鹿茸硫酸软骨素蛋白聚糖的分离纯化研究

报道了用DEAE-纤维素(DE-23)离子交换柱层析从鹿茸二杠中分离、纯化及鉴定硫酸软骨素的方法.首先用适量蒸馏水浸泡鹿茸二杠并将其捣碎,离心取沉淀用盐酸胍浸提,浸提液对尿素液透析后经DEAE-纤维素(DE-23)离子交换柱层析,吸附大量的硫酸软骨素;再用含盐尿素溶液梯度洗脱、分离后,经软骨素酶消化及琼脂糖凝胶电泳, 与硫酸软骨素标准品比较,证实得到的物质为纯的硫酸软骨素蛋白聚糖,其得率约为48.77%.该方法使硫酸软骨素分离纯化一步完成,大大简化了纯化步骤.     

Characterization of heparan sulfate from the unossified antler of Cervus elaphus

The antler is the most rapidly growing tissue in the animal kingdom. According to previous reports, antler glycosaminoglycans (GAGs) consist of all kinds GAGs except for heparan sulfate (HS). Chondroitin sulfate is the major antler GAG component comprising 88% of the total uronic acid content. In the current study, we have isolated HS from antler for the first time and characterized it based on both NMR spectroscopy and disaccharide composition analysis. Antler GAGs were isolated by protease treatment and followed by cetylpyridinium chloride precipitation. The sensitivity of antler GAGs to heparin lyase III showed that this sample contained heparan sulfate. After incubation of antler GAGs with chondroitin lyase ABC, the HS-containing fraction was recovered by ethanol precipitation. The composition of HS disaccharides in this fraction was determined by its complete depolymerization with a mixture of heparin lyase I, II, and III and analysis of the resulting disaccharides by the reversed-phase (RP) ion pairing-HPLC, monitored by the fluorescence detection using 2-cyanoacetamide as a post-column labeling reagent. Eight unsaturated disaccharides (DeltaUA-GlcNAc, DeltaUA-GlcNS, DeltaUA-GlcNAc6S, DeltaUA2S-GlcNAc, DeltaUA-GlcNS6S, DeltaUA2S-GlcNS, DeltaUA2S-GlcNAc6S, DeltaUA2S-GlcNS6S) were produced from antler HS by digestion with the mixture of heparin lyases. The total content of 2-O-sulfo disaccharide units in antler HS was higher than that of heparan sulfate from most other animal sources.     

Characterization of chondroitin sulfate isolated from trypsin-chymotrypsin digests of cartilage proteoglycans

Proteoglycans from bovine tracheal cartilage were digested with trypsin and chymotrypsin by procedures similar to those described by Mathews (Biochem. J.125, 37 (1971)). Chondroitin sulfate-peptide fragments in the digest were precipitated with cetylpyridinium chloride and subsequently fractionated on a preparative Sepharose 6B column. The fragments, which emerged from the column as a broad peak, were divided into five fractions. Rechromatography of these fractions on an analytical Sepharose 6B column indicated that they had K_av values from 0.17 (fraction 1) to 0.62 (fraction 5). The weight average molecular weight values obtained by meniscus depletion equilibrium centrifugation were 193,000, 126,000, 80,000, 46,000, and 23,000 for fractions 1 to 5, respectively. Values for the molecular weights and for the limiting viscosity numbers, [η], of the fractions were used to determine estimates for α of 0.40–0.46 and for K of 0.43–0.88 in the equation [η] = K·M_v^α. These values for α are consistent with a branched structure for the chondroitin sulfate fractions. Papain digests of each of the fractions were chromatographed on Sephadex G-200. The observed distributions of the monomer chains released by this protease were almost the same for each sample, which indicates that the individual chondroitin sulfate chains in all of the original fractions had nearly the same average molecular weights. The data in sum indicate that peptide fragments which contain from 1 to 8 polysaccharide chains are released when the proteoglycans are digested with trypsin-chymotrypsin.Analytical data indicated that all fractions contained 3–11% of their polysaccharide as keratan sulfate. This indicates either that about 50% of the keratan sulfate chains in the original proteoglycan molecules are located in close proximity to the chondroitin sulfate chains or that some peptides contain large numbers of keratan sulfate chains. Proteoglycan preparations which differed by a factor of about 6 in their ratio of chondroitin sulfate to protein yielded very similar elution patterns on Sepharose 6B after trypsin-chymotrypsin digestion.     

Isolation and properties of a soluble chondroitin sulfate proteoglycan from brain

A proteoglycan in which the glycosaminoglycans are predominantly chondroitin sulfate has been isolated from the soluble fraction of rat brain by ion exchange chromatography and gel filtration. Glycoprotein oligosaccharides are also present, and result in adsorption of the proteoglycan by Concanavalin A-Sepharose. The proteoglycan-glycoprotein complex eluted from the affinity column by alpha-methylglucoside floats near the top of a cesium chloride density gradient run under dissociative conditions (4 M guanidine), but after beta-elimination of the chondroitin sulfate polysaccharide chains from their low buoyant density glycoprotein complex they sediment to the bottom of the gradient. These results suggest that relatively few polysaccharide chains are covalently linked to a large protein core in the dissociated chondroitin sulfate proteoglycan "subunit" from brain, and that the proteoglycans are closely associated with soluble glycoproteins.     

Production of chondroitin sulfate and chondroitin

The production of microbial polysaccharides has recently gained much interest because of their potential biotechnological applications. Several pathogenic bacteria are known to produce capsular polysaccharides, which provide a protection barrier towards harsh environmental conditions, and towards host defences in case of invasive infections. These capsules are often composed of glycosaminoglycan-like polymers. Glycosaminoglycans are essential structural components of the mammalian extracellular matrix and they have several applications in the medical, veterinary, pharmaceutical and cosmetic field because of their peculiar properties. Most of the commercially available glycosaminoglycans have so far been extracted from animal sources, and therefore the structural similarity of microbial capsular polysaccharides to these biomolecules makes these bacteria ideal candidates as non-animal sources of glycosaminoglycan-derived products. One example is hyaluronic acid which was formerly extracted from hen crests, but is nowadays produced via Streptococci fermentations. On the other hand, no large scale biotechnological production processes for heparin and chondrotin sulfate have been developed. The larger demand of these biopolymers compared to hyaluronic acid (tons vs kilograms), due to the higher titre in the final product (grams vs milligrams/dose), and the scarce scientific effort have hampered the successful development of fermentative processes. In this paper we present an overview of the diverse applications and production methods of chondroitin reported so far in literature with a specific focus on novel microbial biotechnological approaches.     

Characterization of a heparan sulfate and a peculiar chondroitin 4-sulfate proteoglycan from platelets. Inhibition of the aggregation process by platelet chondroitin sulfate proteoglycan

A high molecular weight chondroitin sulfate proteoglycan (Mr 240,000) is released from platelet surface during aggregation induced by several pharmacological agents. Some details on the structure of this compound are reported. beta-Elimination with alkali and borohydride produces chondroitin sulfate chains with a molecular weight of 40,000. The combined results indicate a proteoglycan molecule containing 5-6 chondroitin sulfate chains and a protein core rich in serine and glycine residues. Degradation with chondroitinase AC shows that a 4-sulfated disaccharide is the only disaccharide released from this chondroitin sulfate, characterizing it as a chondroitin 4-sulfate homopolymer. It is shown that this proteoglycan inhibits the aggregation of platelets induced by ADP. Analysis of the sulfated glycosaminoglycans not released during aggregation revealed the presence of a heparan sulfate in the platelets. Degradation by heparitinases I and II yielded the four disaccharide units of heparan sulfates: N,O-disulfated disaccharide, N-sulfated disaccharide, N-acetylated 6-sulfated disaccharide, and N-acetylated disaccharide. The possible role of the sulfated glycosaminoglycans on cell-cell interaction is discussed in view of the present findings.     

Thyroxine levels and antler growth in white-tailed deer

1. Five normal male, 5 female, and 3 castrated fawns and 5 adult male white-tailed deer were housed in individual pens for one year to compare the relationships between thyroxine (T4) and other blood parameters and the antler cycle. 2. Biweekly serum samples were examined for T4 titers and levels of serum calcium (Ca), inorganic phosphorus (P), and alkaline phosphatase activity (AP). 3. Seasonal T4 changes were found in all deer groups, with elevated titers in the fall. Female fawns had overall lowered T4 levels. In male fawns and adult bucks, T4 seemed to play a synergistic role in antler initiation and growth. 4. Serum Ca levels remained constant throughout the year, but with lower levels in the female fawns. 5. Serum P levels were also constant seasonally, but with higher levels in the female fawns. There was no age effect on either Ca or P. 6. An age effect was evident on plasma alkaline phosphatase with lower activity in adult bucks. There was no sex effect on AP activity. 7. T4 might have an indirect association with the enzyme AP in Ca and P transport system in white-tailed deer.     

Structural characterization of chondroitin sulfate from sturgeon bone

Chondroitin sulfate (CS) was purified for the first time from the bones of sturgeon and analyzed to evaluate its structure and properties. A single polysaccharide was extracted from sturgeon bone in a concentration of 0.28-0.34% for dry tissue and characterized as CS. By means of specific chondroitinases and HPLC separation of generated unsaturated repeating disaccharides, this polymer was found to be composed of ∼55% of disaccharide monosulfated in position 6 of the GalNAc, ∼38% of disaccharide monosulfated in position 4 of the GalNAc, and ∼7% of nonsulfated disaccharide. The charge density was 0.93 and the ratio of 4:6 sulfated residues was equal to 0.69, a value confirmed by ¹³C NMR experiments. Chondroitinase B confirmed that the purified sturgeon CS contained mainly GlcA (>99.5%) as uronic acid. PAGE analysis showed a CS having a high molecular mass with an average value of 39,880 according to HPSEC values producing a weight average molecular weight (Mw) of 37,500. On the basis of the data collected, it is reasonable to assume that CS isolated from sturgeon bone might be potentially useful for scientific and pharmacological applications, making this bony fish, which is generally discarded after ovary collection, a useful source of this polymer. Finally, this newly identified source of CS would enable the production of this macromolecule having a particular repeating disaccharide composition, structure, and biological properties.     

Crystallization of chondroitin sulfate from an aqueous solution

A new polymorph of sodium chondroitin-4-sulfate has been crystallized from an ethanolic aqueous solution at low pH. The crystallized spherulite specimens give considerably sharper x-ray diffraction lines. The unit cell of the new polymorph is rectangular with dimensions (Å) a = 16.0, b = 24.1, and c = 26.0. The chondroitin-4-sulfate could be purified by recrystallization.     

Regulation of chondroitin sulfate synthesis. Effect of beta-xylosides on synthesis of chondroitin sulfate proteoglycan, chondroitin sulfate chains, and core protein

Monolayer cultures of embryonic chick chondrocytes were incubated with 35SO42- in the presence and absence of 1.0 mM p-nitrophenyl-beta-d-xyloside for 2 days. The relative amounts of chondroitin sulfate proteoglycan and free polysaccharide chains were measured following gel filtration on Sephadex G-200. Synthesis of beta-xyloside-initiated polysaccharide chains was accompanied by an apparent decrease in chondroitin sulfate proteoglycan production by the treated cultures. When levels of cartilage-specific core protein were determined by a radioimmunoassay, similar amounts of core protein were found in both beta-xyloside and control cultures, indicating that decreased synthesis of core protein is not responsible for the observed decrease in chondroitin sulfate proteoglycan production. Activity levels of the chain-initiating glycosyltransferases (UDP-D-xylose: core protein xylosyltransferase and UDP-D-galactose:D-xylose galactosyltransferase) as well as the extent of xylosylation of core protein were found to be similar in cell extracts from both culture types. Furthermore, beta-xylosides did not inhibit the xylosyltransferase reaction in cell-free studies. In contrast, the beta-xylosides effectively competed with several galactose acceptors, including an enzymatically synthesized xylosylated core protein acceptor, in the first galactosyltransferase reaction.     

Characterization of synovial angiogenesis in osteoarthritis patients and its modulation by chondroitin sulfate

Introduction

This work aimed at comparing the production of inflammatory and pro- and anti-angiogenic factors by normal/reactive (N/R) or inflammatory (I) areas of the osteoarthritic synovial membrane. The effects of interleukin (IL)-1β and chondroitin sulfate (CS) on the expression of pro- and anti-angiogenic factors by synovial fibroblasts cells (SFC) were also studied.

Methods

Biopsies from N/R or from I areas of osteoarthritic synovial membrane were collected at the time of surgery. The inflammatory status of the synovial membrane was characterized by the surgeon according to macroscopic criteria, including the synovial vascularization, the villi formation and the hypertrophic aspect of the tissue. We assessed the expression of CD45, von Willebrand factor and vascular endothelial growth factor (VEGF) antigen by immunohistochemistry in both N/R and I biopsies. The production of IL-6, -8, VEGF and thrombospondin (TSP)-1 by N/R or I synovial cells was quantified by ELISA. SFC were cultured in the absence or in the presence of IL-1β (1 ng/ml) and with or without CS (10, 50, 200 μg/ml). Gene expression of pro-angiogenic factors (VEGF, basic fibroblast growth factor (bFGF), nerve growth factor (NGF), matrix metalloproteinase (MMP)-2 and angiopoietin (ang)-1) and anti-angiogenic factors (vascular endothelial growth inhibitor (VEGI), TSP-1 and -2) were determined by real time RT-PCR. Production of VEGI and TSP-1 was also estimated by ELISA.

Results

Immunohistochemistry showed the increase of lymphocyte infiltration, vascular density and VEGF expression in I compared to N/R synovial biopsies. Synovial cells from I areas produced more IL-6, IL-8 and VEGF but less TSP-1 than cells isolated from N/R synovial biopsies. The expression of pro-angiogenic factors by SFC was stimulated by IL-1β. A time dependent regulation of the expression of anti-angiogenic factor genes was observed. IL-1β stimulated the expression of anti-angiogenic factor genes but inhibited it after 24 h. CS reversed the inhibitory effect of IL-1β on anti-angiogenic factors, VEGI and TSP-1.

Conclusions

We demonstrated that synovial biopsies from I areas expressed a pro-angiogenic phenotype. IL-1β induced an imbalance between pro- and anti-angiogenic factors in SFC and CS tended to normalize this IL-1β-induced imbalance, providing a new possible mechanism of action of this drug.     

Characterization of the chondroitin sulfate produced by B16 mouse melanoma cells

The mucopolysaccharides produced by B16 mouse melanoma cells have been isolated in milligram quantities from the spent media in which the cells were grown in the presence of 2-amino-2-deoxy-d-glucose-t and ³⁵S]-sulfate. The mucopolysaccharides obtained by precipitation with cetylpyridinium chloride from the Pronase digest of the media were further purified by gel filtration, ion-exchange chromatography, and treatment with nucleases. The major components were identified as chondroitin-4-sulfates by identification of the hexosamine as 2-amino-2-deoxy-d-galactose, and by digestibility with hyaluronidases, chondroitinase AC, and chondro-4-sulfatase. The o.r.d. curve and i.r. spectra of these components also confirmed their similarity to chondroitin-4-sulfate from cartilage. The molecular weight of the polysaccharide chains was estimated to be in the range 90,000–120,000 by sedimentation equilibrium analysis.     

Inhibition of heparan sulfate and chondroitin sulfate proteoglycan biosynthesis

Proteoglycans (PGs) are composed of a protein moiety and a complex glycosaminoglycan (GAG) polysaccharide moiety. GAG chains are responsible for various biological activities. GAG chains are covalently attached to serine residues of the core protein. The first step in PG biosynthesis is xylosylation of certain serine residues of the core protein. A specific linker tetrasaccharide is then assembled and serves as an acceptor for elongation of GAG chains. If the production of endogenous GAG chains is selectively inhibited, one could determine the role of these endogenous molecules in physiological and developmental functions in a spatiotemporal manner. Biosynthesis of PGs is often blocked with the aid of nonspecific agents such as chlorate, a bleaching agent, and brefeldin A, a fungal metabolite, to elucidate the biological roles of GAG chains. Unfortunately, these agents are highly lethal to model organisms. Xylosides are known to prime GAG chains. Therefore, we hypothesized that modified xylose analogs may able to inhibit the biosynthesis of PGs. To test this, we synthesized a library of novel 4-deoxy-4-fluoroxylosides with various aglycones using click chemistry and examined each for its ability to inhibit heparan sulfate and chondroitin sulfate using Chinese hamster ovary cells as a model cellular system.     

Characterization of serum {beta}-glucuronyltransferase involved in chondroitin sulfate biosynthesis

We studied a glucuronyltransferase involved in chondroitin sulfate(CS) biosynthesis in a preparation obtained from fetal bovineserum by heparin-Sepharose affinity chromatography. This enzymetransferred GlcA from UDP-GlcA to the nonreducing GalNAc residuesof polymeric chondroitin. It required Mn²⁺ for maximal activityand showed a sharp pH optimum between pH 5.5 and 6.0. The apparentKm value of the glucuronyltransferase for UDP-GlcA was 51 µM.The specificity was investigated using structurally definedacceptor substrates, which consisted of chemically synthesizedtri-, penta-, and heptasaccharide-serines and various odd-numberedoligosaccharides with a GalNAc residue at the nonreducing terminus,prepared from chondroitin and CS by chondroitinase ABC digestionfollowed by mercuric acetate treatment. The enzyme utilizeda heptasaccharide-serine GalNAcß1-4GlcAß1-3GalNAcß1-4GlcAß1-3Galß1-3Galß1-4Xylß1-O-Serand a pentasaccharide-serine GalNAcß 4GlcAß1-3Galß1-3Galß1-4Xylß1-O-Seras acceptors. In contrast, neither a trisaccharide-serine Galß1-3Galß1-4Xylß1-O-Sernor an