- Ionic liquid-assisted solubilization for improved enzymatic esterification of phenolic acids
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Lipophilic derivatives of phenolic acids could greatly extend their applications in the lipophilic bio-environment and food processing, therefore, developing an efficient lipophilization reaction system constitutes an interesting topic of biocatalysis. Low solubility of phenolic acids in most enzyme-benign solvents represents the main reason for the inefficiency of enzymatic production of lipophilic phenolic derivatives. This work reports a novel approach to improve Candida antartica lipase B (Novozym 435) catalyzed lipophilization of phenolic acids by means of ionic liquids (IL), trioctylmethylammonium trifluoro-acetate (tOMA.TFA) assisted solubilization of the substrate. In this approach, the IL plays two major roles, namely, to dissolve phenolic acids at high concentration so as to create a homogeneous system with another substrate-1-octanol, and to be benign to the enzyme to keep the biocatalyst active; which is proved itself to be a correct strategy as improved conversion and volumetric productivity are obtained. The results showed that dosage of IL (denoted as the volume ratio of 1-octanol/tOMA.TFA), concentration of dihydrocaffeic acid (DHCA) and temperature are the key parameters governing the reaction efficiency. A maximum conversion of DHCA was achieved at the ratio of 1-octanol/tOMA.TFA 12:1 (v/v) (1-octanol/ DHCA, 38:1 (mol/mol)). A temperature of 70 °C was correct to obtain optimal conversion of DHCA. Even though the conversion of DHCA was higher at lower concentrations of DHCA, the overall volumetric productivity (reaction rate) was much higher when a high concentration of DHCA (1.6 M) was applied, due to IL-assisted solubilization of DHCA. Remarkable enhancement of the conversions of ferulic and caffeic acids were achieved, when the same reaction approach (tOMA.TFA assisted solubilization) was applied to these two phenolic acids, indicating the general applicability of this novel approach.
- Yang, Zhiyong,Guo, Zheng,Xu, Xuebing
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- Design and biological evaluation of cinnamic and phenylpropionic amide derivatives as novel dual inhibitors of HIV-1 protease and reverse transcriptase
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Upon the basis of both possible ligand-binding site interactions and the uniformity of key residues in active sites, a novel class of HIV-1 PR/RT dual inhibitors was designed and evaluated. Cinnamic acids or phenylpropionic acids with more flexible chain and smaller steric hindrance were introduced into the inhibitors, giving rise to significant improvement in HIV-1 RT inhibitory activity by one or two orders of magnitude, with comparable or even improved potency against PR at the same time, compared with coumarin anologues in our previous studies. Among these inhibitors, 38d displayed a 19-fold improvement in anti-PR activity with IC50 value of 0.081 nM compared to the control DRV. In addition, inhibitor 38c exhibited an excellent anti-RT IC50 value of 0.43 μM, only a 4.7-fold less potent activity than the control EFV. More significantly, the disparate ratio between HIV-1 PR and RT inhibition became more reasonable with ratio of 1: 10.4, just as 37b. Furthermore, the assays on HIV-1 late stage and early stage supported the rationality of designing dual inhibitors. The SAR data as well as molecular modeling studies provided new insight for further optimization of more potent HIV-1 PR/RT dual inhibitors.
- Zhu, Mei,Shan, Qi,Ma, Ling,Wen, Jiajia,Dong, Biao,Zhang, Guoning,Wang, Minghua,Wang, Juxian,Zhou, Jinming,Cen, Shan,Wang, Yucheng
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- Tyrosinase inhibitory activities of cinnamic acid analogues
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The aim of this study was to show how tyrosinase inhibitory activity is correlated with the structure of cinnamic acid derivatives. We synthesized cinnamic acid derivatives, and investigated their tyrosinase inhibitory and DPPH radical scavenging activities. The results show that reduction of C=C double bonds and the substituent group of cinnamic acid derivatives have an effect on antioxidant activity and tyrosinase inhibitory activity. Among these compounds, compounds 2, 6 and 6a showed a potent tyrosinase inhibitory activity with IC50 (50% inhibitory concentration) values of 115.6 μM, 114.9 μM and 195.7 μM, respectively. The results obtained provide a useful clue for the design and development of new tyrosinase inhibitors.
- Takahashi,Miyazawa, Mitsuo
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- Antioxidant Activity of Caffeic Acid and Dihydrocaffeic Acid in Lard and Human Low-Density Lipoprotein
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Caffeic acid (CA) has been implied as an important source of natural antioxidants in various agricultural products. We compared the antioxidative activity of CA and dihydrocaffeic acid (HCA) in lard and the low-density lipoprotein (LDL) system to know the role of the 2,3-double bond on the appearance of its antioxidative property. HCA was more effective than CA in enhancing oxidative stability of lard at 60 °C. Inhibition by HCA of copper ion-induced oxidation of human LDL was less effective than that by CA, whereas there was no significant difference between the two compounds in the capacity of 1,1-diphenyl-2-picrylhydrazyl radical scavenging and the activity of lipid peroxyl radical scavenging in solution. It can be concluded that the 2,3-double bond in the structure of CA affects the efficiency of antioxidative activity depending on the environment where the oxidation happens, although it is rarely responsible for its inherent activity.
- Moon, Jae-Hak,Terao, Junji
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- The heterocyclic ring fission and dehydroxylation of catechins and related compounds by Eubacterium sp. strain SDG-2, a human intestinal bacterium
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A human intestinal bacterium, Eubacterium (E.) sp. strain SDG-2, was tested for its ability to metabolize various (3R)- and (3S)-flavan-3-ols and their 3-O-gallates. This bacterium cleaved the C-ring of (3R)- and (3S)flavan-3-ols to give 1,3-diphenylpropan-2-ol derivatives, but not their 3-O-gallates. Furthermore, E. sp. strain SDG-2 had the ability of p-dehydroxylation in the B-ring of (3R)-flavan-3-ols, such as (-)-catechin, (-)-epicatechin, (-)-gallocatechin and (-)-epigallocatechin, but not of (3S)-flavan-3-ols, such as (+)-catechin and (+)-epicatechin.
- Wang, Li-Quan,Meselhy, Meselhy Raga,Li, Yan,Nakamura, Norio,Min, Byung-Sun,Qin, Guo-Wei,Hattori, Masao
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- Unusual isomeric corniculatolides from mangrove, Aegiceras corniculatum
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Four new isomeric macrolides of combretastatin D-2 congeners named isocorniculatolide A (1), 11-O-methylisocorniculatolide A (2), 11-O-methylcorniculatolide A (3), and 12-hydroxy-11-O-methylcorniculatolide A (4), and the known corniculatolide A (5), arjunolic acid, and maslinic acid were isolated from the CHCl3 extract of the bark of Aegiceras corniculatum. The structures of the new compounds (1-4) were elucidated by a combination of spectroscopic analysis (1-5), chemical modifications, and single-crystal X-ray analysis (1).
- Ponnapalli, M. Gowri,Annam, S. Ch. V. A. Rao,Ravirala, Saidulu,Sukki, Sushma,Ankireddy, Madhu,Tuniki, V. Raju
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- Gallate-induced nanoparticle uptake by tumor cells: Structure-activity relationships
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How nanoparticles interact with biological systems determines whether they can be used in theranostic applications. It has been demonstrated that tea catechins, may enhance interactions of magnetic nanoparticles (MNPs) with tumor cells and the subsequent cellular internalization of MNPs. As part of the chemical structure of the major tea catechins, gallates are found in a variety of plants and thus food components. We asked whether the structure of gallate might act as a pharmacophore in the enhancement of the effects of MNP-cell interactions. Uptake of dextran-coated MNPs by glioma cells and cell-associated MNPs (MNPcell) were respectively analyzed by confocal microscopy and a colorimetric iron assay. Co-incubation of MNPs and gallates, such as gallic acid and methyl gallate, induced a concentration-dependent increase in MNPcell, which was associated with co-localization of internalized MNPs and lysosomes. An analysis of the structure-activity relationship (SAR) revealed that the galloyl moiety exerted the most prominent enhancement effects on MNPcell which was further potentiated by the application of magnetic force; catechol coupled with a conjugated carboxylic acid side chain displayed comparable effects to gallate. Blockade or reduction in the number of hydroxyl groups rendered these compounds less effective, but without inducing cytotoxicity. The SAR results suggest that neighboring hydroxyl groups on the aromatic ring form an essential scaffold for the uptake effects; a similar SAR on antioxidant activities was also observed using a free radical-scavenging method. The results provide pivotal information for theranostic applications of gallates by facilitating nanoparticle-cell interactions and nanoparticle internalization by tumor cells.
- Cheng, Min-Chi,Lu, Yi-Ching,Wu, Jender,Ma, Yunn-Hwa
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- Efficient demethylation of aromatic methyl ethers with HCl in water
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A green, efficient and cheap demethylation reaction of aromatic methyl ethers with mineral acid (HCl or H2SO4) as a catalyst in high temperature pressurized water provided the corresponding aromatic alcohols (phenols, catechols, pyrogallols) in high yield. 4-Propylguaiacol was chosen as a model, given the various applications of the 4-propylcatechol reaction product. This demethylation reaction could be easily scaled and biorenewable 4-propylguaiacol from wood and clove oil could also be applied as a feedstock. Greenness of the developed methodversusstate-of-the-art demethylation reactions was assessed by performing a quantitative and qualitative Green Metrics analysis. Versatility of the method was shown on a variety of aromatic methyl ethers containing (biorenewable) substrates, yielding up to 99% of the corresponding aromatic alcohols, in most cases just requiring simple extraction as work-up.
- Bomon, Jeroen,Bal, Mathias,Achar, Tapas Kumar,Sergeyev, Sergey,Wu, Xian,Wambacq, Ben,Lemière, Filip,Sels, Bert F.,Maes, Bert U. W.
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supporting information
p. 1995 - 2009
(2021/03/26)
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- Br?nsted Acid Catalyzed Tandem Defunctionalization of Biorenewable Ferulic acid and Derivates into Bio-Catechol
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An efficient conversion of biorenewable ferulic acid into bio-catechol has been developed. The transformation comprises two consecutive defunctionalizations of the substrate, that is, C?O (demethylation) and C?C (de-2-carboxyvinylation) bond cleavage, occurring in one step. The process only requires heating of ferulic acid with HCl (or H2SO4) as catalyst in pressurized hot water (250 °C, 50 bar N2). The versatility is shown on a variety of other (biorenewable) substrates yielding up to 84 % di- (catechol, resorcinol, hydroquinone) and trihydroxybenzenes (pyrogallol, hydroxyquinol), in most cases just requiring simple extraction as work-up.
- Bal, Mathias,Bomon, Jeroen,Liao, Yuhe,Maes, Bert U. W.,Sels, Bert F.,Sergeyev, Sergey,Van Den Broeck, Elias,Van Speybroeck, Veronique
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supporting information
p. 3063 - 3068
(2020/02/05)
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- METHOD FOR ENHANCING DELIVERY OF THERAPEUTIC DRUGS TO TREATMENT SITES
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Disclosed herein is a method for enhancing uptake of magnetic nanoparticles (MNPs) having a therapeutic agent associated therein to a target site (e.g., a tumor), thereby resulting in elevated level of therapeutic agents being accumulated in the target site. The method comprises concurrently administering a sufficient amount of a polyphenolic compound and MNPs to the target site. Also disclosed herein is a method for treating a cancer in a subject. The method comprises concurrently administering an effective amount of the polyphenolic compound and MNPs to the subject, so as to ameliorate or alleviate symptoms associated with the cancer.
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Paragraph 0135-0137
(2019/05/18)
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- The Total Synthesis of Spermine Alkaloid Kukoamine Bimesylate
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The first total synthesis of kukoamine B bimesylate was completed from 1,4-diaminobutane dihydrochloride in 12 steps with a 11.4% overall yield, and all the steps could be carried out at a kilogram scale. The cyano groups were used as the precursor of amino groups to avoid the competitive reaction delicately. The aza-Michael addition reaction, amidation and hydrogenation of the cyano group sequence was streamlined as a general approach towards the synthesis of polyamine structures.
- Dong, Kai
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supporting information
p. 2669 - 2672
(2018/12/14)
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- Reference compounds for controlling quality of kukoamine B
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The invention relates to three reference compounds for controlling quality of kukoamine B, a preparation method therefor, and a quality control method for controlling quality of the kukoamine B by using the three reference compounds.
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- COMPOUNDS FOR INHIBITING LIPID OXIDATION AND A METHOD FOR PRODUCING THE SAME
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The present invention relates to a compound for inhibiting lipid oxidation, and a producing method thereof. The compound for inhibiting lipid oxidation is synthesized by a transesterification reaction though a vinyl reaction and a lipase-catalyzed reaction. The produced compound for inhibiting lipid oxidation has an excellent effect of inhibiting oxidation according to a total oxidation value (TOTOX) which is a combination of a P-anisidine value (P-AnV) and a peroxide value (PV) and an analysis of a thiobarbituric acid reaction substance (TBARS).COPYRIGHT KIPO 2016
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Paragraph 0135-0136; 0143
(2017/05/03)
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- Carbon nanotubes supported tyrosinase in the synthesis of lipophilic hydroxytyrosol and dihydrocaffeoyl catechols with antiviral activity against DNA and RNA viruses
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Hydroxytyrosol and dihydrocaffeoyl catechols with lipophilic properties have been synthesized in high yield using tyrosinase immobilized on multi-walled carbon nanotubes by the Layer-by-Layer technique. All synthesized catechols were evaluated against a large panel of DNA and RNA viruses, including Poliovirus type 1, Echovirus type 9, Herpes simplex virus type 1 (HSV-1), Herpes simplex virus type 2 (HSV-2), Coxsackievirus type B3 (Cox B3), Adenovirus type 2 and type 5 and Cytomegalovirus (CMV). A significant antiviral activity was observed in the inhibition of HSV-1, HSV-2, Cox B3 and CMV. The mechanism of action of the most active dihydrocaffeoyl derivative was investigated against a model of HSV-1 infection.
- Botta, Giorgia,Bizzarri, Bruno Mattia,Garozzo, Adriana,Timpanaro, Rossella,Bisignano, Benedetta,Amatore, Donatella,Palamara, Anna Teresa,Nencioni, Lucia,Saladino, Raffaele
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p. 5345 - 5351
(2015/11/11)
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- p-Hydroxyphenylacetate 3-Hydroxylase as a Biocatalyst for the Synthesis of Trihydroxyphenolic Acids
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Trihydroxyphenolic acids such as 3,4,5-trihydroxycinnamic acid (3,4,5-THCA) 4c and 2-(3,4,5-trihydroxyphenyl)acetic acid (3,4,5-THPA) 2c are strong antioxidants that are potentially useful as medicinal agents. Our results show that p-hydroxyphenylacetate (HPA) 3-hydroxylase (HPAH) from Acinetobacter baumannii can catalyze the syntheses of 3,4,5-THPA 2c and 3,4,5-THCA 4c from 4-HPA 2a and p-coumaric acid 4a, respectively. The wild-type HPAH can convert 4-HPA 2a completely into 3,4,5-THPA 2c within 100 min (total turnover number (TTN) of 100). However, the wild-type enzyme cannot efficiently synthesize 3,4,5-THCA 4c. To improve the efficiency, the oxygenase component of HPAH (C2) was rationally engineered in order to maximize the conversion of p-coumaric acid 4a to 3,4,5-THCA 4c. Results from site-directed mutagenesis studies showed that Y398S is significantly more effective than the wild-type enzyme for the synthesis of 3,4,5-THCA 4c; it can catalyze the complete bioconversion of p-coumaric acid 4a to 3,4,5-THCA 4c within 180 min (TTN ~ 23 at 180 min). The yield and stability of 3,4,5-THPA 2c and 3,4,5-THCA 4c were significantly improved in the presence of ascorbic acid. Thermostability studies showed that the wild-type C2 was very stable and remained active after incubation at 30, 35, and 40 °C for 24 h. Y398S was moderately stable because its activity was retained for 24 h at 30 °C and for 15 h at 35 °C. Transient kinetic studies using stopped-flow spectrophotometry indicated that the key improvement in the reaction of Y398S with p-coumaric acid 4a lies within the protein-ligand interaction. Y398S binds to p-coumaric acid 4a with higher affinity than the wild-type enzyme, resulting in a shift in equilibrium toward favoring the productive coupling path instead of the path leading to wasteful flavin oxidation.
- Dhammaraj, Taweesak,Phintha, Aisaraphon,Pinthong, Chatchadaporn,Medhanavyn, Dheeradhach,Tinikul, Ruchanok,Chenprakhon, Pirom,Sucharitakul, Jeerus,Vardhanabhuti, Nontima,Jiarpinitnun, Chutima,Chaiyen, Pimchai
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p. 4492 - 4502
(2015/08/18)
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- A biocompatible alkene hydrogenation merges organic synthesis with microbial metabolism
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Organic chemists and metabolic engineers use orthogonal technologies to construct essential small molecules such as pharmaceuticals and commodity chemicals. While chemists have leveraged the unique capabilities of biological catalysts for small-molecule production, metabolic engineers have not likewise integrated reactions from organic synthesis with the metabolism of living organisms. Reported herein is a method for alkene hydrogenation which utilizes a palladium catalyst and hydrogen gas generated directly by a living microorganism. This biocompatible transformation, which requires both catalyst and microbe, and can be used on a preparative scale, represents a new strategy for chemical synthesis that combines organic chemistry and metabolic engineering. Reduction to practice: A hydrogenation reaction has been developed that employs hydrogen generated in situ by a microorganism and a biocompatible palladium catalyst to reduce alkenes on a synthetically useful scale. This type of transformation, which directly combines tools from organic chemistry with the metabolism of a living organism for small-molecule production, represents a new strategy for chemical synthesis.
- Sirasani, Gopal,Tong, Liuchuan,Balskus, Emily P.
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supporting information
p. 7785 - 7788
(2014/08/05)
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- Activity of caffeic acid derivatives against Candida albicans biofilm
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The aim of this study was to evaluate the caffeic acid (1) and ester derivatives (2-10) against Candida albicans biofilm and to investigate whether these compounds are able to inhibit the biofilm formation or destroy pre-formed biofilm. Caffeic acid ester 7, cinnamic acid ester 8 and 3,4-dihydroxybenzoic acid ester 10 are more active than fluconazole, used as reference drug, both on biofilm in formation with MIC50 values of 32, 32 and 16 μg/mL, respectively, and in the early stage of biofilm formation (4 h) with MIC 50 values of 64, 32 and 64 μg/mL, respectively. These esters result also more active than fluconazole on mature biofilm (24 h), especially 8 and 10 with MIC50 values of 64 μg/mL.
- De Vita, Daniela,Friggeri, Laura,D'Auria, Felicia Diodata,Pandolfi, Fabiana,Piccoli, Francesco,Panella, Simona,Palamara, Anna Teresa,Simonetti, Giovanna,Scipione, Luigi,Di Santo, Roberto,Costi, Roberta,Tortorella, Silvano
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p. 1502 - 1505
(2014/03/21)
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- SALTS OF KUKOAMINE B, PREPARATION METHOD AND USE THEREOF
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Provided are salts of kukoamine B, their preparation method and their use in preventing and treating sepsis diseases.
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Paragraph 0036
(2013/09/26)
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- SALTS OF KUKOAMINE B, PREPARATION METHOD AND USE THEREOF
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Salts of kukoamine B, their preparation method and their pharmaceutical use in preparation of drugs for preventing and treating sepsis. Experiments indicate that salts of kukoamine B have a good effect on antagonizing the key factors inducing sepsis, and can be used in the preparation of drugs for preventing and treating sepsis. Under the current circumstances of the lack of effective measures for the treatment of sepsis in clinical practice, the medicinal formulations, which comprise the salts of kukoamine B, pharmaceutically acceptable carrier and/or diluent, provide a new approach for the prevention and treatment of sepsis.
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Paragraph 0062
(2013/11/06)
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- Identification of cinnamic acid derivatives as novel antagonists of the prokaryotic proton-gated ion channel GLIC
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Pentameric ligand gated ion channels (pLGICs) mediate signal transduction. The binding of an extracellular ligand is coupled to the transmembrane channel opening. So far, all known agonists bind at the interface between subunits in a topologically conserved "orthosteric site" whose amino acid composition defines the pharmacological specificity of pLGIC subtypes. A striking exception is the bacterial proton-activated GLIC protein, exhibiting an uncommon orthosteric binding site in terms of sequence and local architecture. Among a library of Gloeobacter violaceus metabolites, we identified a series of cinnamic acid derivatives, which antagonize the GLIC proton-elicited response. Structure-activity analysis shows a key contribution of the carboxylate moiety to GLIC inhibition. Molecular docking coupled to site-directed mutagenesis support that the binding pocket is located below the classical orthosteric site. These antagonists provide new tools to modulate conformation of GLIC, currently used as a prototypic pLGIC, and opens new avenues to study the signal transduction mechanism.
- Prevost, Marie S.,Delarue-Cochin, Sandrine,Marteaux, Justine,Colas, Claire,Van Renterghem, Catherine,Blondel, Arnaud,Malliavin, Thérèse,Corringer, Pierre-Jean,Joseph, Delphine
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p. 4619 - 4630
(2013/07/19)
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- Tyrosinase and Layer-by-Layer supported tyrosinases in the synthesis of lipophilic catechols with antiinfluenza activity
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Catechol derivatives with lipophilic properties have been selectively synthesized by tyrosinase in high yield avoiding long and tedious protection/deprotection steps usually required in traditional procedures. The synthesis was effective also with immobilized tyrosinase able to perform for more runs. The novel catechols were evaluated against influenza A virus, that continue to represent a severe threat worldwide. A significant antiviral activity was observed in derivatives characterized by antioxidant activity and long carbon alkyl side-chains, suggesting the possibility of a new inhibition mechanism based on both redox and lipophilic properties.
- Bozzini, Tiziana,Botta, Giorgia,Delfino, Michela,Onofri, Silvano,Saladino, Raffaele,Amatore, Donatella,Sgarbanti, Rossella,Nencioni, Lucia,Palamara, Anna Teresa
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p. 7699 - 7708
(2014/01/06)
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- Layer-by-Layer coated tyrosinase: An efficient and selective synthesis of catechols
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Agaricus bisporous tyrosinase was immobilized on commercial available epoxy-resin EupergitC250L and then coated by the Layer-by-Layer method (LbL). The two novel heterogeneous biocatalysts were characterized for their morphology, pH and storage stability, kinetic properties (Km, V max, Vmax/Km) and reusability. These biocatalysts were used for the efficient and selective synthesis of bioactive catechols under mild and environmental friendly experimental conditions. Ascorbic acid was added in the reaction medium to inhibit the formation of ortho-quinones, thus avoiding the known enzyme suicide inactivation process. Catechols were obtained mostly in quantitative yields and conversion of substrate. Tyrosinase immobilized on EupergitC250L and coated by the LbL method showed better catalytic activities, higher pH and storage stability, and reusability with respect to immobilized uncoated tyrosinase. Since chemical procedures to synthesize catechols are often expensive and with high environmental impact, the use of immobilized tyrosinase represents an efficient alternative for the preparation of this family of bioactive compounds.
- Guazzaroni, Melissa,Crestini, Claudia,Saladino, Raffaele
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experimental part
p. 157 - 166
(2012/02/13)
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- Hydroxylation of p-substituted phenols by tyrosinase: Further insight into the mechanism of tyrosinase activity
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A study of the monophenolase activity of tyrosinase by measuring the steady state rate with a group of p-substituted monophenols provides the following kinetic information: kcatm and the Michaelis constant, KMm. Analysis of these data taking into account chemical shifts of the carbon atom supporting the hydroxyl group (δ) and σp+, enables a mechanism to be proposed for the transformation of monophenols into o-diphenols, in which the first step is a nucleophilic attack on the copper atom on the form Eox (attack of the oxygen of the hydroxyl group of C-1 on the copper atom) followed by an electrophilic attack (attack of the hydroperoxide group on the ortho position with respect to the hydroxyl group of the benzene ring, electrophilic aromatic substitution with a reaction constant ρ of -1.75). These steps show the same dependency on the electronic effect of the substituent groups in C-4. Furthermore, a study of a solvent deuterium isotope effect on the oxidation of monophenols by tyrosinase points to an appreciable isotopic effect. In a proton inventory study with a series of p-substituted phenols, the representation of kcatfn/kcatf0 against n (atom fractions of deuterium), where kcatfn is the catalytic constant for a molar fraction of deuterium (n) and kcatf0 is the corresponding kinetic parameter in a water solution, was linear for all substrates. These results indicate that only one of the proton transfer processes from the hydroxyl groups involved the catalytic cycle is responsible for the isotope effects. We suggest that this step is the proton transfer from the hydroxyl group of C-1 to the peroxide of the oxytyrosinase form (Eox). After the nucleophilic attack, the incorporation of the oxygen in the benzene ring occurs by means of an electrophilic aromatic substitution mechanism in which there is no isotopic effect.
- Munoz-Munoz, Jose Luis,Berna, Jose,Garcia-Molina, Maria del Mar,Garcia-Molina, Francisco,Garcia-Ruiz, Pedro Antonio,Varon, Ramon,Rodriguez-Lopez, Jose N.,Garcia-Canovas, Francisco
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scheme or table
p. 228 - 233
(2012/10/18)
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- NOVEL DXR INHIBITORS FOR ANTIMICROBIAL THERAPY
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The present invention generally concerns particular methods and compositions for antimicrobial therapy. In particuarl embodiments, the compositions target DXR. In specific embodiments, the compositions are electron-deficient heterocyclic rings.
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Page/Page column 67; 72
(2011/05/05)
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- Contribution of cinnamic acid analogues in rosmarinic acid to inhibition of snake venom induced hemorrhage
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In our previous paper, we reported that rosmarinic acid (1) of Argusia argentea could neutralize snake venom induced hemorrhagic action. Rosmarinic acid (1) consists of two phenylpropanoids: caffeic acid (2) and 3-(3,4-dihydroxyphenyl)lactic acid (3). In this study, we investigated the structural requirements necessary for inhibition of snake venom activity through the use of compounds, which are structurally related to rosmarinic acid (1). By examining anti-hemorrhagic activity of cinnamic acid analogs against Protobothrops flavoviridis (Habu) venom, it was revealed that the presence of the E-enoic acid moiety (-CHCH-COOH) was critical. Furthermore, among the compound tested, it was concluded that rosmarinic acid (1) (IC50 0.15 μM) was the most potent inhibitor against the venom.
- Aung, Hnin Thanda,Furukawa, Tadashi,Nikai, Toshiaki,Niwa, Masatake,Takaya, Yoshiaki
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experimental part
p. 2392 - 2396
(2011/05/12)
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- PROCESS FOR STRAIGHTENING KERATIN FIBRES WITH A HEATING MEANS AND DENATURING AGENTS
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The invention relates to a process for straightening keratin fibres, comprising: (i) a step in which a straightening composition containing at least two denaturing agents is applied to the keratin fibres, (ii) a step in which the temperature of the keratin fibres is raised, using a heating means, to a temperature of between 110 and 250° C.
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- FLAVAN-3-OL CONTAINING FOODSTUFFS
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The use of a compound for the reduction or elimination of bitterness caused by flavan-3-ols is provided. Compositions having greater than 0.01 wt % flavan-3-ols and that comprise an effective amount of the compound are also provided. The compound conforms to the general formula (I): wherein R1 represents C2-C3 saturated or unsaturated divalent hydrocarbon radical, n is an integer from 0 to 3, and each X is independently selected from C1-C3 alkyloxy and OH; and wherein if n is 0 then R1 is C3 saturated divalent hydrocarbon radical or C2-C3 unsaturated divalent hydrocarbon radical; and wherein if n is greater than 0 then the compound has formula (II)
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- Conversion of dehydrodiferulic acids by human intestinal microbiota
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Plant cell wall associated dehydrodiferulic acids (DFA) are abundant components of cereal insoluble dietary fibers ingested by humans. The ability of human intestinal microbiota to convert DFA was studied in vitro by incubating 8-O-4- and 5-5-coupled DFA with fecal suspensions. 8-O-4-DFA was completely degraded by the intestinal microbiota of the majority of donors, yielding homovanillic acid, 3-(3,4-dihydroxyphenyl)propionic acid, and 3,4-dihydroxyphenylacetic acid as the main metabolites. The transient formation of ferulic acid and presumably 3-(3-hydroxy-4-methoxyphenyl)pyruvic acid suggests an initial cleavage of the ether bond. In contrast to 8-O-4-DFA, the 5-5-coupled DFA was not cleaved into monomers by any of the fecal suspensions. Only the side chains were hydrogenated and the methoxy groups were demethylated. The cleavage of DFA by human intestinal microbiota, which depended on their coupling type, may affect both the bioavailability of DFA and the degradability of DFA-coupled fiber in the gut.
- Braune, Annett,Bunzel, Mirko,Yonekura, Reiko,Blaut, Michael
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experimental part
p. 3356 - 3362
(2010/06/16)
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- Coordination chemistry based approach to lipophilic inhibitors of 1-deoxy-D-xylulose-5-phosphate reductoisomerase
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1-Deoxy-D-xylulose-5-phosphate reductoisomerase (DXR) in the non-mevalonate pathway found in most bacteria is a validated anti-infective drug target. Fosmidomycin, a potent DXR inhibitor, is active against Gram-negative bacteria. A coordination chemistry and structure based approach was used to discover a novel, lipophilic DXR inhibitor with an IC50 of 1.4 μM. It exhibited a broad spectrum of activity against Gram-negative and -positive bacteria with minimal inhibition concentrations of 20-100 μM (or 3.7-19 μg/mL).
- Deng, Lisheng,Sundriyal, Sandeep,Rubio, Valentina,Shi, Zheng-Zheng,Song, Yongcheng
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supporting information; experimental part
p. 6539 - 6542
(2010/04/04)
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- Application of ionic liquids in palladium(II) catalyzed homogenous transfer hydrogenation
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The first application of palladium(II) catalyzed homogenous transfer hydrogenations in ionic liquids is described. Cinnamic acid and its derivatives were reduced in high yields under mild conditions using ammonium formate as hydrogen donor.
- Baán, Zoltán,Finta, Zoltán,Keglevich, Gy?rgy,Hermecz, István
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p. 6203 - 6204
(2007/10/03)
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- Structural modification of phenylpropanoid-derived compounds and the effects on their participation in redox processes
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Oxidation and reduction processes are fundamental to many of the proposed mechanisms by which dietary phytochemicals are thought to exert protective effects against cardiovascular disease and some cancers. An understanding of the redox chemistry of these compounds is essential in assessing their potential to participate in these processes. Phenylpropanoid-derived compounds were selected and synthesised where required to represent many of the structural features found in this important group of compounds. Using electron paramagnetic resonance spectroscopy and computational chemistry a structure-redox activity relationship was obtained. Good correlation of computational and experimental results was observed for the mono-hydroxylated compounds. This demonstrated the value of computational chemistry in obtaining information about compounds, not readily available and the effect of electron delocalisation on parent radical stability. For compounds containing more than one hydroxyl, the relationship was found to be more complex. The importance of quinone formation in compounds containing more than one hydroxyl substituent was highlighted, as this was found to have a significant effect on stabilisation and therefore, their participation in redox processes.
- Russell, Wendy R.,Scobbie, Lorraine,Chesson, Andrew
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p. 2537 - 2546
(2007/10/03)
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- Hydroxyphenyl derivatives with HIV integrase inhibitory properties
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An hydroxyphenyl derivative selected from the group consisting of a compound of formula and when a compound of formula I comprises a carboxylic acid group pharmaceutically acceptable salts thereof and when a compound of formula I comprises an amino group pharmaceutically acceptable ammonium salts thereof, wherein n is 1, 2 or 3, e is 1, 2 or 3, Hal represents a halogen atom (e.g. Cl, Br, F or I), p is 0, 1 or 2, r is 0, 1 or 2, X and X′ each independently represents a single bond, a saturated straight or branched hydrocarbon group of 1 to 4 carbon atoms or a straight or branched hydrocarbon group of 2 to 4 carbon atoms comprising a carbon to carbon double bond, Rarepresents H or —CH3, and Raarepresents H or —CH3; W may represent an amino acid residue or fragment. These compounds may be used to inhibit the activity of HIV integrase.
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- Arylamide inhibitors of HIV-1 integrase
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Based on data derived from a large number of HIV-1 integrase inhibitors, similar structural features can be observed, which consist of two aryl units separated by a central linker. For many inhibitors fitting this pattern, at least one aryl ring also requires orth obis-hydroxylation for significant inhibitory potency. The ability of such catechol species to undergo in situ oxidation to reactive quinones presents one potential limitation to their utility. In an effort to address this problem, a series of inhibitors were prepared which did not contain ortho bishydroxyls. None of these analogues exhibited significant inhibition. Therefore an alternate approach was taken, whose aim was to increase potency rather than eliminate catechol substructures. In this latter study, naphthyl nuclei were utilized as aryl components, since a previous report had indicated that fused bicyclic rings may afford higher affinity relative to monocyclic phenyl-based systems. In preliminary work with monomeric units, it was found that the 6,7-dihydroxy- 2-naphthoic acid (17) (IC50 = 4.7 μM) was approximately 10-fold more potent than its 5,6-dihydroxy isomer 19 (IC50 = 62.4 μM). Of particular note was the dramatic difference in potency between free acid 17 and its methyl ester 21 (IC50 > 200 μM). The nearly total loss of activity induced by esterification strongly indicates that the free carboxylic -OH is important for high potency of this compound. This contrasts with the isomeric 5,6-dihydroxy species 19, where esterification had no effect on inhibitory potency (23, IC50 = 52.7 μM). These data provide evidence that the monomeric 6,7- and 5,6-dihydroxynaphthalenes may be interacting with the enzyme in markedly different fashions. However, when these naphthyl nuclei were incorporated into dimeric structures, significant enhancements in potencies each relative to the monomeric acids were observed, with bis-6,7- dihydroxy analogue 49 and bis-5,6-dihydroxy analogue 51 both exhibiting approximately equal potencies (IC50 values of 0.81 and 0.11 μM, respectively).
- Zhao, He,Neamati, Nouri,Mazumder, Abhijit,Sunder, Sanjay,Pommier, Yves,Burke Jr., Terrence R.
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p. 1186 - 1194
(2007/10/03)
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- Enzymatically amplified voltammetric sensor for microliter sample volumes of salicylate
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A new voltammetric sensing strategy for salicylate employing two enzymes and applicable to microliter sample volumes is demonstrated. The method involves the use of the enzyme salicylate hydroxylase to convert salicylate to catechol, which is oxidized at a carbon electrode. The product of this oxidation reaction, o-quinone, is then reduced by a second enzyme, glucose oxidase, to regenerate catechol. Reoxidation of catechol results in a signal that is amplified due to repeated cycling of catechol molecules between the oxidized and reduced states. This chemistry is implemented in two configurations. (i) A paper disk into which both enzymes have been absorbed is mounted on a coplanar three-electrode assembly for aqueous experiments. Determination of salicylate in a nonprescription dermatological product is demonstrated. (ii) A small solution volume confined directly on the coplanar electrodes is used for determination of salicylate in whole blood. The advantages of the use of two enzymes and of monitoring steady-state catalytic currents are discussed.
- Moore, Thea J.,Joseph, Melissa J.,Allen, Barry W.,Coury Jr., Louis A.
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p. 1896 - 1902
(2007/10/02)
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- Hydroxylated aromatic inhibitors of HIV-1 integrase
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Efficient replication of HIV-1 requires integration of a DNA copy of the viral genome into a chromosome of the host cell. Integration is catalyzed by the viral integrase, and we have previously reported that phenolic moieties in compounds such as flavones, caffeic acid phenethyl ester (CAPE, 2), and curcumin confer inhibitory activity against HIV-1 integrase. We now extend these findings by performing a comprehensive structure-activity relationship using CAPE analogues. Approximately 30 compounds have been prepared as HIV integrase inhibitors based on the structural lead provided by CAPE, which has previously been shown to exhibit an IC50 value of 7 μM in our integration assay. These analogues were designed to examine specific features of the parent CAPE structure which may be important for activity. Among the features examined for their effects on inhibitory potency were ring substitution, side chain length and composition, and phenyl ring conformational orientation. In an assay which measured the combined effect of two sequential steps, dinucleotide cleavage and strand transfer, several analogues have IC50 values for 3'-processing and strand transfer lower than those of CAPE. Inhibition of strand transfer was assayed using both blunt-ended and 'precleaved' DNA substrates. Disintegration using an integrase mutant lacking the N-terminal zinc finger and C-terminal DNA-binding domains was also inhibited by these analogues, suggesting that the binding site for these compounds resides in the central catalytic core. Several CAPE analogues were also tested for selective activity against transformed cells. Taken together, these results suggest that the development of novel antiviral agents for the treatment of acquired immune deficiency syndrome can be based upon inhibition of HIV-1 integrase.
- Burke Jr.,Fesen,Mazumder,Wang,Carothers,Grunberger,Driscoll,Kohn,Pommier
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p. 4171 - 4178
(2007/10/03)
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- A defense Mechanism against Pathogenic Bacteria in the Digestive Tracts of Silkworm Larvae-in vitro Evidence of the Formation of Caffeoquinone, a True Antibacterial Substance, and Synergism of Amino Compounds
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For the defense mechanism against pathogenic bacteria in the digestive tracts of silkworm larvae reared on mulberry leaves, in vitro evidence of the formation of atrue antibacterial substance was obtained. caffeic acid (CA) derived from chlorogenic acid (ChA)was converted into caffeoquinone (CQ) by base-catalyzed oxidation in a buffer solution (pH 10.0).CQ was trapped as 6'phenylsulfonylcaffeic acid (6'sulfone) by the addition of benzenesulfinic acid (BSA).The synergetic effects of amino compounds on the antibacterial activity of CQ are discussed in detail, and the probable reactions of CA with amino and thiol compounds in the alkaline solution are proposed.
- Nakano, Hidenori,Tahara, Satoshi,Iizuka, Toshihiko,Mizutani, Junya
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p. 549 - 556
(2007/10/02)
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