Flavonoid glycosides and ellagic acid cognates from defatted African mango (Irvingia gabonensis) seed kernel.

Seventeen compounds of diverse classes including four flavonoid glycosides, five ellagic acid derivatives, and eight other metabolites were isolated from the methanolic extract of the defatted seed kernel of Irvingia gabonensis. Among the isolates, quercetin 3-O-methyl-4'-[α-L-rhamnopyranosyl-(1→3)]-O-α-L-rhamnopyranoside (1) and 3,3'-di-O-methyl-4'-O-α-L-rhamnopyranosylellagic acid 4-sulfate ester (5) were found to be previously undescribed. Structure elucidation was mainly achieved by the interpretation of 1D and 2D NMR and HRESIMS spectral data. Though compound 6 was previously reported, its 13C NMR data is being reported herein for the first time. To the best of our literature search knowledge, this is the first phytochemical report on I. gabonensis seed kernels.

Free radical scavenging potency of ellagic acid and its derivatives in multiple H+/e‒ processes.

The reaction energetics of the multiple free radical scavenging mechanisms of ellagic acid and its derivatives were studied by DFT method. Ellagic acid and its derivatives that bear catechol or guaiacyl moieties can proceed multiple free radical scavenging processes. Intramolecular hydrogen-bonds were found in the most stable geometries of the investigated compounds and can influence the antioxidant activity of the related groups and hydrogen atom/proton loss sequence. The stronger hydrogen-bond, the weaker antioxidant activity of the hydrogen atom/proton-donating group. The preferred mechanisms vary among different phases. All of the investigated compounds prefer to trap free radicals by multiple HAT mechanisms in gas and benzene phases. The second HAT reaction preferably occurs in the same catechol or guaiacyl unit of the first HAT group with the formation of stable quinone or benzodioxole. The catechol and guaiacyl moieties not only retain high free radical scavenging ability of the parent compounds but even show increased potency for the second and fourth H+/e‒ reactions. In water phase, ellagic acid and its derivatives would proceed consecutively PL reactions from the OH groups. The formed di/tri/tetra-anion would proceed one/four electron transfers following with single/double SPLET mechanism and electron donation reactions until forming the stable quinone or benzodioxole.

Potential Anti-Tuberculosis Activity of the Extracts and Their Active Components of Anogeissus Leiocarpa (DC.) Guill. and Perr. with Special Emphasis on Polyphenols.

In Sudanese traditional medicine, decoctions of the stem bark of Anogeissus leiocarpa are used for the treatment of tuberculosis (TB). However, this plant has not been investigated before for its antimycobacterial effects. Our screening results show, for the first time, that many extracts of various parts of A. leiocarpa exhibit growth inhibitory activity against Mycobacterium smegmatis. Minimum inhibitory concentration (MIC) values ranged between 625 and 5000 µg/mL, with an ethyl acetate extract of the root showing the lowest MIC value. The good antimycobacterial effects of the root part could be due to its high concentration of ellagic acid derivatives, ellagitannins, and flavonoids. Thin layer chromatography (TLC) fractionation resulted in some fractions with better activity than the starting point crude methanol extract (MIC 2500 µg/mL). Those fractions with the lowest MIC values contained a high number of antioxidant compounds. Fractions 3 and 4 (MIC 1500 and 1000 µg/mL, respectively) contained high concentrations of di-methyl ellagic acid ([M-H] - 329.0318). Fraction 6 (MIC 2000 µg/mL) contained a lower concentration of di-methyl ellagic acid and was not as growth inhibitory as fractions 3 and 4. Moreover, in fraction 3, an acetylated ellagic acid derivative ([M-H] - 343.0477) and di-methyl-ellagic acid xyloside ([M-H]- 461.0739) were tentatively characterized. Di-methyl ellagic acid xyloside was also present in fraction 4 and could strongly contribute to the antimycobacterial effect of this fraction. Additionally, protocatechuic acid ([M-H]-at m/z 153.0196) was present in fraction 4. Our antimycobacterial results obtained from this research justify the use of A. leiocarpa in Sudanese folk medicine against cough related to TB. Roots, stem bark, and leaves of A. leiocarpa are sources for new potent anti-TB drug lead compounds.

Chemical constituents of Geum urbanum L. roots.

A new dehydrodigallic acid derivative (1), along with 19 known compounds, including 6 phenolic derivatives, 2 steroids and 11 triterpenoids were isolated from the ethanol extract of the root of Geum urbanum. Herein, there is the first report of steroid and triterpene in Geum urbanum. The purified metabolites were characterised by NMR spectroscopic and mass spectrometric analyses. The identification of the known compounds (2-20) was based on the comparison of their NMR spectroscopic features with previously published data. The structural characteristics of compound 1 were elucidated by comprehensive 1D and 2D NMR spectroscopic methods and acid hydrolysis.

Characterization and quantitation of the polyphenolic compounds detected in methanol extracts of Pistacia atlantica Desf. fruits from the Guelmim region of Morocco.

High performance liquid chromatography coupled with electrospray ionization mass spectrometry (HPLC-ESI-MS) was used for the identification of the major phenolic compounds in mature P. atlantica fruits from the Guelmim region (southeast of Morocco). In this study twenty seven polyphenolic compounds are identified and quantitated. To date, this is the most comprehensive report on the polyphenolic content of Pistacia fruits. The profiles comprise, three major polyphenolic classes, namely gallates (18.76g/kg; 63.92%), flavonoids (10.12g/kg; 34.48%) and ellagic acid derivatives (0.47g/kg; 1.60%) with a total of 29.35g/kg detected. The major gallate was pentagalloyl glucoside (5.0g/kg; 17.04% of total polyphenolics), the major flavonoid luteolin (3.18g/kg; 10.83% of total polyphenolics) and the major ellagic acid derivative ellagic acid (0.25g/kg; 0.85% of total polyphenolics). Identification of galloyl quinate, digalloyl quinates (x 2), galloyl glucoside, digalloyl glucosides (x 2), trigalloyl glucoside, tetragalloyl glucosides (x 2), pentagalloyl glucoside, 2″-O-galloyl-quercetin-3-O-galactoside, quercetin-3-O-rhamnogalactoside, quercetin-3-O-galactoside, ellagic acid diglucoside, luteolin-4'-O-glucoside, 2″-O-galloyl-luteolin-4'-O-glucoside, quercetin-3-O-glucuronide, kaempferol-3-O-glucoside, eriodictyol, apigenin, ellagic acid diglucoside, ellagic acid glucoside, methyl ellagic acid glucoside, and ellagic acid are described as phytochemical components of Pistacia fruits for the first time.

Flavonoids as chemotaxonomic markers in the genus Drosera.

The botanical classification of the huge genus Drosera remains controversial since long. In the present study, the pattern of major phenolic compounds in ten Drosera species belonging to seven different subgenera and/or sections of the genus was investigated for chemotaxonomic allocation. The composition of flavonoids and ellagic acid derivatives in Drosera adelae, Drosera burmannii, Drosera dielsiana, Drosera hilaris, Drosera montana, Drosera petiolaris, and Drosera pygmaea was elucidated for the first time. The scarce data on these compounds in Drosera binata, Drosera aliciae, and Drosera spatulata were complemented significantly. Detailed LC-DAD-MS, LC-NMR, and offline 1D and 2D NMR analyses resulted in the unambiguous identification of around 40 different substances, three of them (8-hydroxy-luteolin-8-O-arabinopyranoside, tricetin-7-O-xylopyranoside and 8-hydroxytricetin-8-O-arabinopyranoside) being natural products described for the first time. The distribution of the compounds characterized underlines their potential to serve as chemotaxonomic markers in this genus.

Ellagic acid derivatives from Terminalia chebula Retz. increase the susceptibility of Pseudomonas aeruginosa to stress by inhibiting polyphosphate kinase.

AIM: Polyphosphate kinase 1 (PPK1) plays an important role in virulence, antibiotic resistance and survival under stress conditions and, therefore, is an attractive therapeutic target to control infections caused by multiple drug resistant Pseudomonas aeruginosa. This study explores the PPK1 inhibiting activity of ellagic acid derivatives (EADs) from Terminalia chebula Retz. that could increase the susceptibility of Ps. aeruginosa to in vitro stress conditions. METHODS AND RESULTS: EADs reduced ppk1 gene expression by 93% (P < 0·05) and completely inhibited its activity (P < 0·01) at 0·5 mg ml(-1) . EADs-treated Ps. aeruginosa showed marked reduction in polyphosphate granules in cytosol. Expression of rpoS, the downstream master stress response regulator, was reduced by 94% (P < 0·05) and the sensitivity of Ps. aeruginosa increased many fold to desiccation, oxidative (H2 O2 ) and antibiotic (piperacillin) stresses. PPK-regulated swimming, swarming and twitching motilities and biofilm formation were also reduced significantly (P ≤ 0·05) in MPAO1 and the clinical strains of Ps. aeruginosa. CONCLUSION: EADs from T. chebula inhibited PPK1 expression and its activity and increased the sensitivity of Ps. aeruginosa to desiccation and oxidative stress while reducing tolerance to piperacillin. SIGNIFICANCE AND IMPACT OF THE STUDY: The study underlines the potential of EADs as therapeutic agent against Ps. aeruginosa.

Molecular docking studies on InhA, MabA and PanK enzymes from Mycobacterium tuberculosis of ellagic acid derivatives from Ludwigia adscendens and Trewia nudiflora.

PURPOSE: There is an urgent need to discover and develop new drugs to combat Mycobacterium tuberculosis, the causative agent of tuberculosis (TB) in humans. In recent years, there has been a renewed interest in the discovery of new anti-TB agents from natural sources. In the present investigation, molecular docking studies were carried out on two ellagic acid derivatives, namely pteleoellagic acid (1) isolated from Ludwigia adscendens, and 3,3'-di-O-methyl ellagic acid 4-O-α-rhamnopyranoside (2) isolated from Trewia nudiflora, to investigate their binding to two enzymes involved in M. tuberculosis cell wall biogenesis, namely 2-trans-enoyl-ACP reductase (InhA) and ß-ketoacyl-ACP reductase (MabA), and to pantothenate kinase (PanK type I) involved in the biosynthesis of coenzyme A, essential for the growth of M. tuberculosis. METHODS: Molecular docking experiments were performed using AutoDock Vina. The crystal structures of InhA, MabA and PanK were retrieved from the RCSB Protein Data Bank (PDB). Isonicotinic-acyl-NADH for InhA and MabA, and triazole inhibitory compound for PanK, were used as references. RESULTS: Pteleoellagic acid showed a high docking score, estimated binding free energy of -9.4 kcal/mol, for the MabA enzyme comparable to the reference compound isonicotinic-acyl-NADH. CONCLUSIONS: Knowledge on the molecular interactions of ellagic acid derivatives with essential M. tuberculosis targets could prove a useful tool for the design and development of future anti-TB drugs.

LC-NMR, NMR, and LC-MS identification and LC-DAD quantification of flavonoids and ellagic acid derivatives in Drosera peltata.

The herb of Drosera peltata, commonly named the shield sundew, is used as an antitussive in phytotherapy, although the plants' composition has not been determined in detail so far. Hence, in this study, we present a validated, sensitive, reliable, and cheap narrow-bore LC-DAD method for the simultaneous quantification of flavonoids and ellagic acid derivatives in this herbal drug. In addition, the structures of 13 compounds have been elucidated by LC-MS, LC-NMR, and offline NMR experiments after isolation: herbacetin-3-O-glucoside (1), gossypitrin (2), ellagic acid (3), quercetin-7-O-glucoside (4), isoquercitrin (5), kaempferol-3-O-(6″-O-galloyl)-glucoside (6), herbacetin-7-O-glucoside (7), astragalin (8), gossypetin (9), herbacetin (10), quercetin (11), 3,3'-di-O-methyl ellagic acid (12), and kaempferol (13). Compounds 1, 2, 4, 5, 6, 7, and 10 have been identified in D. peltata for the first time, and compounds 1, 4, 6, 7, and 10 have not been detected in any Drosera species before.

Ellagic acid and derivatives from Cochlospermum angolensis Welw. Extracts: HPLC-DAD-ESI/MS(n) profiling, quantification and in vitro anti-depressant, anti-cholinesterase and anti-oxidant activities.

INTRODUCTION: Cochlospermum angolensis Welw. bark is a medicinal plant consumed for the treatment of hepatic diseases and for the prophylaxis of malaria. Nevertheless, there are few studies concerning its chemical composition and biological potential. OBJECTIVE: Since phenolic compounds are described as powerful anti-oxidants and neuroprotective agents, the purpose of this study was to characterise the phenolic profile of this species and to extend the knowledge on its medicinal properties, namely its potential against oxidative stress, Alzheimer's disease and depression. METHODS: The phenolic composition of aqueous and hydromethanolic extracts was characterised by HPLC-DAD-ESI/MS(n) . Anti-radical potential was tested against 2,2-diphenyl-1-picrylhdrazyl, superoxide anion and nitric oxide radicals, and neuroprotective effect was assessed against acetylcholinesterase, butyrylcholinesterase and monoamine oxidase A. RESULTS: Eight compounds were characterised for the first time. Hydromethanolic extract was richer in methyl ellagic acid and its derivatives, while aqueous extract had higher amounts of ellagic acid and its derivatives. Methyl ellagic acid pentoside isomer and ellagic acid were the major compounds in the two extracts, respectively. Both extracts and ellagic acid revealed radical scavenging capacity stronger than that of ascorbic acid, but a weak effect on cholinesterases was observed. Their anti-depressant activity was also very strong. CONCLUSION: The results provided evidence of the value of C. angolensis as a source of health-promoting anti-oxidants and anti-depressant compounds, with potential to be used as a raw product for food and pharmaceutical industries.

Phytotoxic Allelochemicals From Roots and Root Exudates of Leafy Spurge (Euphorbia esula L.).

Invasive plants are a widespread problem but the mechanisms used by these plants to become invasive are often unknown. The production of phytotoxic natural products by invasive weeds is one mechanism by which these species may become successful competitors. Here we conducted a bioactivity-driven fractionation of root extracts and exudates from the invasive plant leafy spurge (Euphorbia esula L.), and structurally characterized jatrophane diterpenes and ellagic acid derivatives. Ellagic acid derivatives and one of the jatrophane diterpenes, esulone A, have been previously reported from leafy spurge, but another of the jatrophane diterpenes, kasuinine B, has not. We show that these compounds are phytotoxic but affect plants in different ways, either inducing overall plant necrosis or reducing root branching and elongation.

Studies on chemical constituents from Semiliquidambar cathayensis / 中草药

Object To isolate and identiified the chemical constituents from the EtOAc soluble fraction of the rhizome of Semiliquidambar cathayensis Chang with anti inflammatory activity Methods The EtOAc soluble fraction of anti inflammatory activity was determined on the basis of the mouse ear irritant assay by croton oil The chemical constituents were isolated by silica gel column chromatography, and their structures were identiified by IR, MS and NMR spectroscopic methods including HMQC and HMBC experiments Results Four oleanolic acid derivatives, oleanolic acid, 3 oxo olean 12 en 28 oic acid 2?, 3? dihydroxyolean 12 en 28 oic acid, 2?, 3?, 23 trihydroxyolean 12 en 28 oic acid (arjunolic acid); three ellagic acid derivatives, ellagic acid 3, 3′ dimethylether, ellagic acid 3, 3′, 4 trimethylether, and ellagic acid 4 O ? D xylopyranoside 3, 3′ dimethylether, together with ? sitosterol and octadecylic acid were obtained and identified Conclusion All the nine compounds were isolated for the first time from the title plant