Lipase-catalyzed kinetic resolutions of racemic β- and γ-thiolactones

Several racemic β- and γ-thiolactones were synthesized and kinetic resolutions of them were executed using lipases. While a lipase from Pseudomonas cepacia (PCL) showed the highest enantioselectivity for (S)-form (>99% ee_S at 53% conversion, E > 100) in the kinetic resolution of racemic -methyl-β-propiothiolactone (rac-MPTL), it showed no hydrolysis activity in the kinetic resolution of -benzyl--methyl-β-propiothiolactone (rac-BMPTL), suggesting that the changes in the size of alkyl group from rac-MPTL to rac-BMPTL leads to lower hydrolysis activity and enantioselectivity. In contrast, racemic γ-butyrothiolactones were hydrolyzed by several lipases with low enantioselectivity, whereas a lipase from Candida antarctica (CAL) showed moderate enantioselectivity for (S)-form (>99% ee_S at 76% conversion, E = 11) in the kinetic resolution of racemic -methyl-γ-butyrothiolactone (rac-MBTL). Computer-aided molecular modeling was also performed to investigate the enantioselectivites and activities of PCL toward β-propiothiolactones. The computer modeling results suggest that the alkyl side chains of β-propiothiolactones and γ-butyrothiolactones interact with amino acid residues around hydrophobic crevice, which affects the activity of PCL.     

Estimation of soluble β-glucan content of yeast cell wall by the sensitivity to Glucanex 200G treatment

The soluble β-glucan contents in the cell wall of yeasts were estimated by treating cells with Glucanex^® 200G that contained mainly β1,3-glucanase and some β1,6-glucanase. The sensitivity of cell walls of 11 yeasts to various concentrations of β-glucanase was compared. The yeasts that are resistant to β-glucanase treatment are expected to contain higher β-glucan content and those that are sensitive to the β-glucanase treatment are expected to contain lower β-glucan content. Two yeast strains were selected for further study by comparing the sensitivity of cell wall to β-glucanase; Candida bombicola and Candida albicans. Candida bombicola was more resistant and C. albicans was more sensitive to the Glucanex^® 200G treatment. The results of enzyme sensitivity tests were verified by quantification of soluble β-glucan content purified from the yeasts. Much larger amount of soluble β-glucan was obtained from the cell walls of C. bombicola (0.08 g g⁻¹ dried cell) than C. albicans (0.025 g g⁻¹ dried cell).     

Synthesis of the immunosuppressive agent 2-morpholinoethyl mycophenolate by a lipase-catalyzed transesterification

The synthesis of 2-morpholinoethyl mycophenolate was realized by an enzymatic transesterification of simple esters of mycophenolic acid with 2-morpholinoethanol. Best results were achieved by a Candida antarctica lipase B (CAL B) catalyzed transesterification of ethyl mycophenolate in toluene. CAL B showed to selectively transform only the ethyl ester function leaving unreacted the other functional groups present on the substrate. By this way 2-morpholinoethyl mycophenolate was obtained in satisfactory yields from mycophenolic acid (84%).     

Selection and preliminary characterization of β-glycosidases producer Patagonian wild yeasts

Four pre-selected indigenous yeast strains belonging to Candida guilliermondii (V₂ and V₅), Candida pulcherrima (V₆) and Kloeckera apiculata (V₉), were used as β-glucosidase (βGL) and β-xylosidase (βXL) sources. The optimization of yeast culture conditions was carried out and the effects of oenological parameters on β-glycosidase activities were evaluated. C. guilliermondii V₂ and C. pulcherrima V₆ strains were selected. These strains showed intracellular (C. pulcherrima V₆) and parietal (C. guilliermondii V₂) constitutive βGL and βXL. The enzymatic activities were active at pH, glucose, ethanol and SO₂ concentrations usually found in winemaking and they were able to release monoterpenols and alcohols from grape juice glycoside extracts. Additionally, these yeast strains were not able to produce volatile acidity and off flavour. Regional ecological relevance of these species was also discussed. Our results evidence that the selected C. guilliermondii V₂ and C. pulcherrima V₆ strains have interesting oenological characteristics and allow us to think in their potential application in winemaking.     

Lipase-catalyzed remote kinetic resolution of arylic nitriles with adjacent quaternary chiral center and the determination of their absolute configuration

Enzymatic resolution of tertiary arylic nitrile alcohols (1–8) by lipases from Pseudomonas cepacia (PCL), Pseudomonas flurescens (LAK, made by Amano Enzyme Co. Ltd.), Pseudomonas fluorescens (PFL) and Candida rugosa (CRL) were described, and the absolute configuration of the resolved chiral alcohols (1–8) were determined by chemical transformations to the compounds with known configuration.     

Primary allenic alcohols of high optical purity via lipase catalyzed resolution

The lipase from Candida rugosa lipase (CRL) was used for the preparation of optically active primary allenic alcohols with axial chirality. The biocatalytic material used was the commercial CRL (C-CRL) and propan-2-ol-treated CRL (PT-CRL). The kinetic resolution of (±)-1 and (±)-3a–c in water using C-CRL resulted in either the absence of or low enantiomeric ratio, whereas PT-CRL increased the E-value. Under optimized conditions (temperature and medium used) (+)-S-3a and (−)-R-4 were isolated in excellent yields and high optical purity (o.p.). The resolution was carried out on multigram scale in water/n-hexane at 4 °C.     

Asymmetric bioreduction of racemic 5,6,7,8-tetrahydro-8-methyl-1,3-dimethoxynaphthalen-6-one to the corresponding chiral β-tetralols

The synthesis of racemic 5,6,7,8-tetrahydro-8-methyl-1,3-dimethoxynaphthalen-6-one 1 was performed and the bioreduction to the corresponding β-tetralols was studied with respect to the stereochemical course and optical purity of the products; in particular the 6S,8S enantiomer corresponding to the dimethyl derivative of the natural compound feroxidin was isolated. The biomass of: Aspergillus niger, Cladosporium cladosporioides, Candida lypolitica, Bacillus megatherium, Rhodotorula minuta, R. flava, R. rubra, Beauveria bassiana and Baker's yeast were used as biocatalysts. Relative and absolute configurations of the obtained β-tetralols were established by comparison with those of the natural feroxidin.     

骨科内植物念珠菌生物被膜体外模型的构建及药物敏感性

利用24孔板在骨科内植物表面构建骨科内植物念珠菌生物被膜模型,并使用荧光镜检和菌落计数法(colony forming unit,CFU)检测醋酸氯己定(以下简称氯己定)与氟康唑对骨科内植物念珠菌生物被膜的联合抗菌效应.本研究成功在体外构建出骨科内植物念珠菌生物被膜模型,并发现无论是白念珠菌(SC5314)、近平滑念珠...     

Covalent immobilization of pure isoenzymes from lipase of Candida rugosa

Covalent immobilization of pure lipases A and B from Candida rugosa on agarose and silica is described. The immobilization increases the half-life of the biocatalysts ( ) with respect to the native pure lipases ( ). The percentage immobilization of lipases A and B is similar in both supports (33–40%). The remaining activity of the biocatalysts immobilized on agarose (70–75%) is greater than that of the enzymatic derivatives immobilized on SiO₂ (40–50%). The surface area and the hydrophobic/hydrophilic properties of the support control the lipase activity of these derivatives. The thermal stability of the immobilized lipase A derivatives is greater than that of lipase B derivatives. The nature of the support influences the thermal deactivation profile of the immobilized derivatives. The immobilization in agarose (hydrophilic support) gives biocatalysts that show a greater initial specific reaction rate than the biocatalysts immobilized in SiO₂ (hydrophobic support) using the hydrolysis of the esters of (R) or (S) 2-chloropropanoic and of (R,S) 2-phenylpropanoic acids as the reaction test. The enzymatic derivatives are active for at least 196 h under hydrolysis conditions. The stereospecificity of the native and the immobilized enzymes is the same.     

Biocatalyst engineering exerts a dramatic effect on selectivity of hydrolysis catalyzed by immobilized lipases in aqueous medium

It has been found that enantioselectivity of lipases is strongly modified when their immobilization is performed by involving different areas of the enzyme surface, by promoting a different degree of multipoint covalent immobilization or by creating different environments surrounding different enzyme areas. Moreover, selectivity of some immobilized enzyme molecules was much more modulated by the experimental conditions than other derivatives. Thus, some immobilized derivatives of Candida rugosa (CRL) and C. antarctica-B (CABL) lipases are hardly enantioselective in the hydrolysis of chiral esters of (R,S)-mandelic acid under standard conditions (pH 7.0 and 25°C) (E<2). However, other derivatives of the same enzymes exhibited a very good enantioselectivity under nonstandard conditions. For example, CRL adsorbed on PEI-coated supports showed a very high enantio-preference towards S-isomer (E=200) at pH 5. On the other hand, CABL adsorbed on octyl-agarose showed an interesting enantio-preference towards the R-isomer (E=25) at pH 5 and 4°C. These biotransformations are catalyzed by isolated lipase molecules acting on fully soluble substrates and in the absence of interfacial activation against external hydrophobic interfaces. Under these conditions, lipase catalysis may be associated to important conformational changes that can be strongly modulated via biocatalyst and biotransformation engineering. In this way, selective biotransformations catalyzed by immobilized lipases in macro-aqueous systems can be easily modulated by designing different immobilized derivatives and reaction conditions.     

Regioselective enzymatic acylation of polyhydroxylated sesquiterpenoids

Regioselective acetylation of some protoilludane sesquiterpenes has been performed using a set of commercially available lipases. While esterification of the illudane “Illudine S” (1) gave the expected derivative mono-acetylated at the primary C(15)-OH, acylation of the protoilludane “Tsugicoline A” (2) and of its derivatives 3 and 4 gave different products depending on the lipase used. Preferential regioselective esterification of the less chemically reactive secondary C(6)-OH in 4 and of the tertiary C(5)-OH in 3 was obtained by action of Candida rugosa lipase and lipase A from Aspergillus niger, respectively.     

The lid is a structural and functional determinant of lipase activity and selectivity

In several lipases access to the enzyme active site is regulated by the position of a mobile structure named the lid. The role of this region in modulating lipase function is reviewed in this paper analysing the results obtained with three different recombinant lipases modified in the lid sequence: Candida rugosa lipase isoform 1 (CRL1), Pseudomonas fragi lipase (PFL) and Bacillus subtilis lipase A (BSLA). A CRL chimera enzyme obtained by replacing its lid with that of another C. rugosa lipase isoform (CRL1LID3) was found to be affected in both activity and enantioselectivity in organic solvent. Variants of the PFL protein in which three polar lid residues were replaced with amino acids strictly conserved in homologous lipases displayed altered chain length preference profile and increased thermostability. On the other hand, insertion of lid structures from structurally homologous enzymes into BSLA, a lipase that naturally does not possess such a lid structure, caused a reduction in the enzyme activity and an altered substrate specificity. These results strongly support the concept that the lid plays an important role in modulating not only activity but also specifity, enantioselectivity and stability of lipase enzymes.     

289株VVC致病菌的菌种分布和对9种抗真菌药物敏感性

外阴阴道念珠菌病（vulvovaginal candidiasis,VVC）是女性的常见病。本研究收集了2018年1月-12月苏州地区VVC患者分离的289株念珠菌进行了病原学鉴定和包括棘白菌素类、新三唑类药物在内的9种抗真菌药物体外敏感性分析。本文采用核糖体RNA的D1/D2基因进行念珠菌菌种鉴定。参照M27-A3方法检测其对9种抗真菌药物（包括棘白菌素类及新三唑类药物）的体外敏感性。结果表明,289株VVC念珠菌菌株中,白念珠菌259株、光滑念珠菌14株、克柔念珠菌10株、热带念珠菌4株、近平滑念珠菌2株。259株VVC白念珠菌对棘白菌素类体外敏感性好,对米卡芬净敏感性高于另外两种棘白菌素类;对两性霉素B、5-氟胞嘧啶、氟康唑敏感性好;但对伊曲康唑、伏立康唑敏感性差;对泊沙康唑敏感性好。光滑念珠菌株和克柔念珠菌分离株对卡泊芬净敏感性差,但对米卡芬净、阿尼芬净敏感性好;光滑念珠菌株对两性霉素B、5-氟胞嘧啶体外敏感性好,对伊曲康唑敏感性差,对泊沙康唑敏感性好;伏立康唑对光滑念珠菌分离株MIC₅₀/₉₀为0.5/1μg/mL;克柔念珠菌对伊曲康唑、伏立康唑50%耐药;4株热带念珠菌对伊曲康唑50%耐药,对卡泊芬净、氟康唑、伏立康唑100%耐药,对其余5种抗真菌药物敏感。近平滑念珠菌对9种抗真菌药物均敏感。白念珠菌仍为苏州地区VVC的主要病原菌,其次是光滑念珠菌和克柔念珠菌,它们对临床常用药物伊曲康唑、伏立康唑、卡泊芬净敏感性差。研究结果提示对VVC病人常规进行分泌物培养、菌种鉴定,对苏州地区临床医生制定VVC治疗方案具有重要参考价值。尽管棘白菌素类、两性霉素B、5-氟胞嘧啶、新三唑类药物尚未应用到VVC的临床治疗中,但是这些药物对VVC病原体总体敏感性较好,未来有望成为氟康唑、咪唑类药物治疗失败患者的新选择。     

Synthesis and anticancer evaluation of certain indolo[2,3-b]quinoline derivatives

The present report describes the synthesis and anticancer evaluation of certain 11-substituted 6H-indolo[2,3-b]quinolines and their methylated derivatives. These 6H-indolo[2,3-b]quinoline derivatives 11–13 were prepared from the commercially available 1,4-dihydroxyquinoline through alkylation, chlorination, nucleophilic reaction, and ring cyclization. Depending on the ratio of 11, (MeO)₂SO₂, and K₂CO₃, alkylation occurred primarily on N-5 (1:0.8:0.8) or N-6 (1:1.5:1.5) leading to the isolation of 14a or 14b as a major product. Accordingly, major product 15a (2/(MeO)₂SO₂/K₂CO₃ = 1:2:2) or 15b (1:1:1), respectively, was obtained by alkylation of 12 while 16a (13/(MeO)₂SO₂/K₂CO₃ = 1:2:2) or 16b (1:1:1), respectively, was obtained by alkylation of 13. The in vitro anticancer assay indicated 5-methylated derivatives 14a, 15a, 16a are more cytotoxic than their respective 6-methylated counterparts 14b, 15b, 16b and 6H-indolo[2,3-b]quinoline precursors 11, 12, 13. Among them, 11-(4-methoxyanilino)-6-methyl-6H-indolo[2,3-b]quinoline (16a) was the most cytotoxic with a mean GI₅₀ value of 0.78 μM and also exhibited selective cytotoxicities for HL-60 (TB), K-562, MOLT-4, RPMI-8226, and SR with GI₅₀ values of 0.11, 0.42, 0.09, 0.14, and 0.19 μM, respectively.     

Steady-state kinetics of the oxidation of (S)-1-phenyl-1,2-ethanediol catalyzed by alcohol dehydrogenase from Candida parapsilosis CCTCC M203011

Kinetic studies of oxidation reaction of (S)-1-phenyl-1,2-ethanediol (PED) catalyzed by a NAD⁺-dependent alcohol dehydrogenase from Candida parapsilosis CCTCC M203011 obtained from China Center for Type Culture Collection (CPADH) were observed for getting insight into the deracemization redox reaction. The data of initial velocity experiments in the absence of product, product (β-hydroxy-hypnone) inhibition experiments and dead-end (pyrazole) inhibition experiments strongly suggest that the reaction follows Theorell-Chance BiBi mechanism in which the coenzymes bind to the free form of the enzyme firstly. The kinetic parameters of this model were estimated by using non-linear regression analysis software.     

Investigations into the biosynthetic pathways for classical and ring B-unsaturated oestrogens in equine placental preparations and allantochorionic tissues

In on-going studies of ‘classical’ and ring B-unsaturated oestrogens in equine pregnancy, the products of metabolism of [2,2,4,6,6-²H₅]-testosterone and [16,16,17-²H₃]-5,7-androstadiene-3β,17β-diol with equine placental subcellular preparations and allantochorionic villi have been identified. Using mixtures of unlabelled and [²H]-labelled steroid substrates has allowed the unequivocal identification of metabolites by twin-ion monitoring in gas chromatography–mass spectrometry (GC–MS). Two types of incubation were used: (i) static in vitro and (ii) dynamic in vitro. The latter involved the use of the Oxycell™ cartridge (Integra Bioscience Systems, St Albans, UK) whereby the tissue preparation was continuously supplied with supporting medium plus appropriate cofactors in the presence of uniform oxygenation. [²H₅]-Testosterone was converted into [²H₄]-oestradiol-17β, [²H₄]-oestrone and [²H₃]-6-dehydro-oestradiol-17 in both placental and chorionic villi preparations, but to a greater extent in the latter, confirming the importance of the chorionic villi in oestrogen production in the horse.

On the basis of GC–MS characteristics (M⁺ m/z 477/482 (as O-methyl oxime-trimethyl silyl ether), evidence for 19-hydroxylation of testosterone was found in static incubations, while the presence of a 6-hydroxy-oestradiol-17 was recorded in dynamic incubations (twin peaks in the mass spectrum at m/z 504/507, the molecular ion M⁺). It was not possible to determine the configuration at C-6. The formation of small, but significant, quantities of [²H₄]-17β-dihydroequilin was also shown, and a biosynthetic pathway is proposed.

In static incubations of placental microsomal fractions, the 17β-dihydro forms of both equilin and equilenin were shown to be major metabolites of [²H₃]-5,7-androstadiene-3,17-diol. Using static incubations of chorionic villi, the deuterated substrate was converted into the 17β-dihydro forms of both equilin and equilenin, together with an unidentified metabolite (base peak, m/z 504/506). The isomeric 17-dihydroequilins were also obtained using the dynamic in vitro incubation of equine chorionic villi, together with the 17β-isomer of dihydroequilenin. Confirmation of the identity of 17β-dihydroequilin and 17β-dihydroequilenin was obtained by co-injection of the authentic unlabelled steroids with the phenolic fraction obtained from various incubations. Increases in the peak areas for the non-deuterated steroids (ions at m/z 414 (17β-dihydroequilin) and 412 (17β-dihydroequilenin) (both as bis-trimethyl silyl ether derivatives) were observed. Biosynthetic pathways for formation of the ring B-unsaturated oestrogens from 5,7-androstadiene-3β,17β-diol are proposed.     

Mutation of fungal endoglucanases into glycosynthases and characterization of their acceptor substrate specificity

Humicola insolens mutant Cel7B E197A is a powerful endo-glycosynthase displaying an acceptor substrate specificity restricted to β-d-glucosyl, β-d-xylosyl, β-d-mannosyl and β-d-glucosaminyl in +1 subsite. Our aim was to extend this substrate specificity to β-d-N-acetylglucosaminyl, in order to get access to a wider array of oligosaccharidic structures obtained through glycosynthase assisted synthesis. In a first approach a trisaccharide bearing a β-d-N-acetylglucosaminyl residue was docked at the +1 subsite of H. insolens Cel7B, indicating that the mutation of only one residue, His209, could lead to the expected wider acceptor specificity. Three H. insolens Cel7B glycosynthase mutants (H209A, H209G and H209A/A211T) were produced and expressed in Aspergillus oryzae. In parallel, sequence alignment investigations showed that several cellulases from family GH7 display an alanine residue instead of histidine at position 209. Amongst them, Trichoderma reesei Cel7B, an endoglucanase sharing the highest degree of sequence identity with Humicola Cel7B, was found to naturally accept a β-d-N-acetylglucosaminyl residue at +1 subsite. The T. reesei Cel7B mutant nucleophile E196A was produced and expressed in Saccharomyces cerevisiae, and its activity as glycosynthase, together with the H. insolens glycosynthase mutants, was evaluated toward various glycosidic acceptors.     

Glyoxyl agarose as a new chromatographic matrix

At alkaline pHs, glyoxyl agarose is able to immobilize most of the proteins contained in a crude extract. However, due to its special immobilization features, at pH 7.0 only proteins that contain at least two exposed low pK amino groups in the same plane were immobilized (β-galactosidase from Escherichia coli, catalase from bovine liver, and IgG from rabbit). However, with many other proteins, even multimeric ones, immobilization could not be achieved (e.g.: glucose oxidase from Aspergillus niger and Penicillium vitale; catalase from Micococcus sp., A. niger and bovine liver; alcohol oxidase from Pichia pastoris, Hansenula sp. and Candida boidinii, β-galactosidase from Thermus sp., etc.). Elution of the attached proteins under mild conditions was not simple, if the number of protein-support bonds was very high, only boiling in SDS allowed the elution of the proteins. However, using glyoxyl agarose 4BCL with only 20 μmol of aldheyde groups/g of support, proteins could be fully eluted by competition with amino compounds (e.g., Tris buffer). In this first approach, we have tried to take advantage of this specific immobilization at pH 7.0 to purify multimeric proteins, using a β-galactosidase from E. coli as a model. The enzyme could be eluted from the support using Tris–HCl buffer as eluting agent, with a high yield (80%) and a high purification factor (32).     

Lipase-catalyzed production of optically active (S)-flurbiprofen in aqueous phase reaction system containing chiral succinyl β-cyclodextrin

The lipase-catalyzed production of optically active (S)-flurbiprofen was carried out in a dispersion reaction-system induced by chiral succinyl β-cyclodextrin (suβ-CD). The optimal reaction conditions were 500 mM (R,S)-flurbiprofen ethyl ester ((R,S)-FEE), 600 units of Candida rugosa lipase per 1 mmol of (R,S)-FEE, and 1000 mM suβ-CD at 37 °C for 72 h. An extremely high enantiomeric excess of 0.98 and conversion yield of 0.48 were achieved in the dispersed aqueous phase reaction system containing chiral suβ-CD added as a dispenser and chiral selector. The inclusion complex formability of the immiscible substrate (S)- and (R)-form of FEE with suβ-CD was compared using a phase-solubility diagram, DSC, and ¹H NMR. (S)-Isomer formed a more stable and selective inclusion complex with chiral suβ-CD. It was hydrolyzed much more selectively by lipase from C. rugosa, due to the selective structural modification through inclusion complexation with chiral suβ-CD.