硫酸软骨素对慢性酒精中毒氧化损伤的保护作用(英文)

目的:研究硫酸软骨素对慢性酒精中毒氧化损伤的保护作用。方法:60只Wistar大鼠随机分成六个组:空白组给予蒸馏水,酒精模型组给予50%的酒精8ml·kg-1·d-1灌胃,纳洛酮组在给予酒精三十分钟后腹腔注射纳洛酮0.08mgkg-1·d-1,硫酸软骨素低、中、高剂量组在酒精模型组的基础上分别给予硫酸软骨素50,100和150mg·kg-·1d-1。两周后酒精的剂量增加到12mg·kg-1d-1。在第八周末,分离大鼠脑组织,观察大鼠神经细胞。用生物方法测定大鼠脑组织中GSH-PX、SOD、MDA以及Ache的活性。结果:模型组大鼠大脑皮质和海马区神经细胞的数量明显减少并且排列紊乱;和酒精模型组相比较,硫酸软骨素中剂量组大脑皮质和海马区神经细胞排列较整齐,酒精+Chondroitin组脑组织中MDA的含量和Ache降低(P<0.01),GSH-PX的含量和SOD的活力均明显增加(P<0.01)。结论:硫酸软骨素对慢性酒精中毒氧化损伤具有保护作用。     

硫酸软骨素对慢性酒精中毒大鼠脑损伤的保护作用

目的:探讨硫酸软骨素对慢性酒精中毒脑损伤的作用及可能机制.方法:雄性 Wistar 大鼠60只随机分为6组,酒精模型组以剂量为8ml·kg-1·d-150%的酒精每天灌胃一次,纳洛酮药物组给予乙醇半小时后腹腔注射纳洛酮0.08mg·k-1·d-1,硫酸软骨素低、中、高剂量干预组在酒精模型组的基础上分别给予硫酸软骨素50、100、150mg·kg-1·d-1,空白对照组给予等体积的蒸馏水,持续2周;第三周把50%的酒精的剂量递增为12mg·kg-1·d-1,持续灌胃6周.在第八周末实验结束后取血,分离血清,留取脑组织.HE染色观察各组大鼠神经细胞的变化.生化测定各组大鼠血清及脑组织匀浆中谷胱甘肽过氧化物酶(GSH-PX)和超氧化物歧化酶(SOD)的活性以及脂质过氧物终未产物丙二醛(MDA);并测定脑皮质中β-内啡肽含量(β-EP).结果:模型组大鼠大脑皮质和海马区神经元数量明显减少,神经细胞排列紊乱.硫酸软骨素中剂量组大鼠大脑皮质和海马区神经细胞排列层次较清晰.与酒精组相比较,硫酸软骨素中剂量组大鼠血清和脑组织匀浆中MDA含量明显降低(P<0.01),脑皮质中β-内啡肽含量明显降低(P<0.01);GSH-PX含量及SOD活性显著升高(P<0.01).结论:硫酸软骨素对大鼠慢性酒精中毒脑损伤具有保护作用.     

硫酸软骨素蛋白聚糖在脑发育中的作用

蛋白聚糖 (ＰＧ)是一种或多种糖胺聚糖链 (ＧＡＧ)和核心蛋白共价结合形成的复合物 ,硫酸软骨素蛋白聚糖 (ＣＳＰＧ)即核心蛋白与硫酸软骨素 (ＣＳ)链共价交连的一类蛋白聚糖 ,不同的核心蛋白与ＣＳ链相连形成不同的ＣＳＰＧ。聚集蛋白聚糖家族 (ａｇｇｒｅｃａｎｆａｍｉ ｌｙ) ,磷酸蛋白聚糖 (ｐｈｏｓｐｈａｃａｎ) ,神经蛋白聚糖Ｃ(ｎｅｕｒｏｇｌｙＣ)是哺乳动物脑发育中的 3种经典的ＣＳＰＧ。其它如星形软骨素蛋白聚糖(ａｓｔｒｏｃｈｏｎｄｒｉｎ) ,饰胶蛋白聚糖 (ｄｅｃｏｒｉｎ) ,睾丸蛋白聚糖 (ｔｅｓｔｉｃａｎ) ,细胞蛋白聚糖 …     

硫酸软骨素快速提取法研究

采用先高温蒸煮后加稀碱与酶解相结合 ,并用氯仿反萃取的方法提取硫酸软骨素 ,与其它提取方法相比较 ,缩短了一半工艺流程 ,同时提高了纯度和提取率 ,减轻了碱法提取所带来的环境污染。     

对硫酸软骨素传统提取方法的改进

软骨中硫酸软骨素与蛋白质结合成蛋白多糖,并与胶原蛋白结合在一起。本文采用先高温蒸煮,后加稀碱与酶解相结合提取该药物,ＴＣＡ沉淀蛋白质后,高岭土吸附,再用氯仿连续反萃取,使产品质量达到优级纯,较其他方法缩短了原工艺流程,提高了纯度,减轻了碱－盐提取所带来的环境污染。     

膜分离技术在硫酸软骨素分离方面的应用

介绍了硫酸软骨素的生产工艺 ,应用膜分离技术对现有工艺进行了改进 ,使硫酸软骨素纯度达 95 .2 % ,收率提高3% ,并且简化了操作     

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.     

硫酸软骨素提取工艺的研究

硫酸软骨素是生物界广泛存在的酸性粘多糖,广泛存在于动物的器官软骨。以猪器官软骨为原料,采用碱提取和酶解相结合的方法提取硫酸软骨素,利用正交实验对碱提取过程中的温度,碱浓度以及提取时间等三个关键因素进行优化,并对硫酸软骨素成品的相关指标进行检测。正交实验结果表明,最佳的碱提取条件为：温度40℃、提取时间8h、碱提取浓度为0．15g／mL。在此条件下获得的碱提取液,通过酶解、脱色、醇沉、干燥,得到白色硫酸软骨素成品,总得率为20％,各项指标均符合国家部颁标准,达到出口要求。     

硫酸软骨素酶ABC治疗减少大鼠脊髓损伤引起的酪氨酸蛋白激酶A4的表达

本研究旨在探讨大鼠脊髓损伤(spinal cord impairment,SCI)后硫酸软骨素酶ABC (chondroitinase ABC,ChABC)对酪氨酸蛋白激酶A4 (ephrin A4,EphA4)表达变化的影响.选取成年雌性SD大鼠,随机分为假手术组、生理盐水(NS)组和ChABC组.NS组和ChABC...     

硫酸软骨素酶产生菌的筛选及酶的分离纯化

利用平板快速筛选法,从鱼腹中筛选到一株产生硫酸软骨素酶的细菌YH311,通过生物特性和生化反应试验考察,初步鉴定为温和气单胞菌（Aeromonas sobria）。培养至36h时,该菌株产酶达到高峰期,培养液的酶活力达09U/mL。利用超声波破碎菌体细胞,分别测定培养液和菌体细胞的酶活力,发现培养液的酶活力要远远大于菌体细胞的酶活力,显示该酶为分泌型表达,属于胞外酶。发酵液经离心后,上清液用硫酸铵分级沉淀,再分别经过CMCellulose、QAEsephadex A50和Sephadex G150层析柱进行逐级分纯,并跟踪酶活,最后获得硫酸软骨素酶。SDSPAGE检测为单一条带,其分子量约为80kD。     

Chondroitin sulfate addition to CD44H negatively regulates hyaluronan binding

CD44 is a widely expressed cell adhesion molecule that binds hyaluronan, an extracellular matrix glycosaminoglycan, in a tightly regulated manner. This regulated interaction has been implicated in inflammation and tumor metastasis. CD44 exists in the standard form, CD44H, or as higher molecular mass isoforms due to alternative splicing. Here, we identify serine 180 in human CD44H as the site of chondroitin sulfate addition and show that lack of chondroitin sulfate addition at this site enhances hyaluronan binding by CD44. A CD44H-immunoglobulin fusion protein expressed in HEK293 cells, and CD44H expressed in murine L fibroblast cells were modified by chondroitin sulfate, as determined by reduced sulfate incorporation after chondroitinase ABC treatment. Mutation of serine 180 or glycine 181 in CD44H reduced chondroitin sulfate addition and increased hyaluronan binding, indicating that serine 180 is the site for chondroitin sulfate addition in CD44H and that this negatively regulates hyaluronan binding.     

Chondroitin 6-sulfate and dextran sulfate promote hypochlorite-induced peroxidation of phosphatidylcholine liposomes

In this work, we studied whether chondroitin sulfates and dextran sulfates (DXSs) can influence hypochlorite-induced peroxidation of phosphatidylcholine (PC) liposomes. Multilamellar liposomes (2 mg lipid/ml) were prepared in phosphate buffer, pH 7.4, with NaCl or not and exposed to reagent HOCl/ClO⁻ (1 mM) at 37 °C in the presence of different concentrations of chondroitin 6-sulfate (C6S), chondroitin 4-sulfate (C4S), DXS 8000, DXS 40,000, and DXS 500,000. Lipid peroxidation was assessed by thiobarbituric acid-reactive substance (TBARS) production. DXSs and C6S enhanced TBARS production in a dose-dependent manner. The decline in TBARS production at the relatively high C6S concentrations may be attributed to C4S present in C6S, since in contrast to C6S, C4S is known to react with hypochlorite. Dextrans, nonsulfated analogues of DXS, failed to modulate TBARS production. This fact indicates the important role of negatively charged sulfate groups for DXS to facilitate hypochlorite-induced peroxidation of PC liposomes. The electrostatic nature of the mechanism providing for the pro-oxidative effect of DXS was also supported by the influence of liposome surface charge and solution ionic strength on the extent of liposome peroxidation. The addition of calcium ions to the incubation mixture did not prevent the pro-oxidative action of DXS. The relevance of the results to atherogenesis is discussed.     

No significant paraquat-induced oxidative DNA damage in rats

The metabolism of paraquat generates oxygen radicals. Paraquat has thus been suggested as a model compound to induce oxidative damage to DNA, lipids and proteins in different cells and tissues, although experimental data are inconsistent. In order to explore the possibilities for an animal model of oxidative DNA damage in vivo, rats were treated with 20 mg/kg paraquat or vehicle i.p. One and five days later we measured DNA oxidation in terms of 7-hydro-8-oxo-2′-deoxyguanosine (8-oxodG) in the liver and lung as well as the urinary excretion of 8-oxodG. No significant effects on the level of 8-oxodG in the liver, the lung or the urinary excretion, could be distinguished following paraquat treatment. We found, however, a significant correlation (r=0.69; p<0.0002) between the 8-oxodG level in the lung and the urinary excretion, but no significant correlation between the level in the liver and the urinary excretion or between the levels in the liver and the lung. During the experiment the rats were clearly affected by the paraquat as they were very lethargic compared to the controls. Accordingly, even at toxic doses, paraquat did not cause detectable oxidative damage to DNA. The data do not support the use of paraquat as a model compound in experiments investigating effects or prevention of oxidative damage to DNA.     

Chondroitin sulfate proteoglycans from salmon nasal cartilage inhibit angiogenesis

Because cartilage lacks nerves, blood vessels, and lymphatic vessels, it is thought to contain factors that inhibit the growth and development of those tissues. Chondroitin sulfate proteoglycans (CSPGs) are a major extracellular component in cartilage. CSPGs contribute to joint flexibility and regulate extracellular signaling via their attached glycosaminoglycan, chondroitin sulfate (CS). CS and CSPG inhibit axonal regeneration; however, their role in blood vessel formation is largely unknown. To clarify the function of CSPG in blood vessel formation, we tested salmon nasal cartilage proteoglycan (PG), a member of the aggrecan family of CSPG, for endothelial capillary-like tube formation. Treatment with salmon PG inhibited endothelial cell adhesion and in vitro tube formation. The anti-angiogenic activity was derived from CS in the salmon PG but not the core protein. Salmon PG also reduced matrix metalloproteinase expression and inhibited angiogenesis in the chick chorioallantoic membrane. All of these data support an anti-angiogenic role for CSPG in cartilage.     

Protective effects of curcumin on biochemical and molecular changes in sodium arsenite‐induced oxidative damage in embryonic fibroblast cells

The present study was aimed at determining the oxidative damage caused by sodium arsenite in 3T3 fibroblast cells and the possible protective role of curcumin (Cur) against sodium arsenite toxicity. Embryonic fibroblast cells were exposed to sodium arsenite (0.01, 0.1, 1, and 10 μM) in the presence and absence of Cur (2.5 μM) for 24 hours. Cell viability, cytotoxicity, lipid peroxidation, hydroxyl radical, hydrogen peroxide, antioxidant enzymes (superoxide dismutase, catalase, glutathione peroxidase, and glutathione‐S‐transferase) and expression levels of antioxidant genes (superoxide dismutase, catalase, and glutathione peroxidase) were measured in embryonic fibroblast cells. Results demonstrated that sodium arsenite directly affects antioxidant enzymes and genes in 3T3 embryonic fibroblast cells and induces oxidative damage by increasing the amount of hydrogen peroxide, hydroxyl radical, and lipid peroxidation in the cell. Furthermore, the study indicated that Cur might be a potential ameliorative antioxidant to protect the fibroblast cell toxicity induced by sodium arsenite.     

Immunocytochemical Localization of Chondroitin and Chondroitin 4- and 6-Sulfates in Developing Rat Cerebellum

Monoclonal antibodies specific for unsulfated, 4-sulfated, and 6-sulfated disaccharide "stubs" that remain attached to the core protein after chondroitinase ABC digestion of chondroitin/dermatan sulfate proteoglycans have been used to study the localization of chondroitin and the two isomeric chondroitin sulfates in developing rat cerebellum. At 1-2 weeks postnatal, unsulfated chondroitin is present in the granule cell layer, molecular layer, and prospective white matter, but there was no staining of the external granule cell layer other than light staining of Bergmann glia fibers. By 3 weeks postnatal, staining of the molecular layer has disappeared and has diminished in the white matter, whereas in adult cerebellum only the granule cell layer remains stained. The staining pattern of chondroitin 4-sulfate is similar to that for chondroitin at 1-2 weeks postnatal, but in contrast to chondroitin, chondroitin 4-sulfate increases in the molecular layer at 3 weeks, and this becomes the most densely stained region of adult cerebellum. Chondroitin 6-sulfate is present predominantly in the prospective white matter of 1-2 week postnatal cerebellum, although significant staining of the granule cell layer is also seen. By 3 weeks postnatal the granule cell staining of chondroitin 6-sulfate has decreased, and in adult cerebellum staining is seen only in the white matter and to a lesser extent in the granule cell layer. Electron microscopy confirmed the presence of chondroitin sulfate in the cytoplasm of neurons and glia of adult brain.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chondroitin sulfate and keratan sulfate are the major glycosaminoglycans present in the adult zebrafish Danio rerio (Chordata-Cyprinidae)

The zebrafish Danio rerio (Chordata-Cyprinidae) is a model organism frequently used to study the functions of proteoglycans and their glycosaminoglycan (GAG) chains. Although several studies clearly demonstrate the participation of these polymers in different biological and cellular events that take place during embryonic development, little is known about the GAGs in adult zebrafish. In the present study, the total GAGs were extracted from the whole fish by proteolytic digestion, purified by anion-exchange chromatography and characterized by electrophoresis after degradation with specific enzymes and/or by high-performance liquid chromatography (HPLC) analysis of the disaccharides. Two GAGs were identified: a low-molecular-weight chondroitin sulfate (CS) and keratan sulfate (KS), corresponding to ∼80% and 20% of the total GAGs, respectively. In the fish eye, KS represents ∼ 80% of total GAGs. Surprisingly, no heparinoid was detected, but may be present in the fish at concentrations lower than the limit of the method used. HPLC of the disaccharides formed after chondroitin AC or ABC lyase degradation revealed that the zebrafish CS is composed by ΔUA-1→3-GalNAc(4SO₄) (59.4%), ΔUA-1→3-GalNAc(6SO₄) (23.1%), and ΔUA-1→3-GalNAc (17.5%) disaccharide units. No disulfated disaccharides were detected. Immunolocalization on sections from zebrafish retina using monoclonal antibodies against CS4- or 6-sulfate showed that in the retina these GAGs are restricted to the outer and inner plexiform layers. This is the first report showing the presence of KS in zebrafish eye, and the structural characterization of CS and its localization in the zebrafish retina. Detailed information about the structure and tissue localization of GAGs is important to understand the functions of these polymers in this model organism. The contributions of Aline R.C. Souza and Eliene O. Kozlowski should be considered equal.     

The oxidative DNA base damage in testes of rats after intraperitoneal cadmium injection

Cadmium is known to be a carcinogenic metal that especially its compounds have sufficient evidence in both humans and experimental animals beneath its environmental effects. Testis tissue is highly sensitive to the effects of cadmium. It is proposed that cadmium also increases oxygen derived free radicals and lipid peroxidation. As indicators of oxidative DNA damage, 6 oxidative DNA bases were determined by using Gas Chromatography/Mass Spectrometry-Selected Ion Monitoring technique. 45 Sprague-Dawley rats (225-300 g) were used as experimental animals and were divided into 3 groups of 15 rats. A single 2 mg NaCl/kg body wt, 0,5 and 1,25 mg CdCl2/kg body wt were injected intraperitoneally to control, low and high dose groups, respectively. 5-OH Cytosine, 8-OH Adenine and Fapy Guanine lesions were elevated significantly in high dose group in the first day. A clear dose-response relationship was seen between dose groups and 8-OH Adenine levels related with time in all periods. There was a significant dose-response relationship in 2-OH Adenine, Fapy Guanine and 8-OH Guanine, especially in the second week suggesting the inhibition of XPA protein by cadmium after first week. In contrast, the observation of a significant decrease of 5-OH Cytosine levels after first week showed that cadmium could not affect the enzymes repairing the cytosine base lesions.     

硫酸软骨素在癌症治疗领域的研究进展

硫酸软骨素是一种硫酸化的糖胺聚糖,其在恶性肿瘤组织中的含量、结构、硫酸化位点等与正常组织存在显著差异,在癌症的迁移,侵袭,血管生成过程中发挥重要调控作用,在癌症的临床研究中具有很大潜力。该文对硫酸软骨素的生物合成进行归类分析,对近几年硫酸软骨素与肿瘤入侵和转移的相关临床研究以及分子机制研究做出综述,以期为开发硫酸软骨素潜在的临床价值和肿瘤治疗靶点研究提供理论依据,为恶性肿瘤的早期诊断和预后评估提供思路。