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367. Formation and analysis of mannosylerythritol lipids secreted byPseudozyma aphidis.

Author

Rau, U., Nguyen, L., Schulz, S., Wray, V., Nimtz, M., Roeper, H., Koch, H., and Lang, S.

Subjects
*LIPIDS, *HIGH performance liquid chromatography, *GLUCOSE, *CARBON, *SOYBEAN
Abstract

Pseudozyma aphidisDSM 70725 was found to be a novel producer of mannosylerythritol lipids (MELs). The MELs were quantified by HPLC. Glucose as carbon source for precultivation supported growth well. By contrast, at concentrations>30 g l-1 in preculture, subsequent MEL formation in the main culture with soybean oil as sole carbon source was reduced. The type of substrate supply considerably influenced MEL formation. High concentrations of soybean oil (80 ml l-1) at init favored the production process when compared to a stepwise (20 ml l-1) addition. Mannose or erythritol were suitable second carbon sources that enhanced the MEL yield with soybean oil as preferred primary substrate. After 10 days, a maximum yield of 75 g l-1 was attained during shake-flask cultivation. Biofuel (rapeseed oil methyl ester) also resulted in high yields of MEL, but glucose reduced the MEL yield. Analysis by GC-MS showed that all fatty acids contained in MEL and derived from soybean oil or related methyl ester were degraded by C2-units to differing extents. The surface (water/air) and interfacial (water/hexadecane) tension of the MELs produced from different carbon sources were reduced to a minimum of 26.2 mN m-1 and 1 mN m-1, respectively. [ABSTRACT FROM AUTHOR]

Published
2005
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368. Diglucosyl-glycerolipids from the marine sponge-associated Bacillus pumilus strain AAS3: their production, enzymatic modification and properties.

Author

Ramm, W., Schatton, W., Wagner-Döbler, I., Wray, V., Nimtz, M., Tokuda, H., Enjyo, F., Nishino, H., Beil, W., Heckmann, R., Lurtz, V., and Lang, S.

Subjects
*BACILLUS (Bacteria), *FATTY acids, *SEAWATER, *NITROGEN, *PHOSPHATES, *GLUCOSE, *LIPASES
Abstract

The marine strain Bacillus pumilus strain AAS3, isolated from the Mediterranean sponge Acanthella acuta, produced a diglucosyl-glycerolipid, 1,2-O-diacyl-3-[β-glucopyranosyl-(1–6)-β-glucopyranosyl)]glycerol, with 14-methylhexadecanoic acid and 12-methyltetradecanoic acid as the main fatty acid moieties (GGL11). On a 30 l scale, using artificial seawater supplemented with glucose (20 g/l), yeast extract (10 g/l), and suitable nitrogen/phosphate sources, growth-associated glycoglycerolipid production reached its maximum yield of 90 mg/l after 11 h. Lipase-catalyzed modification of the native substance led to the deacylated parent compound (GG11), which could be reacylated using the same enzyme system to afford a new dipentenoyl-diglucosylglycerol (GGL12) as the major product upon addition of 4-pentenoic acid to the medium. GGL11 decreased the surface tension of water from 72 mN/m to 29 mN/m and the interfacial tension of the water/n-hexadecane system from 44 to 5 mN/m. Anti-tumor-promoting studies on this class of diglucosyl glycerol products showed that the carbohydrate/glycerol backbone (GG11) has a more potent inhibitory activity than the acylated compounds. The diglucosyl-glycerol GG11 strongly inhibited growth of the tumor cell lines HM02 and Hep G2 (50% inhibition at ~1 μg/ml), while the glycerolipids GGL11 and GGL12 were less active or had no effect. [ABSTRACT FROM AUTHOR]

Published
2004
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371. Structure Elucidation of Antibiotics by Nmr Spectroscopy.

Author

Daletos G, Ancheeva E, Orfali RS, Wray V, and Proksch P

Subjects
Carbon-13 Magnetic Resonance Spectroscopy, Peptides, Cyclic chemistry, Proton Magnetic Resonance Spectroscopy, Anti-Bacterial Agents chemistry, Magnetic Resonance Spectroscopy methods
Abstract

Nuclear magnetic resonance (NMR) spectroscopy is a powerful tool for the structure elucidation of antibiotics in solution. Over the past 30 years there have been numerous publications describing the use of NMR to characterize naturally derived or synthetic antibiotics. A large number of one-dimensional (1D) and two-dimensional (2D) NMR methods are available today and the list continues to expand. In this chapter, we will consider the key NMR experiments that provide useful information for compound structure elucidation.

Published
2017
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372. Flavanone and isoflavone glucosylation by non-Leloir glycosyltransferases.

Author

Overwin H, Wray V, Seeger M, Sepúlveda-Boza S, and Hofer B

Subjects
Bacterial Proteins genetics, Escherichia coli genetics, Escherichia coli metabolism, Flavanones chemistry, Glucosyltransferases genetics, Glycosylation, Glycosyltransferases genetics, Isoflavones chemistry, Recombinant Proteins genetics, Bacterial Proteins metabolism, Flavanones metabolism, Glucosyltransferases metabolism, Glycosyltransferases metabolism, Isoflavones metabolism, Recombinant Proteins metabolism
Abstract

Flavonoids possess a wide range of biological activities. Their glycosylation is of considerable interest, as it often positively influences their pharmacokinetic and other molecular properties. We recently showed that two non-Leloir glycosyltransferases that use sucrose as carbohydrate donor, an amylosucrase from Neisseria polysaccharea (Ams-Np) and a glucansucrase from Streptococcus oralis (GtfR-So), were hardly able to glucosylate flavones, but accepted flavanes as substrates. We now examined compounds from two other flavonoid classes, flavanones and isoflavones for glucose transfer by these enzymes. Taxifolin was investigated as a flavanone analogue of both, the accepted pentahydroxyflavane catechin and the non-accepted pentahydroxyflavone quercetin. It was glucosylated by both enzymes, but much better by GtfR-So than by Ams-Np due to apparent strong inhibition of the latter. The acceptance of a collection of isoflavones strongly depended on the substitution pattern of the core. Only two of the 10 compounds examined yielded glucosides in satisfactory amounts. With these substrates, both enzymes catalyzed formation of a range of products, differing in the number of saccharide units. The structures of mono- and diglycosylated compounds obtained in higher amounts were elucidated. While GtfR-So attached glucose to taxifolin in the B ring at O4', both enzymes glucosylated the isoflavones in the A ring at O7. All products were α-glucosides. Interglycosidic linkages formed by Ams-Np were α1-4. To our knowledge, this is the first report of glucosylation of flavanone and isoflavone aglycones by an amylosucrase. All characterized compounds have not previously been described., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published
2016
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373. An aryl dioxygenase shows remarkable double dioxygenation capacity for diverse bis-aryl compounds, provided they are carbocyclic.

Author

Overwin H, González M, Méndez V, Seeger M, Wray V, and Hofer B

Subjects
Oxidation-Reduction, Recombinant Fusion Proteins metabolism, Substrate Specificity, Carboxylic Acids metabolism, Dioxygenases metabolism, Hydrocarbons, Cyclic metabolism
Abstract

The bacterial dioxygenation of mono- or polycyclic aromatic compounds is an intensely studied field. However, only in a few cases has the repeated dioxygenation of a substrate possessing more than a single aromatic ring been described. We previously characterized the aryl-hydroxylating dioxygenase BphA-B4h, an artificial hybrid of the dioxygenases of the biphenyl degraders Burkholderia xenovorans LB400 and Pseudomonas sp. strain B4-Magdeburg, which contains the active site of the latter enzyme, as an exceptionally powerful biocatalyst. We now show that this dioxygenase possesses a remarkable capacity for the double dioxygenation of various bicyclic aromatic compounds, provided that they are carbocyclic. Two groups of biphenyl analogues were examined: series A compounds containing one heterocyclic aromatic ring and series B compounds containing two homocyclic aromatic rings. Whereas all of the seven partially heterocyclic biphenyl analogues were solely dioxygenated in the homocyclic ring, four of the six carbocyclic bis-aryls were converted into ortho,meta-hydroxylated bis-dihydrodiols. Potential reasons for failure of heterocyclic dioxygenations are discussed. The obtained bis-dihydrodiols may, as we also show here, be enzymatically re-aromatized to yield the corresponding tetraphenols. This opens a way to a range of new polyphenolic products, a class of compounds known to exert multiple biological activities. Several of the obtained compounds are novel molecules.

Published
2016
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375. Flavonoid glycosides from Olax mannii: Structure elucidation and effect on the nuclear factor kappa B pathway.

Author

Okoye FB, Sawadogo WR, Sendker J, Aly AH, Quandt B, Wray V, Hensel A, Esimone CO, Debbab A, Diederich M, and Proksch P

Subjects
Cell Survival drug effects, Flavonoids analysis, Flavonoids chemistry, Glycosides analysis, Glycosides chemistry, Humans, K562 Cells, Molecular Structure, Plant Leaves chemistry, Signal Transduction drug effects, Flavonoids pharmacology, Glycosides pharmacology, NF-kappa B metabolism, Olacaceae
Abstract

Ethnopharmacological Relevance: Olax mannii Oliv. (Olacaceae) is among the many medicinal plants used in Nigeria for the ethnomedicinal management of both cancer and inflammation. Such plants represent potential sources of innovative therapeutic agents for the treatment of cancer and other malignant disorders. While the majority of medicinal plants exert their anticancer effects by direct cytotoxicity on tumor cells, it is important that other mechanisms through which these plants can exhibit anticancer effects are investigated. Preliminary studies indicated that Olax mannii leaves are rich sources of novel flavonoid glycosides. The detailed chemistry as well the mechanisms through which these flavonoid constituents may exert their cancer chemo-preventive and therapeutic effects are, however, not yet investigated., Aim of the Study: The aim of this study is to carry out a detailed chemical investigation of Olax mannii leaves and the effects of the isolated constituents on the nuclear factor kappa B (NF-κB) pathway., Materials and Methods: A methanol leaf extract was subjected to various chromatographic separations to achieve isolation of flavonoid glycosides and the structures of the isolated compounds were elucidated by a combination of 1D and 2D NMR and high resolution mass spectrometry. Biological activities were assessed by measurement of cellular viability and proliferation using quantitative IncuCyte videomicroscopy, trypan blue staining and by quantification of the number of metabolically active K562 cells based on quantitation of ATP. The effect of the compounds on the inhibition of the NF-κB pathway as well as toxicity towards peripheral blood mononuclear cells to evaluate differential toxicity was also assayed., Results: Chemical investigation of the methanol leaf extract of the plant material led to the isolation of three new flavonoid triglycosides, kaempferol 3-O-[α-D-apiofuranosyl-(1 → 2)-α-L-arabinofuranoside]-7-O-α-L-rhamnopyranoside (1), kaempferol 3-O-[β-D-glucopyranosyl-(1 → 2)-α-L-arabinofuranoside]-7-O-α-L-rhamnopyranoside (2), kaempferol 3-O-[β-D-arabinopyranosyl-(1→4)-α-L-rhamnopyranoside]-7-O-α-L-rhamnopyranoside (3), in addition to fourteen known flavonoid glycosides (4-17). Of all the tested compounds, only compound 9 (kaempferol 3-O-α-L-rhamnopyranoside) exhibited promising and specific antiproliferative activity on human K562 chronic myelogenous leukemia cells and dose-dependently inhibited NF-κB transactivation., Conclusion: The presence of this flavonoid glycoside and derivatives may account for the reported efficacy of Olax mannii leaf extract in the ethnomedicinal management of cancer and inflammation., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published
2015
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376. Flavonoid glucosylation by non-Leloir glycosyltransferases: formation of multiple derivatives of 3,5,7,3',4'-pentahydroxyflavane stereoisomers.

Author

Overwin H, Wray V, and Hofer B

Subjects
Glycosylation, Stereoisomerism, Flavonoids metabolism, Glycosyltransferases metabolism, Neisseria enzymology, Streptococcus oralis enzymology
Abstract

Flavonoids are known to possess a multitude of biological activities. Therefore, diversification of the core structures is of considerable interest. One of nature's important tailoring reactions in the generation of bioactive compounds is glycosylation, which is able to influence numerous molecular properties. Here, we examined two non-Leloir glycosyltransferases that use sucrose as an inexpensive carbohydrate donor, glycosyltransferase R from Streptococcus oralis (GtfR) and amylosucrase from Neisseria polysaccharea (Ams), for the glucosylation of flavonoids. Flavones generally were poor substrates. Several inhibited Ams. In contrast, flavanes were well accepted by both enzymes. All glucose attachments occurred via α1 linkages. Comparison of the three available stereoisomers of 3,5,7,3',4'-pentahydroxyflavane revealed significant differences in glycoside formation between them as well as between the two enzymes. The latter were shown to possess largely complementary product ranges. Altogether, three of the four hydroxy substituents of the terminal flavonoid rings were glycosylated. Typically, Ams glucosylated the B ring at position 3', whereas GtfR glucosylated this ring at position 4' and/or the A ring at position 7. In several instances, short carbohydrate chains were attached to the aglycones. These contained α 1-4 linkages when formed by Ams, but α 1-3 bonds when generated by GtfR. The results show that both enzymes are useful catalysts for the glucodiversification of flavanes. In total, more than 16 products were formed, of which seven have previously not been described.

Published
2015
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377. Biotransformation of phloretin by amylosucrase yields three novel dihydrochalcone glucosides.

Author

Overwin H, Wray V, and Hofer B

Subjects
Biocatalysis drug effects, Biotransformation drug effects, Cell Death drug effects, Cell Line, Tumor, Glycosylation drug effects, Humans, Magnetic Resonance Spectroscopy, Phloretin chemistry, Phloretin toxicity, Time Factors, Chalcones metabolism, Glucosides metabolism, Glucosyltransferases metabolism, Phloretin metabolism
Abstract

Glycosylation is one of the most important tailoring reactions for natural products. It typically exerts profound direct or indirect effects on their biological activity. The dihydrochalcone phloretin and its known sugar derivatives, particularly phlori(d)zin, have been shown to influence various cellular processes. We found that a non-Leloir glycosyltransferase, amylosucrase from Neisseria polysaccharea, is an excellent catalyst for the stereospecific glucosylation of phloretin at the 4' position. Three novel phloretin derivatives were obtained, the first ones in which the sugar-aglycone bond possesses the configuration. A first biological characterization in a cell viability assay showed that each sugar attachment reduced the compound toxicity approximately two-fold., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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379. Pinensins: the first antifungal lantibiotics.

Author

Mohr KI, Volz C, Jansen R, Wray V, Hoffmann J, Bernecker S, Wink J, Gerth K, Stadler M, and Müller R

Subjects
Amino Acid Sequence, Molecular Sequence Data, Antifungal Agents chemistry, Antifungal Agents pharmacology, Bacteriocins chemistry, Bacteriocins pharmacology
Abstract

Lantibiotics (lanthionine-containing antibiotics) from Gram-positive bacteria typically exhibit activity against Gram-positive bacteria. The activity and structure of pinensin A (1) and B (2), lantibiotics isolated from a native Gram-negative producer Chitinophaga pinensis are described. Surprisingly, the pinensins were found to be highly active against many filamentous fungi and yeasts but show only weak antibacterial activity. To the best of our knowledge, lantibiotic fungicides have not been described before. An in-depth bioinformatic analysis of the biosynthetic gene cluster established the ribosomal origin of these compounds and identified candidate genes encoding all of the enzymes required for post-translational modification. Additional encoded functions enabled us to build up a hypothesis for the biosynthesis, export, sensing, and import of this intriguing lantibiotic., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2015
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380. Permissivity of the biphenyl-specific aerobic bacterial metabolic pathway towards analogues with various steric requirements.

Author

Overwin H, Standfuß-Gabisch C, González M, Méndez V, Seeger M, Reichelt J, Wray V, and Hofer B

Subjects
Bacteria, Aerobic genetics, Bacteria, Aerobic growth & development, Dioxygenases metabolism, Gas Chromatography-Mass Spectrometry, Hydrocarbons, Aromatic metabolism, Hydrolysis, Nuclear Magnetic Resonance, Biomolecular, Oxidation-Reduction, Bacteria, Aerobic metabolism, Biphenyl Compounds metabolism, Metabolic Networks and Pathways
Abstract

It has repeatedly been shown that aryl-hydroxylating dioxygenases do not possess a very high substrate specificity. To gain more insight into this phenomenon, we examined two powerful biphenyl dioxygenases, the well-known wild-type enzyme from Burkholderia xenovorans LB400 (BphA-LB400) and a hybrid enzyme, based on a dioxygenase from Pseudomonas sp. B4-Magdeburg (BphA-B4h), for their abilities to dioxygenate a selection of eight biphenyl analogues in which the second aromatic ring was replaced by aliphatic as well as aliphatic/aromatic moieties, reflecting a variety of steric requirements. Interestingly, both enzymes were able to catalyse transformation of almost all of these compounds. While the products formed were identical, major differences were observed in transformation rates. In most cases, BphA-B4h proved to be a significantly more powerful catalyst than BphA-LB400. NMR characterization of the reaction products showed that the metabolite obtained from biphenylene underwent angular dioxygenation, whereas all other compounds were subject to lateral dioxygenation at ortho and meta carbons. Subsequent growth studies revealed that both dioxygenase source strains were able to utilize several of the biphenyl analogues as sole sources of carbon and energy. Therefore, prototype BphBCD enzymes of the biphenyl degradative pathway were examined for their ability to further catabolize the lateral dioxygenation products. All of the ortho- and meta-hydroxylated compounds were converted to acids, showing that this pathway is quite permissive, enabling catalysis of the turnover of a fairly wide variety of metabolites.

Published
2015
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381. Callyaerins from the Marine Sponge Callyspongia aerizusa: Cyclic Peptides with Antitubercular Activity.

Author

Daletos G, Kalscheuer R, Koliwer-Brandl H, Hartmann R, de Voogd NJ, Wray V, Lin W, and Proksch P

Subjects
Animals, Antitubercular Agents chemistry, Drug Screening Assays, Antitumor, Humans, Marine Biology, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Peptides, Cyclic chemistry, Antitubercular Agents isolation & purification, Antitubercular Agents pharmacology, Callyspongia chemistry, Mycobacterium tuberculosis drug effects, Peptides, Cyclic isolation & purification, Peptides, Cyclic pharmacology
Abstract

Chemical investigation of the Indonesian sponge Callyspongia aerizusa afforded five new cyclic peptides, callyaerins I-M (1-5), along with the known callyaerins A-G (6-12). The structures of the new compounds were unambiguously elucidated on the basis of one- and two-dimensional NMR spectroscopy and mass spectrometry. In addition, the structures of callyaerins D (9), F (11), and G (12), previously available in only small amounts, have been reinvestigated and revised. All compounds were tested in vitro against Mycobacterium tuberculosis, as well as against THP-1 (human acute monocytic leukemia) and MRC-5 (human fetal lung fibroblast) cell lines, in order to assess their general cytotoxicity. Callyaerins A (6) and B (7) showed potent anti-TB activity with MIC₉₀ values of 2 and 5 μM, respectively. Callyaerin C (8) was found to be less active, with an MIC₉₀ value of 40 μM. Callyaerin A (6), which showed the strongest anti-TB activity, was not cytotoxic to THP-1 or MRC-5 cells (IC₅₀ > 10 μM), which highlights the potential of these compounds as promising anti-TB agents.

Published
2015
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382. Isolation of dimeric, trimeric, tetrameric and pentameric procyanidins from unroasted cocoa beans (Theobroma cacao L.) using countercurrent chromatography.

Author

Esatbeyoglu T, Wray V, and Winterhalter P

Subjects
Magnetic Resonance Spectroscopy, Molecular Structure, Plant Extracts chemistry, Polymers analysis, Biflavonoids chemistry, Cacao chemistry, Catechin chemistry, Chromatography methods, Proanthocyanidins chemistry
Abstract

The main procyanidins, including dimeric B2 and B5, trimeric C1, tetrameric and pentameric procyanidins, were isolated from unroasted cocoa beans (Theobroma cacao L.) using various techniques of countercurrent chromatography, such as high-speed countercurrent chromatography (HSCCC), low-speed rotary countercurrent chromatography (LSRCCC) and spiral-coil LSRCCC. Furthermore, dimeric procyanidins B1 and B7, which are not present naturally in the analysed cocoa beans, were obtained after semisynthesis of cocoa bean polymers with (+)-catechin as nucleophile and separated by countercurrent chromatography. In this way, the isolation of dimeric procyanidin B1 in considerable amounts (500mg, purity>97%) was possible in a single run. This is the first report concerning the isolation and semisynthesis of dimeric to pentameric procyanidins from T. cacao by countercurrent chromatography. Additionally, the chemical structures of tetrameric (cinnamtannin A2) and pentameric procyanidins (cinnamtannin A3) were elucidated on the basis of (1)H NMR spectroscopy. Interflavanoid linkage was determined by NOE-correlations, for the first time., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
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383. Production, Structural Elucidation, and In Vitro Antitumor Activity of Trehalose Lipid Biosurfactant from Nocardia farcinica Strain.

Author

Christova N, Lang S, Wray V, Kaloyanov K, Konstantinov S, and Stoineva I

Subjects
Adult, Aged, Antineoplastic Agents isolation & purification, Apoptosis drug effects, Cell Line, Tumor, Dose-Response Relationship, Drug, Female, Humans, Inhibitory Concentration 50, Lymphocytes drug effects, Male, Middle Aged, Molecular Structure, Nocardia classification, Nocardia genetics, Nocardia isolation & purification, Proton Magnetic Resonance Spectroscopy, Soil Microbiology, Surface-Active Agents isolation & purification, Trehalose isolation & purification, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Nocardia metabolism, Surface-Active Agents chemistry, Surface-Active Agents pharmacology, Trehalose chemistry, Trehalose pharmacology
Abstract

The objective of this study was to isolate and identify the chemical structure of a biosurfactant produced by Nocardia farcinica strain BN26 isolated from soil, and evaluate its in vitro antitumor activity on a panel of human cancer cell lines. Strain BN26 was found to produce glycolipid biosurfactant on n-hexadecane as the sole carbon source. The biosurfactant was purified using medium-pressure liquid chromatography and characterized as trehalose lipid tetraester (THL) by nuclear magnetic resonance spectroscopy and mass spectrometry. Subsequently, the cytotoxic effects of THL on cancer cell lines BV-173, KE-37 (SKW-3), HL-60, HL-60/DOX, and JMSU-1 were evaluated by MTT assay. It was shown that THL exerted concentration-dependent antiproliferative activity against the human tumor cell lines and mediated cell death by the induction of partial oligonucleosomal DNA fragmentation. These findings suggest that THL could be of potential to apply in biomedicine as a therapeutic agent.

Published
2015
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385. New nitrogenous compounds from a Red Sea sponge from the Gulf of Aqaba.

Author

AlTarabeen M, Hassan Aly A, Perez Hemphill CF, Rasheed M, Wray V, and Proksch P

Subjects
Alkaloids isolation & purification, Alkaloids pharmacology, Animals, Cell Line, Tumor, Mice, Nitrogen Compounds isolation & purification, Nitrogen Compounds pharmacology, Alkaloids chemistry, Nitrogen Compounds chemistry, Porifera chemistry
Abstract

Chemical investigation of an unknown marine sponge, which was collected in the Gulf of Aqaba (Jordan), afforded a new brominated alkaloid 3-amino-1-(2-amino-4-bromophenyl)propan-1-one (1), as well as 7-bromoquinolin-4(1H)-one (2) which had previously only been reported as a synthetic compound. In addition, caulerpin (6), previously only known to be produced by algae, was likewise isolated. Furthermore, three known alkaloids including (Z)-5-(4-hydroxybenzylidene)-hydantoin, (Z)-6-bromo-3'-deimino-2',4'-bis(demethyl)-3'-oxoaplysinopsin, and 6-bromoindole-3-carbaldehyde (3-5), were also obtained. All compounds were unambiguously elucidated based on extensive 1D and 2D NMR spectroscopy, LCMS, as well as by comparison with the literature and tested for their cytotoxic activity toward the mouse lymphoma cell line L5178Y.

Published
2015
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386. Trehalose lipid biosurfactants produced by the actinomycetes Tsukamurella spumae and T. pseudospumae.

Author

Kügler JH, Muhle-Goll C, Kühl B, Kraft A, Heinzler R, Kirschhöfer F, Henkel M, Wray V, Luy B, Brenner-Weiss G, Lang S, Syldatk C, and Hausmann R

Subjects
Chromatography, Gel, Culture Media chemistry, Lipids isolation & purification, Magnetic Resonance Spectroscopy, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Surface-Active Agents isolation & purification, Tandem Mass Spectrometry, Trehalose isolation & purification, Actinobacteria metabolism, Lipid Metabolism, Surface-Active Agents metabolism, Trehalose metabolism
Abstract

Actinomycetales are known to produce various secondary metabolites including products with surface-active and emulsifying properties known as biosurfactants. In this study, the nonpathogenic actinomycetes Tsukamurella spumae and Tsukamurella pseudospumae are described as producers of extracellular trehalose lipid biosurfactants when grown on sunflower oil or its main component glyceryltrioleate. Crude extracts of the trehalose lipids were purified using silica gel chromatography. The structure of the two trehalose lipid components (TL A and TL B) was elucidated using a combination of matrix-assisted laser desorption/ionization time-of-flight/time-of-flight/tandem mass spectroscopy (MALDI-ToF-ToF/MS/MS) and multidimensional NMR experiments. The biosurfactants were identified as 1-α-glucopyranosyl-1-α-glucopyranosid carrying two acyl chains varying of C4 to C6 and C16 to C18 at the 2' and 3' carbon atom of one sugar unit. The trehalose lipids produced demonstrate surface-active behavior and emulsifying capacity. Classified as risk group 1 organisms, T. spumae and T. pseudospumae hold potential for the production of environmentally friendly surfactants.

Published
2014
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387. Trimeric anthracenes from the endophytic fungus Stemphylium globuliferum.

Author

Liu Y, Wray V, Abdel-Aziz MS, Wang CY, Lai D, and Proksch P

Subjects
Anthracenes chemistry, Egypt, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Anthracenes isolation & purification, Ascomycota chemistry
Abstract

The first naturally occurring trimeric anthracene derivatives, stemphylanthranols A and B (1 and 2), were obtained from the endophytic fungus Stemphylium globuliferum that had been isolated from Juncus actus growing in Egypt. The structures of the new compounds were unambiguously determined by 1D and 2D NMR, and by HRMS. A hypothetical biosynthetic pathway for the new trimers is proposed.

Published
2014
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388. Semisynthetic preparation and isolation of dimeric procyanidins B1-B8 from roasted hazelnut skins (Corylus avellana L.) on a large scale using countercurrent chromatography.

Author

Esatbeyoglu T, Juadjur A, Wray V, and Winterhalter P

Subjects
Chromatography, High Pressure Liquid, Circular Dichroism, Dimerization, Magnetic Resonance Spectroscopy, Proanthocyanidins chemistry, Corylus chemistry, Countercurrent Distribution methods, Proanthocyanidins chemical synthesis, Proanthocyanidins isolation & purification
Abstract

Dimeric procyanidins B1-B8 were produced via semisynthesis from a polymeric proanthocyanidin fraction of hazelnut skins (Corylus avellana L.). This polymeric fraction was found to consist mostly of (+)-catechin and (-)-epicatechin as upper units. Therefore, according to the choice of nucleophile agent, it is possible to semisynthesize dimeric procyanidins B1, B3, B6, and B7 with (+)-catechin and B2, B4, B5, and B8 with (-)-epicatechin. The semisynthetic mixtures were separated on a preparative scale using high-speed countercurrent chromatography (HSCCC) and low-speed rotary countercurrent chromatography (LSRCCC). C4 → C8 linked dimeric procyanidins B1-B4 were isolated in amounts of 350-740 mg. To the best of the authors' knowledge this is the first study isolating dimeric procyanidins B1-B8 in large amounts with countercurrent chromatography. Moreover, the dimeric prodelphinidins B1, B2, and B3 and their structural elucidation by (1)H NMR spectroscopy without derivatization are described for hazelnuts as natural compounds for the first time.

Published
2014
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389. Balticidins A-D, antifungal hassallidin-like lipopeptides from the Baltic Sea cyanobacterium Anabaena cylindrica Bio33.

Author

Bui TH, Wray V, Nimtz M, Fossen T, Preisitsch M, Schröder G, Wende K, Heiden SE, and Mundt S

Subjects
Antifungal Agents chemistry, Antifungal Agents pharmacology, Aspergillus fumigatus drug effects, Candida albicans drug effects, Chromatography, High Pressure Liquid, Cyanobacteria chemistry, Germany, Lipopeptides chemistry, Lipopeptides pharmacology, Microbial Sensitivity Tests, Microsporum drug effects, Molecular Structure, Mucor drug effects, Nuclear Magnetic Resonance, Biomolecular, Oceans and Seas, Peptides, Cyclic chemistry, Peptides, Cyclic pharmacology, Anabaena cylindrica chemistry, Antifungal Agents isolation & purification, Lipopeptides isolation & purification, Peptides, Cyclic isolation & purification
Abstract

Balticidins A-D (1-4), four new antifungal lipopeptides, were isolated from the laboratory-cultivated cyanobacterium Anabaena cylindrica strain Bio33 isolated from a water sample collected from the Baltic Sea, Rügen Island, Germany. Fractionation of the 50% aqueous MeOH extract was performed by bioassay-guided silica gel column chromatography followed by SPE and repeated reversed-phase HPLC. The main fraction containing the compounds exhibited a strong and specific antifungal activity with inhibition zones in an agar-diffusion assay from 21 to 32 mm against Candida albicans, Candida krusei, Candida maltosa, Aspergillus fumigatus, Microsporum gypseum, Mucor sp., and Microsporum canis. The structures were elucidated by multidimensional (1)H and (13)C NMR spectroscopy, HRESIMS, amino acid analysis, and sugar analysis. Spectroscopic data analysis afforded an unambiguous sequence of R.CHO(S1).CHOH.CONH-Thr(1)-Thr(2)-Thr(3)-HOTyr(4)-Dhb(5)-D-Gln(6)-Gly(7)-NMeThr(8)(S2)-L-Gln COOH(9), in which Dhb is dehydroaminobutyric acid, S1 is d(-)-arabinose-(3-1)-D-(+)-galacturonic acid, S2 is D-(+)-mannose, and R is the aliphatic residue -C13H26Cl or -C13H27. Besides NMeThr, D-allo-Thr, D-Thr, and L-Thr were identified, but the position of the enantiomers in the sequence is not clear. The four balticidins differ in their cyclic (2, 4)/linear (1, 3) core and the presence (1, 2)/absence (3, 4) of chlorine in the aliphatic unit.

Published
2014
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390. Structure of a novel farnesylated bilin from an insect--formation by α-cleavage of heme A of mitochondrial cytochrome c oxidases?

Author

Kayser H, Wray V, and Nimtz M

Subjects
Acetylation, Animals, Biliverdine chemistry, Female, Heme chemistry, Heme metabolism, Magnetic Resonance Spectroscopy, Male, Mitochondria metabolism, Molecular Structure, Moths growth & development, Moths metabolism, Prenylation, Spectrophotometry, Bile Pigments chemistry, Bile Pigments metabolism, Carrier Proteins chemistry, Carrier Proteins metabolism, Electron Transport Complex IV chemistry, Electron Transport Complex IV metabolism, Heme analogs & derivatives, Insect Proteins chemistry, Insect Proteins metabolism
Abstract

Biliproteins are present in almost all forms of life, and many of them play vital roles in photobiology. The bilin ligand of a recently characterized 500-kDa biliprotein from an insect has been isolated and its structure elucidated with chemical and spectroscopic techniques (UV-visible, IR, MS, NMR, and CD). This blue pigment, named CV-bilin, represents a unique high molecular mass derivative of biliverdin IXα, with an unusual 10E-configuration and a molecular mass of 852 Da, corresponding to C48H60N4O10. The high mass of this open-chain tetrapyrrole results from the presence of an epoxi-dihydroxyethylfarnesyl substituent at C-18 and a hydroxymethyl substituent at C-13. This substitution pattern exactly reflects that of heme A of mitochondrial cytochrome c oxidases with a hydroxyethylfarnesyl chain and a formyl group at corresponding positions of the cyclic tetrapyrrole. As no other natural product is known to show these structural features (heme O, the precursor of heme A, has a methyl group at C-13), this bilin is presumed to be derived from heme A by cleavage of the α-methine bridge and oxidative modifications at C-13 and the hydroxyethylfarnesyl chain. Possibly, a bilin structurally related to this insect bilin is also produced in other organisms as a result of mitochondrial turnover or degradation. As CV-bilin in complex with a specific protein is accumulated at the end of larval life, stored in the pupa, and finally transferred to the oocytes, a possible role of the free or protein-bound pigment in egg or embryonic development is discussed., (© 2014 FEBS.)

Published
2014
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391. Cytotoxic and protein kinase inhibiting nakijiquinones and nakijiquinols from the sponge Dactylospongia metachromia.

Author

Daletos G, de Voogd NJ, Müller WE, Wray V, Lin W, Feger D, Kubbutat M, Aly AH, and Proksch P

Subjects
Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Benzoxazoles chemistry, Benzoxazoles pharmacology, Drug Screening Assays, Antitumor, Humans, Inhibitory Concentration 50, Marine Biology, Mice, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Protein Kinase Inhibitors chemistry, Protein Kinase Inhibitors pharmacology, Quinones chemistry, Quinones pharmacology, Sesquiterpenes chemistry, Sesquiterpenes pharmacology, Antineoplastic Agents isolation & purification, Benzoxazoles isolation & purification, Porifera chemistry, Protein Kinase Inhibitors isolation & purification, Quinones isolation & purification, Sesquiterpenes isolation & purification
Abstract

Chemical investigation of the sponge Dactylospongia metachromia afforded five new sesquiterpene aminoquinones (1-5), two new sesquiterpene benzoxazoles (6 and 7), the known analogue 18-hydroxy-5-epi-hyrtiophenol (8), and a known glycerolipid. The structures of all compounds were unambiguously elucidated by one- and two-dimensional NMR and by MS analyses, as well as by comparison with the literature. Compounds 1-5 showed potent cytotoxicity against the mouse lymphoma cell line L5178Y with IC50 values ranging from 1.1 to 3.7 μM. When tested in vitro for their inhibitory potential against 16 different protein kinases, compounds 5, 6, and 8 exhibited the strongest inhibitory activity against ALK, FAK, IGF1-R, SRC, VEGF-R2, Aurora-B, MET wt, and NEK6 kinases (IC50 0.97-8.62 μM).

Published
2014
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392. Identification of two novel Prodelphinidin A-type dimers from roasted hazelnut skins ( Corylus avellana L.).

Author

Esatbeyoglu T, Wray V, and Winterhalter P

Subjects
Chromatography, High Pressure Liquid, Countercurrent Distribution, Dimerization, Mass Spectrometry, Molecular Structure, Anthocyanins chemistry, Corylus chemistry, Plant Extracts chemistry, Seeds chemistry
Abstract

Two new A-type dimeric prodelphinidins, EGC-(2β→O7, 4β→8)-C and EGC-(2β→O5, 4β→6)-C, were isolated from the skins of roasted hazelnut ( Corylus avellana L.) by low-speed rotary countercurrent chromatography (LSRCCC) and final purification by preparative HPLC. Their structures were determined by a combination of mass spectrometry (HPLC-ESI-MS(n) and HR-ESI-MS) and NMR spectroscopy that included the application of 2D methods ((1)H-(1)H COSY, HSQC, HMBC, and NOESY). Furthermore, circular dichroism (CD) and acid-catalyzed degradation (phloroglucinolysis) confirmed the proposed structures.

Published
2013
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393. Pro-apoptotic and immunostimulatory tetrahydroxanthone dimers from the endophytic fungus Phomopsis longicolla.

Author

Rönsberg D, Debbab A, Mándi A, Vasylyeva V, Böhler P, Stork B, Engelke L, Hamacher A, Sawadogo R, Diederich M, Wray V, Lin W, Kassack MU, Janiak C, Scheu S, Wesselborg S, Kurtán T, Aly AH, and Proksch P

Subjects
Animals, Antineoplastic Agents chemistry, Antineoplastic Agents isolation & purification, Apoptosis immunology, Cell Line, Tumor, Cell Proliferation drug effects, Dimerization, Dose-Response Relationship, Drug, Humans, Killer Cells, Natural drug effects, Killer Cells, Natural immunology, Leukocytes, Mononuclear drug effects, Leukocytes, Mononuclear immunology, Macrophages drug effects, Macrophages immunology, Mice, Models, Molecular, Molecular Structure, Quantum Theory, Structure-Activity Relationship, T-Lymphocytes drug effects, T-Lymphocytes immunology, Xanthones chemistry, Xanthones isolation & purification, Antineoplastic Agents pharmacology, Apoptosis drug effects, Ascomycota chemistry, Xanthones pharmacology
Abstract

Four tetrahydroxanthone dimers (1-4) and four biogenetically related monomers (5-8), including the new derivatives 4-6, were isolated from the endophyte Phomopsis longicolla. The absolute configurations of 2-4 were established for the first time by TDDFT electronic circular dichroism calculations, and that of phomoxanthone A (1) was revised by X-ray crystallography. Phomoxanthone A (1) showed the strongest pro-apoptotic activity when tested against a panel of human cancer cell lines, including cisplatin-resistant cells, whereas it was up to 100-fold less active against healthy blood cells. It was also the most potent activator of murine T lymphocytes, NK cells, and macrophages, suggesting an activation of the immune system in parallel to its pro-apoptotic activity. This dual effect in combating cancer cells could help in fighting resistance during chemotherapy. Preliminary structure-activity studies of isolated compounds and derivatives obtained by semisynthesis (9a-11) hinted at the location of the biaryl axis and the presence of acetyl groups as important structural elements for the biological activity of the studied tetrahydroxanthones.

Published
2013
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394. Bioactive polyketides and alkaloids from Penicillium citrinum, a fungal endophyte isolated from Ocimum tenuiflorum.

Author

Lai D, Brötz-Oesterhelt H, Müller WEG, Wray V, and Proksch P

Subjects
Alkaloids chemistry, Alkaloids isolation & purification, Animals, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents isolation & purification, Anti-Bacterial Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents isolation & purification, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Biological Products chemistry, Biological Products pharmacology, Biological Products therapeutic use, Cell Line, Tumor, Inhibitory Concentration 50, Mice, Molecular Structure, Polyketides chemistry, Polyketides isolation & purification, Polyketides pharmacology, Alkaloids pharmacology, Endophytes chemistry, Lymphoma drug therapy, Ocimum microbiology, Penicillium chemistry, Polyketides therapeutic use, Staphylococcus aureus drug effects
Abstract

Chemical investigation of the endophytic fungus Penicillium citrinum cultured on white beans or on rice led to the isolation of two new alkaloids (1 and 2), along with fourteen known polyketides (6-12, 14-20) and four known alkaloids (3-5, and 13). The structures of the isolated compounds were determined by extensive analysis of the 1D, 2D NMR, and MS data, and by comparison with the literature. Compound 13, which had been previously obtained only by chemical synthesis, was isolated as a natural product for the first time, while compound 6 was firstly reported as a fungal metabolite. A re-isolation of sclerotinin A (14) revealed it to be a diastereoisomeric mixture (14a and 14b), whose stereochemistry was proposed for the first time based on ROESY experiment. All isolated compounds were evaluated for their cytotoxic and antibacterial activities. Compounds 12 and 17 showed significant cytotoxicity against the murine lymphoma cell line L5178Y with IC50 values of 1.0, and 0.78 μg/ml, respectively, while compounds 5, 11, and 15 were moderately active against Staphylococcus aureus ATCC 29213 (MIC 64 μg/ml)., (© 2013.)

Published
2013
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395. Pestalotiopens A and B: stereochemically challenging flexible sesquiterpene-cyclopaldic acid hybrids from Pestalotiopsis sp.

Author

Hemberger Y, Xu J, Wray V, Proksch P, Wu J, and Bringmann G

Subjects
Benzofurans chemistry, Magnetic Resonance Spectroscopy, Molecular Structure, Sesquiterpenes chemical synthesis, Stereoisomerism, Fungi chemistry, Plant Leaves chemistry, Rhizophoraceae chemistry, Sesquiterpenes chemistry
Abstract

From the endophytic fungus Pestalotiopsis sp. isolated from the leaves of the Chinese mangrove, Rhizophora mucronata, two novel hybrid sesquiterpene-cyclopaldic acid metabolites with an unusual carbon skeleton, named pestalotiopens A and B, were obtained, together with the already known phytotoxin altiloxin B. Pestalotiopen B even contains a third, triketide-derived module. The constitutions and the absolute configurations of the new metabolites and of altiloxin B were unambiguously determined by a combination of spectroscopic methods and quantum-chemical optical-rotatory dispersion (ORD) and circular dichroism (CD) calculations. A biosynthetic pathway to pestalotiopens A and B is proposed with altiloxin B as one of the suggested precursors. Pestalotiopen A shows moderate antimicrobial activity against Enterococcus faecalis., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2013
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396. Structure elucidation and characterization of microbial 2-tridecyl sophorosides (biosurfactants).

Author

Recke VK, Park JB, Gerlitzki M, Hausmann R, Syldatk C, Wray V, Tokuda H, Suzuki N, and Lang S

Subjects
Carbohydrate Sequence, Chromatography, Thin Layer, Mass Spectrometry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Candida chemistry, Glucans chemistry, Surface-Active Agents chemistry
Abstract

To produce novel types of sophorose lipids containing an odd number of carbon atoms in the lipophilic moiety, Candida bombicola ATCC 22214 was grown in 500-ml flask cultures with glucose as main carbon source, and additionally, 2-tridecanone as co-substrate. After solvent extraction, the crude product mixture was separated into pure fractions, and each fraction was analysed via NMR and mass spectroscopy. This effective strategy generated five new glycolipids, 2-tridecyl sophorosides, which differed in the number of glucose units, and acetyl and hydroxy groups, respectively. Based on these compounds, a proposal for the possible biosynthetic pathway was deduced. Two compounds of the mixture, mono- and diacetylated 2-tridecyl sophorosides, respectively, were able to lower the surface tension of water from 72 mN m(-1) to 32 mN m(-1) and the interfacial tension between water and n-hexadecane from 43 mN m(-1) down to 4 and 3 mN m(-1). Thus, both compounds possess a very good surfactant behaviour. Moreover, it was observed that the new products inhibit the growth of particular Gram-positive bacteria, and they indicate potential for antitumour-promoting activity.

Published
2013

398. Lipase-catalyzed acylation of microbial mannosylerythritol lipids (biosurfactants) and their characterization.

Author

Recke VK, Beyrle C, Gerlitzki M, Hausmann R, Syldatk C, Wray V, Tokuda H, Suzuki N, and Lang S

Subjects
Acylation, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Chromatography, Liquid, Decanoic Acids chemistry, Drug Screening Assays, Antitumor methods, Glycoconjugates chemistry, Glycolipids isolation & purification, Glycolipids metabolism, Glycolipids pharmacology, Gram-Positive Bacteria drug effects, Humans, Lipase chemistry, Magnetic Resonance Spectroscopy, Molecular Structure, Soybean Oil chemistry, Soybean Oil metabolism, Stearic Acids chemistry, Surface Tension, Surface-Active Agents metabolism, Surface-Active Agents pharmacology, Ustilaginales growth & development, Ustilaginales metabolism, Glycolipids chemistry, Lipase metabolism, Surface-Active Agents chemistry
Abstract

Culturing Pseudozyma aphidis on glucose as main carbon source and soybean oil as co-substrate the mannosylerythritol lipids MEL-A and MEL-B were produced. Based on their excellent surface/interfacial active behavior they possess a high potential among all known biosurfactants. The components of a microbial MEL mixture were purified by medium pressure liquid chromatography (MPLC) and were used as substrates for in vitro enzymatic modifications. Lipase-catalyzed acylations of MEL-A and MEL-B with uncommon fatty acids from other microbial glycolipids-3-hydroxydecanoic acid from rhamnolipids and 17-hydroxyoctadecanoic acid from classical sophorolipids-yielded functionalized products at the C-1 position of the erythritol. The novel products were purified by MPLC and their structures elucidated by (1)H and (13)C nuclear magnetic resonance spectroscopy and mass spectrometry. In physicochemical characterization experiments two of the three new glycoconjugates lowered the surface tension of water from 72 mN m(-1) to 27-38 mN m(-1). Moreover the novel compounds inhibited the growth of gram-positive bacteria and showed a potential for anti-tumor-promoting activity., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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399. New cytotoxic 1,2,4-thiadiazole alkaloids from the ascidian Polycarpa aurata.

Author

Pham CD, Weber H, Hartmann R, Wray V, Lin W, Lai D, and Proksch P

Subjects
Alkaloids chemistry, Animals, Drug Screening Assays, Antitumor, Mice, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Thiadiazoles chemistry, Alkaloids chemical synthesis, Alkaloids pharmacology, Thiadiazoles chemical synthesis, Thiadiazoles pharmacology, Urochordata chemistry
Abstract

Two new alkaloids, polycarpathiamines A and B (1 and 2), were isolated from the ascidian Polycarpa aurata. Their structures were unambiguously determined by 1D, 2D NMR, and HRESIMS measurements and further confirmed by comparison with a closely related analogue, 3-dimethylamino-5-benzoyl-1,2,4-thiadiazole (4), that was prepared by chemical synthesis. Compounds 1 and 2 both feature an uncommon 1,2,4-thiadiazole ring whose biosynthetic origin is proposed. Compound 1 showed significant cytotoxic activity against L5178Y murine lymphoma cells (IC50 0.41 μM).

Published
2013
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400. Atropisomeric dihydroanthracenones as inhibitors of multiresistant Staphylococcus aureus.

Author

Bara R, Zerfass I, Aly AH, Goldbach-Gecke H, Raghavan V, Sass P, Mándi A, Wray V, Polavarapu PL, Pretsch A, Lin W, Kurtán T, Debbab A, Brötz-Oesterhelt H, and Proksch P

Subjects
Aloe microbiology, Animals, Anthracenes chemistry, Anthracenes pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, BALB 3T3 Cells, Cell Line, Tumor, DNA, Bacterial drug effects, Endophytes chemistry, Eurotiales chemistry, Humans, Mice, Microbial Sensitivity Tests, Nuclear Magnetic Resonance, Biomolecular, SOS Response, Genetics drug effects, Stereoisomerism, Anthracenes isolation & purification, Anti-Bacterial Agents isolation & purification, Drug Resistance, Multiple, Bacterial drug effects, Staphylococcus aureus drug effects
Abstract

Two bisdihydroanthracenone atropodiastereomeric pairs, including homodimeric flavomannin A (1) and the previously unreported flavomannin B (2), two new unsymmetrical dimers (3 and 4), and two new mixed dihydroanthracenone/anthraquinone dimers (5 and 6) were isolated from Talaromyces wortmannii , an endophyte of Aloe vera . The structures of 2-6 were elucidated by extensive NMR and mass spectrometric analyses. The axial chirality of the biaryls was determined using TDDFT ECD and VCD calculations, the combination of which however did not allow the assignment of the central chirality elements of 1. The compounds exhibited antibacterial activity against Staphylococcus aureus , including (multi)drug-resistant clinical isolates. Reporter gene analyses indicated induction of the SOS response for some of the derivatives, suggesting interference with DNA structure or metabolism. Fluorescence microscopy demonstrated defective segregation of the bacterial chromosome and DNA degradation. Notably, the compounds showed no cytotoxic activity, encouraging their further evaluation as potential starting points for antibacterial drug development.

Published
2013
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