Sulfated galactofucan from <Emphasis Type="Italic">Lobophora variegata</Emphasis>: Anticoagulant and anti-inflammatory properties

Sulfated polysaccharides (fucans and fucoidans) from brown algae show several biological activities, including anticoagulant and anti-inflammatory activities. We have extracted a sulfated heterofucan from the brown seaweed Lobophora variegata by proteolytic digestion, followed by acetone fractionation, molecular sieving, and ion-exchange chromatography. Chemical analyses and ¹³C-NMR and IR spectroscopy showed that this fucoidan is composed of fucose, galactose, and sulfate at molar ratios of 1:3:2. We compared the anticoagulant activity of L. variegata fucoidan with those of a commercial sulfated polysaccharide (also named fucoidan) from Fucus vesiculosus and heparin. The experimental inflammation models utilized in this work revealed that fucoidan from L. variegata inhibits leukocyte migration to the inflammation site. Ear swelling caused by croton oil was also inhibited when sulfated polysaccharides from F. vesiculosus and L. variegata were used. The precise mechanism of different action between homo-and heterofucans is not clear; nevertheless, the polysaccharides studied here may have therapeutic potential in inflammatory disorders. Published in Russian in Biokhimiya, 2008, Vol. 73, No. 9, pp. 1265–1273.     

Sulfated polysaccharides from marine green algae Ulva conglobata and their anticoagulant activity

Sulfated polysaccharides from the green algae Ulva conglobata were isolated and prepared by extraction in hot water, precipitation with ethanol and purification by ion-exchange and size-exclusion column chromatography. The characterizations of the sulfated polysaccharides were defined, and containing 23.04–35.20% sulfate ester groups, 10.82–14.91% uronic acid and 3.82–4.51% protein. Gas chromatography analysis shows that the sulfated polysaccharides from Ulva conglobata are mainly consisted of rhamnose with variable contents of glucose and fucose, trace amounts of xylose, glactose and mannose. The anticoagulant properties of the sulfated polysaccharides were compared with those of heparin by studying the activated partial thromboplastin time using normal human plasma. The sulfated polysaccharide from Ulva conglobata collected in Qingdao, China is the most potent among the sulfated polysaccharides tested. The mechanism of anticoagulant activity mediated by the sulfated polysaccharides is due to the direct inhibition of thrombin and the potentiation of heparin cofactor II.     

Occurrence of a unique fucose-branched chondroitin sulfate in the body wall of a sea cucumber

The sulfated polysaccharides in the body wall of the sea cucumber occur as three fractions that differ markedly in molecular mass and chemical composition. The fraction containing a high molecular mass component has a high proportion of fucose and small amounts of galactose and amino sugars, whereas another fraction contains primarily a sulfated fucan. The third fraction (F-2), which represents the major portion of the sea cucumber-sulfated polysaccharides, contains approximately equimolar quantities of glucuronic acid, N-acetyl galactosamine, and fucose, and has a sulfate content higher than that in the other two fractions. The structure of fraction F-2 was examined in detail. This polysaccharide has an unusual structure composed of a chondroitin sulfate-like core, containing side chain disaccharide units of sulfated fucopyranosyl linked to approximately half of the glucuronic acid moieties through the O-3 position of the acid. These unusual fucose branches obstruct the access of chondroitinases to the chondroitin sulfate core of F-2. However, after partial acid hydrolysis, which removes the sulfated fucose residues from the polymer, fraction F-2 is degraded by chondroitinases into 6-sulfated and nonsulfated disaccharides.     

Structural and hemostatic activities of a sulfated galactofucan from the brown alga Spatoglossum schroederi. An ideal antithrombotic agent?

The brown alga Spatoglossum schroederi contains three fractions of sulfated polysaccharides. One of them was purified by acetone fractionation, ion exchange, and molecular sieving chromatography. It has a molecular size of 21.5 kDa and contains fucose, xylose, galactose, and sulfate in a molar ratio of 1.0:0.5:2.0:2.0 and contains trace amounts of glucuronic acid. Chemical analyses, methylation studies, and NMR spectroscopy showed that the polysaccharide has a unique structure, composed of a central core formed mainly by 4-linked beta-galactose units, partially sulfated at the 3-O position. Approximately 25% of these units contain branches of oligosaccharides (mostly tetrasaccharides) composed of 3-sulfated, 4-linked alpha-fucose and one or two nonsulfated, 4-linked beta-xylose units at the reducing and nonreducing end, respectively. This sulfated galactofucan showed no anticoagulant activity on several "in vitro" assays. Nevertheless, it had a potent antithrombotic activity on an animal model of experimental venous thrombosis. This effect is time-dependent, reaching the maximum 8 h after its administration compared with the more transient action of heparin. The effect was not observed with the desulfated molecule. Furthermore, the sulfated galactofucan was 2-fold more potent than heparin in stimulating the synthesis of an antithrombotic heparan sulfate by endothelial cells. Again, this action was also abolished by desulfation of the polysaccharide. Because this sulfated galactofucan has no anticoagulant activity but strongly stimulates the synthesis of heparan sulfate by endothelial cells, we suggested that this last effect may be related to the "in vivo" antithrombotic activity of this polysaccharide. In this case the highly sulfated heparan sulfate produced by the endothelial cells is in fact the antithrombotic agent. Our results suggested that this sulfated galactofucan may have a potential application as an antithrombotic drug.     

STRUCTURE OF EXTRACELLULAR POLYSACCHARIDES PRODUCED BY A SOIL CRYPTOMONAS SP. (CRYPTOPHYCEAE)1

The Hindak strain of a Cryptomonas species (Cryptophyceae) produces extracellular polysaccharides. Because there is no information on the structure of these compounds in the Cryptophyceae we conducted structural studies. Gas–liquid chromatographic analyses showed that the polysaccharide is composed of fucose, rhamnose, xylose, mannose, glucose, galactose, galacturonic acid, glucuronic acid, and traces of 3-O-methyl galactose. The polysaccharide was separated into two subtractions by ion-exchange chromatography. Fraction A consisted mainly of 1,3-linked galactose units and 1,4-linked galacturonic acid. Unlike fraction B, fraction A did not have xylose, 3-O-methyl galactose, or glucuronic acid. Also, its degree of branching was low compared to that of fraction B. Only traces of sulfate were present infraction A, but fraction B was 10–15% sulfated. Protein was approximately 1% in both fractions. These polysaccharides appear to be a novel type of polymer in algae.     

Characterization and in vitro antioxidant activities of polysaccharides from Pleurotus ostreatus

Two polysaccharide fractions (PSPO-1a and PSPO-4a) were isolated from the fruiting bodies of Pleurotus ostreatus using ethanol precipitation, anion-exchange chromatography and gel permeation chromatography. Both fractions were heteropolysaccharide containing protein and uronic acid. PSPO-1a was composed of mannose, glucose, galactose, xylose and rhamnose with a molar ratio of 2.47:0.91:1.00:1.66:3.87. PSPO-4a was composed of only three monosaccharides: rhamnose, mannose and galactose with a molar ratio of 0.92:2.69:1.00. The average molecular weight of PSPO-1a and PSPO-4a determined by HPLC were estimated to be 1.8 × 10(4)Da and 1.1 × 10(6)Da respectively. The in vitro tests revealed that two polysaccharides were natural potential antioxidant. Both polysaccharides presented stronger DPPH radical and superoxide anion radical scavenging activity with increasing concentrations, but less effective on scavenging hydroxyl radical. Compared with PSPO-4a, PSPO-1a was the more effective free-radical scavenger. In conclusion, the two polysaccharides may be useful as a naturally potential antioxidant agent for application in food and medicinal fields.     

苦瓜多糖的提取、分离纯化及组成性质

正交实验确定提取工艺后,用热水提取法得到苦瓜多糖(MCP).对MCP进行DEAE-32离子交换层析分离,得到3个多糖组分MCP1、MCP2和MCP3. 进一步采用Sephacryl S-400凝胶层析进行分离,经凝胶层析和高效液相色谱检测表明,MCP1、MCP2为均一性多糖组分.通过高效液相凝胶色谱法测定了两者的相对分子质量分别为1.16×106和7.45×105.用PMP衍生化法测定其单糖,结果表明: MCP1系由Man、Rham、GlcUA、GalUA、Glu、Gal、Xyl、Ara等单糖组成的杂多糖,摩尔比为1.03:2.93:1.00:14.95:2.16:30.70:2.85:4.50.MCP2系由Rham、GalUA、Gal、Xyl、Ara等单糖组成的杂多糖,对应的摩尔比为1.63:21.88:4.66:1.00:1.29.紫外光谱表明该多糖不含蛋白质和核酸.     

Mucilages from the Ripe Fertile Frond of Undaria pinnatifida f. distans

The fractionation of the water extractable mucilage from the ripe fertile frond of Undaria pinnatifida f distans Miyabe et Okamura was studied. By an acid treatment, CPC-complex method, and DEAE-cellulose column chromatography this mucilage was separated into eleven fractions, of which the main polysaccharides were two fucogalactan sulfates (CPC-C-NaOH and CPC-N-NaOH) and an alginic acid. Judging by the ultracentrifugal analysis the formers are respectively composed of one component. They are probably identical, if their molecular sizes may differ slightly each other. Contents of the constituents in them are as follows: CPC-C-NaOH (main fucogalactan sulfate): fucose, 16; galactose, 21.5; sulfuric acid, 27.5%. CPC-N-NaOH (minor fucogalactan sulfate): fucose, 20.0; galactose, 30.7; sulfuric acid, 31.2%. Therefore, there exists in those compounds one sulfate residue per each sugar.

The ratio of d-mannuronic acid to l-guluronic acid in the alginic acid was found 0.87; and this value changed, by the KCI fractionation of it, to 1.64 for the KCI-insoluble fraction and to 0.76 for the KCI-soluble fraction.     

Study of antioxidant activities of sulfated polysaccharides from Laminaria japonica

The composition, molecular weight and in vitro antioxidant activity of various sulfated polysaccharides obtained by anion exchange chromatography, acid hydrolysis and radical process degradation of the crude sulfated polysaccharide extracted from Laminaria japonica were compared. The low sulfated F-A2, with a peak-molecular weight (Mp) of 5–15 kDa, 14.5% sulfated ester and 21.8% glucuronic acid, exhibited a very strong antioxidant activity on superoxide and hydroxyl radicals, with activity even higher than that of large molecular weight fractions F-A and F-B. However, highly sulfated fractions with a peak-molecular weight below 15 kDa had much lower antioxidant activities than other fractions. These results indicated that the sulfate group of the low molecular weight fractions represents a physical block for the reaction with oxygen radicals. The chemical properties and antioxidant activities of sulfated polysaccharide fractions obtained by radical process degradation of crude sulfated polysaccharide were quite different from those obtained by acid hydrolysates. By radical process degradation, the high molecular weight was decreased to give LM2 (Mp 8 kDa) and LM1 (Mp 1.5 kDa), with a yield of 40% and 15%, respectively. LM2 was enriched with fucose and sulfated ester, while containing low amounts of glucuronic acid. The antioxidant activity showed that LM2 was unable to scavenge either superoxide or hydroxyl radical, which suggested that radical process degradation targeted mainly ascopyllan-like species rich in glucuronic acid, while the fraction rich in sulfated l-fucose remained unchanged. However, LM1 with Mp 1.5 kDa still retained apparent scavenging ability for superoxide radical, although it contained no glucuronic acid and certain amounts of galactose and mannose as main neutral sugars. These result suggest that the antioxidant activity of sulfated polysaccharides is apparently related not only to molecular weight and sulfated ester content, as previously determined, but also to glucuronic acid and fucose content.     

Isolation, partial characterization, and biological properties of polysaccharides from crude papain

Two polysaccharides have been isolated from crude papain by precipitation of papain with ammonium sulfate, further precipitation of other proteins with trichloroacetic acid, and chromatography of the supernatant on DEAE-cellulose. The first polysaccharide to be eluted, designated PP-I, contained D-glucuronic acid, D-glucose, D-galactose, L-arabinose, and L-rhamnose, in the approximate molar ratios of 4:1:12:10:4. The other (PP-II), eluted at a higher salt-concentration, contained the same sugars (with about one-third less glucose and more uronic acid) in the approximate molar ratios of 13:1:40:26:12. Reduction of the uronic acid groups of PP-II produced a polysaccharide (PP-II-R) containing the same sugars in the approximate molar ratios of 2:11:37:28:12. Hydrolysis of a mixture of the two polysaccharides yielded an aldobiouronic acid, D-glucosyluronic acid-D-galactose. Neither polysaccharide preparation contained protein. These polysaccharides dramatically affected aggregation and alignment of normal human fibroblasts but had no effect on a mouse embryo fibroblast aneuploid cell-line that does not exhibit contact inhibition of growth or movement. In aggregating cells, these polysaccharides caused the cells to behave as contact-inhibited cells, that is, cell division and nuclear area were decreased.     

Occurrence of chondroitin sulfate E in glycosaminoglycan isolated from the body wall of sea cucumber Stichopus japonicus

Glycosaminoglycan was isolated from the body wall of sea cucumber Stichopus japonicus by a method consisting of enzymatic digestion, gel filtration, and ion-exchange chromatography. One gram of sea cucumber glycosaminoglycan was composed of 2.50 mmol of sulfate, 0.47 mmol of N-acetylgalactosamine (GalNAc), 0.53 mmol of glucuronic acid (GlcA), 1.73 mmol of fucose, and a small amount of peptide. When mildly hydrolyzed with 0.1 N H2SO4, this glycosaminoglycan released two products, one consisting of fucose plus sulfate and the other of fucose only. Partially hydrolyzed glycosaminoglycan thus obtained was composed of sulfate, GalNAc, GlcA, and fucose at a molar ratio of 3:2:2:1. Partially hydrolyzed glycosaminoglycan was easily digested with chondroitinase AC II. In ion-exchange chromatography, the digest exhibited four sharp peaks whose retention times agreed with those of unsaturated 0-(delta Di-0S), mono-(delta Di-4S and delta Di-6S), and di-(delta Di-SE) sulfated disaccharide, respectively. The disaccharide unit of sea cucumber glycosaminoglycan was composed of 22.4% chondroitin sulfate E, 11.2% chondroitin, 10.4% chondroitin 4-sulfate, and 56.0% chondroitin 6-sulfate.     

Fractionation and Characterization of the Sulfated Oligosaccharide Chains of Ovomucin

The O-glycosidically linked carbohydrate units of ovomucin were released from serine and threonine in peptide as oligosaccharide chains by alkali treatment with and without borohydride. Two sulfated oligosaccharides were fractionated by using gel filtration and ion-exchange chromatography. The yield of sulfated oligosaccharides released by alkali treatment was higher in the presence of borohydride than in the absence of borohydride. The sulfated oligosaccharides released by alkali treatment with borohydride were as follows: an oligosaccharide composed of N-acetylgalactosaminitol, galactose, N-acetylneuraminic acid and sulfate in a molar ratio of about 1: 1: 1: 1 and another oligosaccharide in a molar ratio of about 1:1: 0.6: 0.5.     

Separation,purification, anticoagulant activity and preliminary structural characterization of two sulfated polysaccharides from sea cucumber Acaudina molpadioidea and Holothuria nobilis

In this study, we isolated two fucosylated polysaccharide sulfates (ACP and HOP) from sea cucumber Acaudina molpadioidea and Holothuria nobilis, with an average molecular weight of 90.8 and 135.8 kDa, respectively. We investigated and compared their anticoagulant activities through anticoagulant assay. Our data showed that both polysaccharides possessed good anticoagulant activity, but HOP's activity was higher than that of ACP. Due to the different anticoagulant activities of ACP and HOP, we compared the preliminary structural characterizations of these two sulfated polysaccharides, and found that both ACP and HOP consisted of β-d-glucuronic acid, β-d-N-acetyl-galactosamine, α-l-fucose and sulfate groups. ACP and HOP had almost identical ratios of glucuronic acid, N-acetyl-galactosamine and fucose. However, the sulfate contents and sulfation patterns of fucose residues of ACP and HOP were obviously different. There were 4-O-sulfated fucose, 3,4-O-disulfated fucose and 2,4-O-disulfated fucose in ACP, but only 3-O-sulfated fucose and 2,4-O-disulfated fucose were present in HOP. Therefore, their distinct anticoagulant activities might be due to the different sulfate contents and sulfation patterns of their fucose residues.     

Chemical characters and antioxidative properties of sulfated polysaccharides from Laminaria japonica

A low molecular weight sulfated polysaccharide (L-A) was prepared bymild acid hydrolysis of crude fucoidan (F-A) from Laminaria japonica. In comparison with F-A, L-A had a lower proportion of fucose residues,but a similar proportion of sulfate. The galactose content of both fractionswas relatively high, especially for L-A (57%). The antioxidant propertiesof the two polysaccharides were studied using two low-density lipoproteinoxidation systems. L-A had a stronger effect against low-density lipoproteinoxidation in both systems. F-A inhibited the AAPH-induced low-densitylipoprotein oxidation, but had little effect on the Cu⁺⁺-inducedsystem due to its large molecular mass. The active sulfated fraction L-A,containing galactose, mannose and fucose (about 9: 2: 2) is reported herefor the first time.     

超滤分离和鉴定三种香菇多糖

用热水从香菇子实体中浸提出香菇多糖,采用两种超滤陶瓷膜将粗多糖分级成三部分Le1,Le2和Le3。所有的这三种多糖都由两组分所组成,采用凝胶过滤色谱测定了多糖分子量,13CNMR和IR光谱测定显示多糖Le1为含α糖甙键的多糖,多糖Le3为含β糖甙键的多糖。采用气相色谱法测定了三种多糖的单糖组成,结果显示三种多糖都由葡糖糖,阿拉伯糖,木糖,甘露糖和半乳糖组成,Le1,Le2和Le3中阿拉伯糖、木糖、甘露糖、半乳糖、葡萄糖的摩尔比分别为0.15∶0.52∶1.00∶1.20∶7.20、0.21∶0.68∶1.00∶1.02∶11.56、0.29∶0.42∶1.00∶0.85∶16.20。三种多糖Le1,Le2和Le3的平均分子量分别为4.02×104、2.16×105和8.93×105。     

猴头菌子实体和菌丝体多糖的分离纯化与理化特征的比较*

人工栽培的猴头菌子实体和固体培养的菌丝体分别经热水提取,浓缩、醇析后得子实体粗多糖（HFP）和菌丝体粗多糖（HMP）,HFP的得率和多糖含量均高于HMP;两者再经透析、Sevag法脱蛋白、乙醇分级沉淀、SephadexG-100柱层析纯化,得子实体纯多糖hfp-1和菌丝体纯多糖 hmp-2,经HPLC检测hfp-1和hmp-2为单一均匀多糖。气相色谱分析表明hfp-1的单糖组成为阿拉伯糖、甘露糖、半乳糖和葡萄糖,摩尔比为：0.12：0.04：1.00：0.71;hmp-2的单糖组成为阿拉伯糖、木糖、甘露糖、半乳糖和葡萄糖,摩尔比为：0.25：0.41：0.31：1.00：0.29。紫外光谱分析表明组成中不含核酸和蛋白质,红外光谱分析二者均有多糖特征吸收峰,hfp-1有β-型连接的吸收峰,hmp-2无明显的β-型连接的吸收峰;经HPLC进行分子量测定,hfp-1的分子量为54000,hmp-2的分子量为68000。猴头菌子实体多糖和菌丝体多糖在化学组成上有一定的差异。     

A wide diversity of sulfated polysaccharides are synthesized by different species of marine sponges

Sulfated polysaccharides were extracted from four species of marine sponges by exhaustive papain digestion. These compounds were purified by anion-exchange and gel-filtration chromatography. Analysis of the purified polysaccharides revealed a species-specific variation in their chemical composition and also in their molecular masses. In the species Aplysina fulva we found a sulfated glucan with a glycogen-like structure. The other three species contained sulfated polysaccharides with variable proportions of galactose, fucose, arabinose and hexuronic acid and also with different degrees of sulfation. Although the complex nature of these polysaccharides did not allow complete structure determination, we detected the occurrence of 4-sulfated residues of fucose and arabinose in the species Dysidea fragilis. The biological role of these sulfated polysaccharides requires further investigation. They may be involved in the species-specific aggregation of sponge cells and/or in the structural integrity of sponge, resembling the proteoglycans of mammalian connective tissues.     

Designed optimization of a single-step extraction of fucose-containing sulfated polysaccharides from Sargassum sp.

Fucose-containing sulfated polysaccharides can be extracted from the brown seaweed, Sargassum sp. It has been reported that fucose-rich sulfated polysaccharides from brown seaweeds exert different beneficial biological activities including anti-inflammatory, anticoagulant, and anti-viral effects. Classical extraction of fucose-containing sulfated polysaccharides from brown seaweed species typically involves extended, multiple-step, hot acid, or CaCl₂ treatments, each step lasting several hours. In this work, we systematically examined the influence of acid concentration (HCl), time, and temperature on the yield of fucose-containing sulfated polysaccharides (FCSPs) in statistically designed two-step and single-step multifactorial extraction experiments. All extraction factors had significant effects on the fucose-containing sulfated polysaccharides yield, with the temperature and time exerting positive effects, and the acid concentration having a negative effect. The model defined an optimized single-step FCSPs extraction procedure for Sargassum sp. (a brown seaweed). A maximal fucose-containing sulfated polysaccharides yield of ～7% of the Sargassum sp. dry matter was achieved by the optimal extraction procedure of: 0.03?M HCl, 90°C, 4?h. HPAEC-PAD analysis confirmed that fucose, galactose, and glucuronic acid were the major constituents of the polysaccharides obtained by the optimized method. Lower polysaccharide yield, but relatively higher fucose content was obtained with shorter extraction time. The data also revealed that classical multi-step extraction with acid ≥0.2?M HCl at elevated temperature and extended time had a detrimental effect on the FCSPs yield as this treatment apparently disrupted the structural integrity of the polymer and evidently caused degradation of the carbohydrate chains built up of fucose residues.     

Studies on by-products from the industrial extraction of alginate

The chemical composition of fucans isolated from leach-water, an industrial alginate extraction by-product, was investigated. Several fractions were obtained by anion exchange and gel permeation chromatography. They all contained fucose, but differed in the uronic acid, sulfate, xylose and galactose contents. They distributed as a continuum between uronic acid rich and sulfate poor to sulfate rich and uronic acid poor molecules. Two highly sulfated fractions were studied in particularly by chemical means (methylation, carboxy reduction, desulfation, controlled acid hydrolysis) and by¹³C nuclear magnetic resonance spectroscopy. One fraction consisted of a highly branched fucan (43.8% fucose) composed mostly of 1,2,3,4- and 1,2,4-linked fucose with some 1,4-,1,3,4- and 1,3-linkages and sulfate (23.9%) occurring on O₂ and/or O₃ and/or O₄. The other was composed mainly of fucose (31.6%), galactose (24.7%) and sulfate (23.7%). It consisted primarily of 1,6-, 1,4,6-, 1,3- and 1,3,6-linked galactose 6-and/or 4- and/or 3-sulfate on which are linked essentially terminal fucose or 1,4-linked with sulfate on O₂ and/or O₃ and/or O₄. None of these highly branched fractions contained sufficiently regular segments to yield series of homologous oligosaccharides on partial acid hydrolysis or interpretable¹³C NMR spectra.author for correspondence     

Composition analysis and antioxidant activity of polysaccharide from Dendrobium denneanum

Three polysaccharide fractions (DDP1-1, DDP2-1 and DDP3-1) were successfully purified from the crude polysaccharide of Dendrobium denneanum by DEAE-Cellulose and Sephadex G-200 column chromatography. The average molecular weights (Mws) of these fractions were 51.5, 26.1 and 6.95 kDa, respectively. Monosaccharide components analysis indicated that DDP1-1 and DDP2-1 were composed of arabinose, xylose, mannose, glucose and galactose in a molar ratio of 1.00:2.82:57.11:140.82:7.76 and 1.00:1.62:1.18:77.5:7.79. DDP3-1 was composed of arabinose, mannose, glucose and galactose in a molar ratio of 1.00:1.03:8.84:2.00. On the basis of antioxidant test in vitro, DDP2-1 exhibited the highest antioxidant ability among these samples.