrolyzed by phospholipases A2 and C specifically were designated as isomer B (31P NMR delta 59.13 in CDCl3 + Et3N ) and isomer A (59.29 ppm), respectively, analogous to the isomers B and A of 1,2-dipalmitoyl-sn-glycero-3- thiophosphocholine ( DPPsC ) [ Bruzik , K., Jiang , R.-T., & Tsai, M.-D. (1983) Biochemistry 22, 2478-2486]. Phospholipase D from cabbage was shown to be specific to isomer A of DPPsC in transphosphatidylation . The product DPPsE was shown to be isomer A. The absolute configuration of chiral DPPsE at phosphorus was elucidated by bromine-mediated desulfurization in H2 18O to give chiral 1,2-dipalmitoyl-sn-glycero-3-[18O]phosphoethanolamine ( [18O]DPPE) followed by 31 P NMR analysis [ Bruzik , K., & Tsai, M.-D. (1984) J. Am. Chem. Soc. 106, 747-754]. The absolute configuration of chiral DPPsC was elucidated by desulfurization in H2 18O mediated by bromine or cyanogen bromide to give chiral 1,2-dipalmitoyl-sn-glycero-3-[18O]phosphocholine ( [18O]DPPC), which was then converted to [18O]DPPE by phospholipase D with retention of configuration [ Bruzik , K., & Tsai, M.-D. (1984) Biochemistry (preceding paper in this issue)]. The results indicate that isomer A of both DPPsE and DPPsC is SP whereas isomer B is RP.     

Three New Ergot Alkaloids from the Fruiting Bodies of Xylaria nigripes (Kl.) Sacc.

Three new ergot alkaloids, xylanigripones A – C ( 1  –  3 ) together with three known compounds, agroclavine ( 4 ), 8,9‐didehydro‐10‐hydroxy‐6,8‐dimethylergolin ( 5 ), and (6S)‐agroclavine N‐oxide ( 6 ) were isolated from the fungus Xylaria nigripes (Kl .) Sacc . Their structures were elucidated by comprehensive spectroscopic analyses and high‐resolution mass spectrometry as well as by comparison with the literature. The absolute configuration was determined by Density Functional Theory (DFT) calculation methods. In addition, all of the compounds were evaluated for bioactivity via a cytotoxicity assay, an acetylcholinesterase inhibition assay and a cholesterol ester transfer protein inhibition assay.     

Natural anti-HIV agents-part I: (+)-demethoxyepiexcelsin and verticillatol from Litsea verticillata

The eudesmane sesquiterpenoid, verticillatol (1), as well as the lignan, (+)-5'-demethoxyepiexcelsin (2), and a known lignan, (+)-epiexcelsin (3), were isolated from Litsea verticillata Hance. Lignan 2 showed moderate anti-HIV activity with an IC(50) value of 16.4 microg/ml (42.7 microM), while the known lignan 3 was inactive up to a concentration of 20 microg/ml (48.3 microM). Compound 1 demonstrated weak activity with an IC(50) value of 34.5 microg/ml (144.7 microM) while being devoid of cytotoxicity at 20 microg/ml. The structures were elucidated by 1D and 2D NMR spectroscopy, and the absolute configuration of the new sesquiterpenoid was determined by the generation of Mosher esters.     

Three Sesquiterpenoid Dimers from Chloranthus japonicus: Absolute Configuration of Chlorahololide A and Related Compounds

A novel sesquiterpenoid dimer, named multistalide C ( 1 ), together with two known congeners, shizukaols C ( 2 ) and D ( 3 ), was isolated from the whole plant of Chloranthus japonicus Sieb. The structures of compounds 1 , 2 , 3 were elucidated by extensive HR‐ESI‐MS, 1D, and 2D NMR spectroscopic analysis. Compounds 1 , 2 , 3 exhibited significant toxic effects on brine shrimp larvae (Artemia salina). The absolute configuration of 1 was established by CD/TDDFT calculations. The related compound chlorahololide A was also reinvestigated. The previous assignment of the absolute configuration of chlorahololide A and several related sesquiterpenoid dimers, based on an incorrect application of the exciton chirality method, is criticized. Chirality 28:158–163, 2015. © 2015 Wiley Periodicals, Inc.     

Saponins from stem bark of Petersianthus macrocarpus.

Two bioactive saponins were isolated from the stem bark of Petersianthus macrocarpus. Their structures were elucidated by chemical degradations and by a combination of 2D NMR techniques and by Californium plasma desorption mass spectrometry. They are 3-O-([beta-D-galactopyranosyl (1-->2)][beta-D-galactopyranosyl (1-->3)]- beta-D-glucuronopyranosyl)-21-O-[3-(3-tigloyloxynilic acid)-4-tigloyloxy- alpha-L-arabinopyranosyl] barringtogenol C and 3-O-([beta-D-galactopyranosyl (1-->2)][beta-D-galactopyranosyl (1-->3)]-beta-D-glucuronopyranosyl)-28-O-alpha-L-rhamnopyranosyl barringtogenol C-21-O-benzoate. The absolute configuration of nilic acid was determined by partial synthesis. 3,3'-Dimethoxy ellagic acid and 3,3'-dimethoxy-4-O-beta-D- glucopyranosyl ellagic acid were also isolated.     

Absolute stereochemistry of altersolanol A and alterporriols

The absolute stereochemistry of altersolanol A (1) was established by observing a positive exciton couplet in the circular dichroism (CD) spectrum of the C3,C4-O-bis(2-naphthoyl) derivative 10 and by chemical correlations with known compound 8. Before the discussion, the relative stereochemistry of 1 was confirmed by X-ray crystallographic analysis. The shielding effect at C7'-OMe group by C1-O-benzoylation established the relative stereochemical relationship between the C8-C8' axial bonding and the C1-C4/C1'-C4' polyol moieties of alterporriols E (3), an atropisomer of the C8-C8' dimer of 1. As 3 could be obtained by dimerization of 1 in vitro, the absolute configuration of its central chirality elements (C1-C4) must be identical to those of 1. Spectral comparison between the experimental and theoretical CD spectra supported the above conclusion. Axial stereochemistry of novel C4-O-deoxy dimeric derivatives, alterporriols F (4) and G (5), were also revealed by comparison of their CD spectra to those of 2 and 3.     

Structure and conformation of a novel inhibitor of angiotensin I converting enzyme--a tripeptide containing phosphonic acid

A novel phosphotripeptide, (IR)-1-(N-(N-acetyl-L-isoleucyl)-L-tyrosyl)amino-2-(4-hydroxyphenyl)ethy l- phosphonic acid, is a potent inhibitor of angiotensin I converting enzyme (ACE). ACE inhibitory activity in vitro of the peptide is comparable to that of captopril. Its diethylester (C29H42N3O8P, molecular weight, 591.6) crystallizes in the monoclinic space group C2, with cell constants: a = 25.666(9), b = 9.590(8), c = 13.557(2)A, beta = 91.65(2) degrees, Z = 4, Dc = 1.17 g/cm3. The structure was solved by MULTAN 11/82 and refined by full matrix least-squares methods to a final R-factor of 0.063 for 2123 unique reflections (F greater than 3 sigma(F] measured on an Enraf-Nonius CAD-4 diffractometer (CuK alpha, lambda = 1.541 8 A, T = 295 K). The absolute configuration of the alpha-carbon where the phosphonic acid is attached was determined unequivocally by referring to the L-isoleucyl moiety whose absolute configuration is known. The conformation of the molecule is relatively rigid owing to the intramolecular requisites and the resultant relative disposition of hetero atoms, which are necessary to its biological activities, are confined to the corresponding disposition in captopril.