Separation of scutellarin from crude extracts of Erigeron breviscapus (vant.) Hand. Mazz. by macroporous resins

Scutellarin, a flavone glycoside, popularly used in the treatment of heart disease, has been efficiently separated using macroporous resins from crude extracts of Chinese medicinal plant Erigeron breviscapus (vant.) Hand. Mazz. HPD-800 resin offered the best adsorption and desorption capacity for scutellarin among the eight macroporous resins tested, and its adsorption data at 25 degrees C fit best to the Langmuir isotherm. The dynamic adsorption and desorption experiments have been carried out on a HPD-800 resin packed column to optimize the separation process of scutellarin from the crude extracts of E. breviscapus. After one run treatment with HPD-800 resin, the scutellarin content in the product was increased 15.69-fold from 2.61% to 40.96% with a recovery yield of 95.01%. The preparative separation process via adsorption-desorption method developed in this study provides a new approach for scale-up separation and purification of scutellarin for its wide pharmaceutical use.     

Separation of chlorogenic acid from honeysuckle crude extracts by macroporous resins

Chlorogenic acid, one of the most bioactive compounds rich in the Chinese medicinal herb honeysuckle, is a natural antioxidant and serves as anti-inflammatory, anti-tumor, anti-mutagenic and anti-carcinogenic agent. An efficient preparative separation process of chlorogenic acid from honeysuckle crude extracts has been developed in the present study. HPD-850 resin offers the best adsorption capacity, and adsorption and desorption ratios for chlorogenic acid among the nine macroporous resins tested, and its adsorption rate at 25 degrees C fit best to the Langmuir isotherm. The adsorption capacity of HPD-850 resin was found to depend strongly on the pH value of the initial adsorption solution. The dynamic adsorption and desorption experiments have been carried out on a HPD-850 resin packed column to optimize the separation process of chlorogenic acid from honeysuckle crude extracts. After one run treatment with HPD-850 resin, the chlorogenic acid content in the final product was increased 4.46-fold from 11.2% to 50.0%, with a recovery yield of 87.9%. The preparative separation of chlorogenic acid can be easily and efficiently achieved via adsorption and desorption on HPD-850 resin, and the method developed will provide a potential approach for large-scale separation and purification of chlorogenic acid for its wide pharmaceutical use.     

CDP840

We present the in vitro characterization of a novel phosphodiesterase type 4 inhibitor, CDP840 (R-[+]-4-[2-{3-cyclopentyloxy-4-methoxyphenyl}-2-phenylethyl]pyridine), which has shown efficacy in a phase II allergen challenge study in asthmatics without adverse effects. CDP840 potently inhibits PDE-4 isoenzymes (IC₅₀ 2–30 nM) without any effect on PDE-1, 2, 3, 5, and 7 (IC₅₀>100 μM). It exhibited no significant selectivity in inhibiting human recombinant isoenzymes PDE-4A, B, C or D and was equally active against the isoenzymes lacking UCR1 (PDE-4B2 and PDE-4D2). In contrast to rolipram, CDP840 acted as a simple competitive inhibitor of all PDE-4 isoenzymes. Studies with rolipram indicated a heterogeneity within all the preparations of PDE-4 isoenzymes, indicative of rolipram inhibiting the catalytic activity of PDE-4 with both a low or high affinity. These observations were confirmed by the use of a PDE-4A variant, PDE-4A_330–886, which rolipram inhibited with low affinity (IC₅₀=1022 nM). CDP840 in contrast inhibited this PDE-4A variant with similar potency (IC₅₀=3.9 nM), which was in good agreement with theK _d of 4.8 nM obtained from [³H]-CDP840 binding studies. Both CDP840 and rolipram inhibited the high-affinity binding of [³H]-rolipram binding to PDE-4A, B, C and D with similarK _{d app} (7–19 nM and 3–5 nM, respectively). Thus, the activity of CDP840 at the [³H]-rolipram binding site was in agreement with the inhibitor’s activity at the catalytic site. However, rolipram was ∼100-fold more potent than CDP840 at inhibiting the binding of [³H]-rolipram to mouse brain in vivo. These data clearly demonstrate that CDP840 is a potent selective inhibitor of all PDE-4 isoenzymes. In contrast to rolipram, CDP840 was well-tolerated in humans. This difference, however, cannot at present be attributed to either isoenzyme selectivity or lack of activity in vitro at the high-affinity rolipram binding site (Sr).     

天然茄子皮红色素分离纯化的动态吸附参数研究

运用静态吸附与解吸试验对5种大孔吸附树脂进行了筛选,通过单因素试验、正交试验确定了大孔树脂吸附茄子皮红色素的最佳操作条件.结果表明,HPD-100树脂对茄子皮红色素的吸附和解吸性能较好;最佳吸附条件为A2B2C2,即料液浓度(以吸光度计)为0.435 Abs,上柱速率为3.0 BV/h,pH值为2.53.     

大孔树脂纯化岩高兰多酚的工艺研究

为获得大孔树脂纯化岩高兰多酚的最佳工艺,以岩高兰的地上部分为原料,通过考察6种不同类型树脂(HPD-100、X-5、AB-8、D101、HPD-600、NKA-II)的含水率、吸附率和解吸率的大小,筛选出一种最适合纯化岩高兰多酚的树脂。在此基础上,选择对纯化工艺影响较大的4种因素(上样浓度、乙醇浓度、洗脱流速、洗脱体积),进行响应面法分析得到最佳工艺。结果表明:HPD-600型大孔树脂对岩高兰多酚的纯化效果最佳,其最优工艺参数为:上样浓度0.84 mg·mL^-1;乙醇浓度62.15%;洗脱流速0.67 mL·min^-1;洗脱体积2.71 BV。该条件下,岩高兰多酚的提取率为229.18 mg·g^-1,岩高兰多酚的纯度由8.11%提高到22.56%,回收率为67.78%。本研究为岩高兰多酚的纯化工艺提供了新的技术路线,也可为岩高兰提取物的研究和应用提供参考。     

The effect of various coupling methods on the adsorption of serum proteins by immobilized concanavalin A

Concanavalin A was coupled to Sepharose 6B after activation by cyanogen bromide, divinyl sulfone, or glutaraldehyde and its adsorption behavior toward human serum proteins was investigated. The capacity and selectivity of the lectin were influenced markedly by the method used for its immobilization. When coupled to agarose via CNBr, the resulting absorbent showed the highest capacity and the lowest selectivity relative to the other two derivatives. When coupled to agarose via divinyl sulfone, the lectin exhibited high selectivity but its adsorption capacity was significantly reduced. Coupling to agarose via glutaraldehyde gave an absorbent that behaved, in some respects, differently from the other two. The variability in the adsorption behavior of the immobilized concanavalin A is attributed in part to variations in the degree of multipoint attachment of the lectin or its subunits to the agarose matrix. The selectivity increases also with increasing sample load, irrespective of the coupling method used, apparently due to protein-protein displacement.     

Isolation of a thermostable uricase-producing bacterium and study on its enzyme production conditions

A uricase-producing bacterium was isolated from soil with a medium containing uric acid as the only carbon source. Based on its morphological and physiological characteristics, as well as 16S rDNA sequence and phylogenetic tree analysis, this new isolate belong to the genus Microbacterium. After heat treatment at 70 °C for 30 min, the uricase retained about 100% of the initial activity. The enzyme activity remained largely unchanged when it was stored in borate buffer at pH 8.5 at 37 °C for 40 days. The effects of different factors on the enzyme production were studied. Maize milk was the best C and N resources, and the uric acid showed to be an inducer for uricase production. When the strain was cultured at 30 °C at pH 7.5 for 30–36 h, the uricase activity peaked at 1.0 U/ml.     

Interfacial activation and bioimprinting of Candida rugosa lipase immobilized on polypropylene: effect on the enzymatic activity in solvent-free ethyl oleate synthesis

Lipase from Candida rugosa adsorbed on polypropylene powder (CR/PP) was subjected to activation pre-treatments in order to enhance its activity in solvent-free ethyl oleate synthesis. The lipase activation achieved upon adsorption onto a hydrophobic support like PP was further enhanced through oil–water interfacial activation and bioimprinting of the immobilized catalyst. Several aliphatic hydrocarbons/buffer pH 7 mixtures were used in the pre-activation of CR/PP with specific activity increments of up to 29%. Molecular bioimprinting was also performed, with specific activity enhancement of near 70% with respect to non-treated CR/PP. The effect of several fatty acids used as templates and the water present in the reaction medium was studied. The oil–water activation and bioimprinting treatments that led to the best activities were assayed at the immobilization step. Instead of pre-treating CR/PP adsorbed in buffer medium, interfacial activation with octane/buffer and bioimprinting with a mix of fatty acids were carried out in the immobilization vial. The best results were found for CR/PP immobilized in 5/95 octane/buffer (v/v, %) medium. In that way, a biocatalyst with enhanced specific activity is obtained right from the immobilization vial with no need of further activation steps prior to reaction.     

Synaptic and nonsynaptic mitochondria demonstrate a different degree of calcium-induced mitochondrial dysfunction

AimsSince variety in response to Ca²⁺-induced mitochondrial dysfunction in different neuronal mitochondrial populations is associated with the pathogenesis of several neurological diseases, we investigated the effects of Ca²⁺ overload on synaptic (SM) and nonsynaptic mitochondrial (NM) dysfunction and probed the effects of cyclosporin A (CsA), 4′-chlorodiazepam (CDP) and Ru360 on relieving mitochondrial damage.Main methodsSM and NM mitochondria were isolated from rats' brains (n = 5/group) and treated with various concentrations (5, 10, 100, and 200 μM) of Ca²⁺, with and without CsA (mPTP blocker), CDP (PBR/TSPO blocker) and Ru360 (MCU blocker) pretreatments. Mitochondrial function was determined by mitochondrial swelling, ROS production and mitochondrial membrane potential changes (ΔΨm).Key findingsAt 200-μM Ca²⁺, SM presented mitochondrial swelling to a greater extent than NM. At 100 and 200-μM Ca²⁺, the ROS production of SM was higher than that of NM and ΔΨm dissipation of SM was also larger. CsA, CDP and Ru360 could reduce ROS production of SM and NM with exposure to 200-μM Ca²⁺. However, only Ru360 could completely inhibit ROS generation in both SM and NM, whereas CsA and CDP could only partially reduce the ROS level in SM. Moreover, CsA and CDP pretreatments were not able to restore ΔΨm. However, Ru360 pretreatment could protect ΔΨm dissipation in both SM and NM, with complete protection observed only in NM.SignificanceOur findings suggested that mitochondrial calcium uniporter is a possible major pathway for calcium uptake in both mitochondrial populations. However, SM might have additional pathways involved in the calcium uptake.     

Preparation of phenylalanine imprinted polymer by the sol–gel transition method

A phenylalanine (Phe) imprinted polymer was prepared by the wet-phase inversion and sol–gel transition method to endow a copolymer matrix with a large uptake capacity of template molecules and prominent adsorption selectivity at the high concentration of the racemate solution. A copolymer bead prepared by wet-phase inversion was shrunken in a hydrochloric acid solution containing a large amount of template molecules after swelling in a sodium hydroxide solution. Template molecules were effectively implanted in the polymer matrix during shrinking after swelling. The adsorption selectivities of Phe-imprinted copolymer bead were 2.1 and 1.33 at 1 g and 10 g Phe/l racemate solution, respectively, and the Phe uptake capacity reached about 1 g Phe/g dry weight of the copolymer. The adsorption selectivity of the copolymer was retained after five batches of adsorption/desorption in 1 g Phe/l solution composed of 5% D-Phe and 95% L-Phe.     

Production of an extracellular alkaline metalloprotease from a newly isolated, moderately halophile, Salinivibrio sp. strain AF-2004

An extracellular protease was produced under stress conditions of high temperature and high salinity by a newly isolated moderate halophile, Salinivibrio sp. strain AF-2004 in a basal medium containing peptone, beef extract, glucose and NaCl. A modification of Kunitz method was used for protease assay. The isolate was capable of producing protease in the presence of sodium chloride, sodium sulfate, sodium nitrate, sodium nitrite, potassium chloride, sodium acetate and sodium citrate. The maximum protease was secreted in the presence of 7.5 to 10% (w/v) sodium sulfate or 3% (w/v) sodium acetate (4.6 U ml⁻¹). Various carbon sources including glucose, lactose, casein and peptone were capable of inducing enzyme production. The optimum pH, temperature and aeration for enzyme production were 9.0, 32 °C and 220 rpm, respectively. The enzyme production corresponded with growth and reached a maximum level during the mid-stationary phase. Maximum protease activity was exhibited in the medium containing 1% (w/v) NaCl at 60 °C, with 18% and 41% activity reductions at temperature 50 and 70 °C, respectively. The optimum pH for enzyme activity was 8.5, with 86% and 75% residual activities at pH 10 and 6, respectively. The activity of enzyme was inhibited by EDTA. These results suggest that the protease secreted by Salinivibrio sp. strain AF-2004 is industrially important from the perspectives of its activity at a broad pH ranges (5.0–10.0), its moderate thermoactivity in addition to its high tolerance to a wide range of salt concentration (0–10% NaCl).     

Optimization of a new heteropolysaccharide production by a native isolate of Leuconostoc sp. CFR-2181

Aim:  This work is aimed at optimizing the production of a new heteropolysaccharide (HePS) of Leuconostoc sp. CFR-2181 by standardizing the fermentation conditions in a low cost semi-synthetic medium.
Methods and Results:  Both nutritional and cultural parameters, such as carbon source and its concentration, initial pH of the exopolysaccharide (EPS) medium, fermentation temperature and fermentation period were optimized. Fermentation of the EPS medium (pH 6·7), containing sucrose at 5% (w/v) and 5% (v/v) inoculum, at 25 ° C resulted in maximum production of HePS (18·38 g l⁻¹) by the isolate in 4 h of fermentation.
Conclusions:  The isolate was found to produce good amount of HePS in just 4 h in a low cost semi-synthetic EPS medium.
Significance and Impact of the Study:  This is the first report on rapid production of HePS by any lactic culture, which can significantly reduce the cost of the EPS.     

Citicoline (CDP‐choline) increases Sirtuin1 expression concomitant to neuroprotection in experimental stroke

CDP‐choline has shown neuroprotective effects in cerebral ischemia. In humans, although a recent trial International Citicoline Trial on Acute Stroke (ICTUS) has shown that global recovery is similar in CDP‐choline and placebo groups, CDP‐choline was shown to be more beneficial in some patients, such as those with moderate stroke severity and not treated with t‐PA. Several mechanisms have been proposed to explain the beneficial actions of CDP‐choline. We have now studied the participation of Sirtuin1 (SIRT1) in the neuroprotective actions of CDP‐choline. Fischer rats and Sirt1^?/? mice were subjected to permanent focal ischemia. CDP‐choline (0.2 or 2 g/kg), sirtinol (a SIRT1 inhibitor; 10 mg/kg), and resveratrol (a SIRT1 activator; 2.5 mg/kg) were administered intraperitoneally. Brains were removed 24 and 48 h after ischemia for western blot analysis and infarct volume determination. Treatment with CDP‐choline increased SIRT1 protein levels in brain concomitantly to neuroprotection. Treatment with sirtinol blocked the reduction in infarct volume caused by CDP‐choline, whereas resveratrol elicited a strong synergistic neuroprotective effect with CDP‐choline. CDP‐choline failed to reduce infarct volume in Sirt1^?/? mice. Our present results demonstrate a robust effect of CDP‐choline like SIRT1 activator by up‐regulating its expression. Our findings suggest that therapeutic strategies to activate SIRT1 may be useful in the treatment of stroke.

     

Affinity separation of immunoglobulin G subclasses on dye attached poly(hydroxypropyl methacrylate) beads

Poly(hydroxypropyl methacrylate) [poly(HPMA)] gel beads with an average size of 150–200 μm were prepared by suspension polymerization of hydroxypropyl methacrylate (HPMA). The poly(HPMA) gel beads were characterized by swelling studies, surface area measurements, scanning electron microscopy (SEM) and elemental analysis. Poly(HPMA) gel beads had a specific surface area of 88.6 m²/g. The dye Reactive Green HE 4BD was chemically attached to yield dye-poly(HPMA) gel beads at an average concentration of 44.3 μmol dye/g bead with a swelling ratio of 75%. These dye attached gel beads were used in the separation of immunoglobulin-G (IgG) through adsorption–elution studies. The non-specific adsorption of IgG on the poly(HPMA) gel beads was 0.5 mg/g. The attachment of Reactive Green HE 4BD significantly increased the adsorption of IgG up to 71 mg/g. The Langmuir adsorption model was found to be applicable in interpretation of data pertaining to the adsorption studies of IgG with Reactive Green HE 4BD attached to the poly(HPMA) gel beads. The adsorption of IgG was found to be optimal at pH 7.0. The adsorption of IgG was observed to decrease by about 76% as the NaCl concentration was increased from 0.001 to 0.1 M. The IgG adsorption capacity of the dye attached poly(HPMA) gel beads was determined for a commercially available IgG solution to be 4.2 mg/g for IgG₁, 64.5 mg/g for IgG₂, 7.1 mg/g for IgG₃ and 10.8 mg/g for IgG₄. The Reactive Green HE 4BD attached poly(HPMA) gel beads have a significant adsorption capacity for IgG₂. The quantity of adsorbed IgG₂ is three times higher than the quantity of the other subclasses, IgG₁, IgG₃ and IgG₄. A similar adsorption behaviour was observed when the albumin free human plasma was used. The quantity of adsorbed IgG₂ is higher than the quantity of the other subclasses, IgG₁, IgG₃ and IgG₄. Adsorption capacities for albumin free human plasma were obtained as 6.4 mg/g for IgG₁, 67.8 mg/g for IgG₂, 5.2 mg/g for IgG₃ and 8.6 mg/g for IgG₄. Significant amount of the adsorbed IgG (up to 95%) was eluted in 1 h in the elution medium containing 2.0 M NaCl. Repeated adsorption/elution processes showed that these dye attached gel beads are suitable for IgG adsorption.     

Resolution of 1,3-dioxolane derivatives using the lipase from an Acinetobacter junii SY-01

Acinetobacter junii SY-01 producing a lipase enantioselectively hydrolyzing 1,3-dioxolane derivatives was isolated from water sludge sample and the effect of solvent, acyl donor, vinyl acetate concentration, substrate concentration, operating temperature and immobilization on activity and enantioselectivity was studied for the resolution of 1,3-dioxolane derivatives through transesterification reaction using a lipase from the isolated strain. Best selectivity was obtained at lower substrate concentration (3–5 mM), higher vinyl acetate concentration (500–1000 mM) and lower temperature (30–40 °C) in the reaction mixture. Lipase immobilized onto Accurel MP-1000 (micro-porous polypropylene) gave the best results and the reactivity was about 29-fold higher than the free enzyme without the decrease of enantioselectivity. Resolution of 1,3-dioxolane derivatives was carried out in flask scale containing 100 ml solvents using the lipase immobilized onto Accurel MP-1000. In this reaction, the yield and enantiomeric excess of the remaining (2R, 4S)-alcohol were 31.2% and 98.2%, respectively. This result suggests that it can be used as an alternative method, compared to the present synthetic method, for the production of optically pure (2R, 4S)-itraconazole.     

Removal of chlorophenols from synthetic solutions using Phanerochaete chrysosporium

The potential use of the fungus Phanerochaete chrysosporium to remove chlorophenols (phenol, o-chlorophenol, p-chlorophenol and 2,4,6-trichlorophenol) from aqueous solutions was evaluated. The kinetics of both adsorption and desorption of phenolic compounds was rapid for all adsorbates. The maximum adsorptions of phenol and chlorophenols onto the Phanerochaete chrysosporium were 1.23 mmol/g for phenol, 1.49 mmol/g for o-chlorophenol, 1.78 mmol/g for p-chlorophenol and 2.14 mmol/g for 2,4,6-trichlorophenol. The affinity order was as follows: 2,4,6-trichlorophenol > p-chlorophenol > o-chlorophenol > phenol. Phenol and chlorophenols binding with Phanerochaete chrysosporium were clearly pH dependent. The adsorption of phenol and chlorophenols increased as pH increased. Desorption of phenol or chlorophenols was achieved using methanol solution (30% (v/v)). Phanerochaete chrysosporium is suitable for reuse for more than ten cycles without noticeable loss of adsorption capacity.     

Biosorption of Cr (VI) from aqueous solution by Rhizopus nigricans

The study was aimed to quantify the Cr sorption ability of powdered biomass of Rhizopus nigricans at the best operating conditions. The influence of solution pH, agitation, Cr (VI) concentration, biomass dosage, contact time, biomass particle size and temperature were studied. The optimum pH for biosorption of Cr (VI) was found to be 2.0. Higher adsorption percentage was noted at lower initial concentrations of Cr ions, while the adsorption capacity of the biomass increased with increasing concentration of ions. Optimum biomass dosage was observed as 0.5% (w/v). More than 75% of the ions were removed within 30 min of contact and maximum removal was obtained after 8 h. Biomass particles of smaller size (90 microm) gave maximum adsorption (99.2%) at 100 mg/l concentration. The adsorption capacity increased with increase in temperature and agitation speed and the optimum were determined as 45 degrees C at 120 rpm. Freundlich and Langmuir isotherms were used to evaluate the data and the regression constants were derived. The adsorption rate constant values (Kad) were calculated for different initial concentration of Cr ions and the sorption was found to be higher at lower concentration (100 mg/l) of metal ion.     

Production of tannase from Aspergillus ruber under solid-state fermentation using jamun (Syzygium cumini) leaves

Tannase producing fungal strains were isolated from different locations including garbages, forests and orchards, etc. The strain giving maximum enzyme yield was identified to be Aspergillus ruber. Enzyme production was studied under solid state fermentation using different tannin rich substrates like ber leaves (Zyzyphus mauritiana), jamun leaves (Syzygium cumini), amla leaves (Phyllanthus emblica) and jawar leaves (Sorghum vulgaris). Jamun leaves were found to be the best substrate for enzyme production under solid-state fermentation (SSF). In SSF with jamun leaves, the maximum production of tannase was found to be at 30 °C after 96 h of incubation. Tap water was found to be the best moistening agent, with pH 5.5 in ratio of 1:2 (w/v) with substrate. Addition of carbon and nitrogen sources to the medium did not increase tannase production. Under optimum conditions as standardized here, the enzyme production was 69 U/g dry substrate. This is the first report on production of tannase by A. ruber, giving higher yield under SSF with agro-waste as the substrate.     

Conversion of puerarin into its 7-O-glycoside derivatives by Microbacterium oxydans (CGMCC 1788) to improve its water solubility and pharmacokinetic properties

Microbacterium oxydans strain NJ 6 isolated from soil samples converted puerarin into two novel compounds, puerarin-7-O-glucoside and puerarin-7-O-isomaltoside, via an unreported O-glycosylation of the phenolic hydroxyl group at the 7-position of puerarin. Sucrose, maltotriose, and maltose could be used as glucosyl donors for glycosylation of puerarin, but uridine-diphosphate glucose, glucose, fructose, lactose, cyclodextrin, and starch could not. Regardless of the position of B-ring in the (iso)flavonoids core structure, the glycosylation of the phenolic hydroxyl group at the 7-position of (iso)flavonoids was governed by the presence or absence of a glucosyl residue at 8-C. The apparent solubility of puerarin-7-O-glucoside and puerarin-7-O-isomaltoside was approximately 18 and 100 times that of natural puerarin, respectively. Like parent puerarin, puerarin-7-O-glucoside maintained its physiological ability to relax the contractions of isolated rat thoracic aortic rings in vitro induced by phenylephrine. However, puerarin-7-O-glucoside was able to maintain higher plasma concentrations and have a longer mean residence time in the blood than the parent puerarin.     

Lipase production by Trichosporon fermentans WU-C12, a newly isolated yeast

From the soil samples of various locations, 245 strains of microorganisms were isolated by the enrichment culture method using olive oil as a carbon source. Of these microorganisms one deuteromycotinous yeast was the best producer of extracellular lipase, and the strain WU-C12 was identified as Trichosporon fermentans from the morphological and taxonomical properties. When cultivated at 30°C for 4 d in the medium containing 8% (w/v) corn steep and 3% (v/v) olive oil as sources of nitrogen and carbon, T. fermentans WU-C12 produced 126 U/ml of extracellular lipase. When 3% (v/v) tung oil was used instead of 3% (v/v) olive oil, 146 U/ml of the lipase was produced. Although lipase production decreased to 40 U/ml by the addition of 2% (w/v) glucose to the corn steep-olive oil medium, the strain WU-C12 produced 34 U/ml of lipase in the medium containing 2% (w/v) glucose instead of 3% (v/v) olive oil. On the other hand, T. fermentans WU-C12 could grow and produce lipase in the medium containing n-paraffin as a carbon source.