三齿草藤(Vicia bungei Ohwi)凝集素的亲和层析纯化及其部分性质的研究

用Sephadex G-100或猪甲状腺球蛋白-对氨基苯砜乙基-交联琼脂作亲和吸附剂,均可从三齿草藤(Vicia Bungei Ohwi)的种子中分离纯化出三齿草藤凝集素。该凝集素经连续或不连续系统聚丙烯酰胺凝胶电泳均显示出单一蛋白带;糖蛋白染色法证实为糖蛋白;SDS-聚丙烯酰胺凝胶电泳测定其分子量为24,600,凝集素浓度为1.95微克/毫升时就能凝集兔红细胞;但对人ABO型血细胞不发生凝集作用;其对兔红细胞的凝集作用可被D-Man、D-GlcNA和D-GIC所抑制;它也是一种促有丝分裂原。     

牛精细胞表面凝集素受体的研究

外源凝集素能与细胞表面相应的受体特异性的结合,并导致细胞凝集,因而外源凝集素可用作细胞膜结构的探针,用来研究细胞膜的结构与功能。近年应用外源凝集素对精细胞膜上糖蛋白和凝集素受体的数目与功能状态的研究已取得很大进展,采用异硫氰基荧光素(FITC)或辣根过氧化物酶等标记凝集素来测定膜上凝集素受体的定位与分布,研究认为精细胞膜上受体与受精作用有密切关系。本文报道用具有血型专一性或无血型专一性或FITC标记的凝集素研究牛精细胞膜上凝集素受体的分布结果。     

坛紫菜凝集素的糖结合专一性和细胞凝集作用

坛紫菜的磷酸盐缓冲液浸取液,经硫酸铵沉淀和DEAE－Sepharose,SephadexG-100二步层析纯化,获得纯化的坛紫菜凝集素（PHL）。该凝集素能与3种单糖（阿拉伯糖,半乳糖,木糖）及麦芽糖专一性结合,其中与麦芽糖结合最强。细胞凝集实验结果显示,PHL能凝集兔,绵羊及鸡红细胞而不能凝集鸭,鸽子及人血红细胞,PHL还能凝集海洋微藻－绿色巴夫藻和淡水微藻－蛋白核小球藻,它们的凝集活性与藻细胞密度有关。不同状态的细菌和酵母细胞对PHL反应不同,表明随着细胞状态的改变,细胞表面的凝集素受体也随之发生变化。     

鸡胚肝乳糖凝集素专一性的研究——SEM-ARG技术的应用

本文利用扫描电镜放射自显影(SEM-ARG)技术研究鸡胚肝凝集素的专一性。该凝集素经乳糖尿素液抽提和离心分离后,再用DE-52纤维素柱和蓝色葡聚糖柱进一步纯化。纯化后的鸡胚肝凝集素用 ¹²⁵Ⅰ标记。以标记的 ¹²⁵Ⅰ-凝集素为探针再标记来自不同组织的细胞。标记的细胞经过放射自显影,用扫描电镜对细胞表面凝集素受体的位点进行直接观察。实验结果表明鸡胚肝凝集素对细胞的凝集作用具有相对的专一性。     

鸡胚肝凝集素受体的放射自显影和扫描电镜观察

近些年来用标记过的外源凝集素作探针以研究细胞膜的结构和功能已取得很大进展。本文首次用~(125)I标记鸡胚肝凝集素,再以~(125)I-凝集素亲和标记鸡胚肝细胞。标记的鸡胚肝细胞经放射自显影(ARG),可用扫描电镜(SEM)对细胞表面受体的位点进行直接观察,以研究鸡胚肝凝集素受体的分布特征。     

蛋白核小球藻凝集素的分离纯化及部分性质研究

蛋白核小球藻藻粉的PBS抽提液经硫酸铵二步分级沉淀 ,再经DEAE Sepharose和SephadexG 10 0层析 ,从中分离纯化得到蛋白核小球藻凝集素 (CPL)。经测定 ,该凝集素为单个亚基的蛋白质 ,相对亚基分子量为 1 4× 10 4 — 1 5× 10 4 ,分子中不含糖。在氨基酸组成中 ,苯丙氨酸 (Phe)的含量最高 ,其次是天冬氨酸 (Asp)和谷氨酸 (Glu) ,不含组氨酸 (His)。CPL能够凝集兔、绵羊及鸽子红细胞 ,其中对兔红细胞的凝集活性最大 ,最低浓度为 6 88μg/mL ,对鸡、鸭及人红细胞 (A型、O型及B型 )无凝集活性。卵黏蛋白和 7种单糖对CPL的凝血活性具有抑制作用。CPL具有很好的热稳定性 ,在 90℃处理 10min不失活。     

中性红染色后细胞对凝集素的反应性

中性红染色后的小鼠胸腺细胞。肝、脾和肾细胞,人扁桃体细胞,以及体外培养的不同肿瘤细胞(HL60,K562,Molt-4,MLA和L1210)都能够被凝集素凝集。除小鼠肝细胞和肾细胞外,它们的凝集特征都与红细胞的凝集特征相同。不同来源的细胞,其对凝集素的反应性不同,其中,以肿瘤细胞对凝集素的反应最敏感。结果说明,中性红染色法可以作为用凝集素初步检测一些无色细胞表面凝集素受体变化的一种简便方法。     

用兔红细胞膜制备亲和树脂纯化红芸豆红细胞凝集素的方法

建立运用兔红细胞膜制备亲和树脂来纯化红芸豆中红细胞凝集素的方法。红芸豆经过浸提,(NH4)2SO4沉淀,红细胞膜亲和树脂吸附、洗脱得到红细胞凝集素(PHA-E)试样。采用电泳法测定其纯度、相对分子质量和等电点。用体积分数2%的兔红细胞悬液测定试样凝血活力及影响凝血因素。经PAGE分析PHA-E试样为单带,SDS-PAGE分析显示亚基相对分子质量为3.2×104,等电点为6.5。研究发现,促使50%兔红细胞产生凝集的试样蛋白质最低质量浓度为4μg/mL,单糖不影响PHA-E凝血活力,EDTA抑制其凝血活力,Zn2+促进其凝血。     

三齿草藤(Vicia bungei Ohwi)凝集素糖组分的高效液相色谱分析

本文报道经亲和层析纯化的三齿草藤凝集素(VBL)的糖含量和糖组分的测定结果。经酚-硫酸法测得VBL的总糖含量为4.7％。应用高效液相色谱法对一系列已知标准单糖的定性定量分析条件进行了探索,选用乙腈-水-甲醇=60:30:5体系作流动相,YWG-NH_2作固定相,在高效液相色谱仪中测出VBL含有核糖和鼠李糖,二者摩尔数之比为9.4:1。     

香螺血清、肌肉和唾液腺凝集素凝集性能的初步研究

研究香螺(Naptunea cumingi crosse)肌肉、血清和唾液腺凝集素对7 种脊椎动物红细胞、人的4 种红细胞、4 种单细胞藻类和11 种微生物细胞的凝集性能,同时进行pH敏感性、热稳定性、糖抑制性、EDTA、金属离子以及盐浓度影响试验.结果表明,3 种凝集素对各种细胞的凝集效应存在差异,以家兔红细胞的凝集效果最佳.肌肉和血清凝集素在pH<7.0时均失活,唾液腺凝集素的热稳定性最强,温度为90 ℃仍具有活性.此外,不同的糖溶液对3 种凝集素凝集效果的影响不同,在EDTA浓度为2.00～0.25 mmol/L范围内,3 种凝集素的凝集效价均受到不同程度的抑制.在金属离子影响试验中发现,Zn2+能明显提高肌肉和血清凝集素的凝集活力,而对唾液腺凝集素有抑制的作用.当盐浓度为12～18 g/L时,可增加香螺肌肉凝集素的凝集效价,而当浓度为24～60 g/L时却会抑制肌肉凝集素的凝集活性.     

Purification and characterization of a cell-surface lectin (Lectin II) from Agrobacterium radiobacter NCIM 2443

A lectin was isolated from Agrobacterium radiobacter cell surface and purified. It is a monomer of 40 kDa as shown by SDS-PAGE. The lectin has a pI of 9.15 and amino acid composition of the lectin shows that 44% of the amino acids are hydrophobic. The lectin agglutinates rabbit erythrocytes but does not agglutinate human erythrocytes. It does not show specificity for monosaccharides except for D-glucosamine. Fetuin and its N-linked glycopeptide also inhibit the activity of the lectin but greater inhibition is shown by locust bean gum and Nicotiana tobaccum (tobacco) tissue extracts.     

Characterization of the Galactose-Specific Binding Activity of a Purified Soluble Entamoeba histolytica Adherence Lectin

ABSTRACT. We studied galactose (Gal)-specific binding of the soluble purified 260-kDa Entamoeba histolytica adherence protein to glycosylation deficient Chinese hamster ovary (CHO) cell mutants. Our goal was to further define the lectin's functional activity and carbohydrate receptor specificity. The adherence protein was purified by acid elution from an immunoaffnity column; however, exposure of the surface membrane lectin on viable trophozoites to identical acid pH conditions had no effect on carbohydrate binding activity. Saturable Gal-specific binding of soluble lectin to parental CHO cells was demonstrated at 4°C by radioimmunoassay; the dissociation coefficient (Kd was 2.39 × 10^?8 M^?1 with 5.97 × 10⁴ lectin receptors present per CHO cell. Gal-specific binding of lectin to Lec2 CHO cell mutants, which have increased N- and O-linked terminal Gal residues on cell surface carbohydrates, was increased due to an enhanced number of receptors (2.41 × 10⁵/cell) rather than a significantly reduced dissociation constant (4.93 × 10^?8 M^?1). At 4°C, there was no measurable Gal-specific binding of the adherence protein to the Lec and IdlD.Lecl CHO mutants, which contain surface carbohydrates deficient in terminal Gal residues. Binding of lectin (20 μg/ml) to CHO cells was equivalent at 4°C and 37°C and unaltered by adding the microfilament inhibitor, Cytochalasin D (10 μg/ml). Gal-specific binding of the lectin at 4°C was calcium independent and reduced by 81% following adsorption of only 0.2% of the lectin to CHO cells. In summary, these findings indicate that the purified E. histolytica adherence lectin demonstrates saturable Gal-specific binding to 1–6 branched-N-linked and not O-linked galactose terminal cell surface carbohydrates; however, apparently only a small percentage of purified amebic lectin molecules actually possess galactose binding activity.     

Membrane receptors for Vicia graminea anti-N lectin and its binding to native and neuraminidase-treated human erythrocytes

Membrane receptors for Vicia graminea (Vg) lectin on human red cells were analyzed using deoxycholate lysates obtained from ¹²⁵I-erythrocyte membranes incubated with a purified lectin immobilized on Sepharose 4B. The glycoproteins (GP) specifically bound to the gel were eluted and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Using native erythrocytes the results obtained demonstrate that N red cells have exposed Vg receptors located on GPα (synonym glycophorin A) and GPδ (synonym glycophorin B) whereas on M erythrocytes the Vg receptors are restricted to GPδ. The presence of Vg receptors was also found on the hybrid glycoprotein (made of the N-ter of GPδ and C-ter of GPα) carried by St(a+) erythrocytes. A similar amount of radioactivity was bound to Vg-Sepharose incubated with neuraminidase-treated N or M membranes. The material eluted was tentatively identified as asialo GPα and asialo GPδ, suggesting that numerous receptors have been uncovered mainly on asialo GPα species from M erythrocytes. No glycoprotein component could be identified from the material eluted from Vg Sepharose incubated with native or neuraminidase-treated membrane from a Tn(+) individual. Scatchard plot analysis obtained from binding experiments at equilibrium with M, N, and St(a+) cells revealed the existence of at least two classes of receptors both on native and neuraminidase-treated erythrocytes. Desialylation of the M, N, and St(a+) erythrocytes resulted in an increase in the number of low- and high-affinity binding sites but had no significant effect on the association constants. However, high-affinity binding constants were about six times higher with N (7.07 × 10⁷ and 6.61 × 10⁷m^?1 for native and neuraminidase-treated N cells, respectively) as compared to M erythrocytes (1.13 × 10⁷ and 1.17 × 10⁷m^?1 for native and neuraminidase-treated M cells, respectively) whereas the low-affinity binding constants were similar for all types of cells (in the range of 0.1 to 0.3 × 10⁷m^?1). The number of Vg binding sites increases from 0.085 × 10⁵ to 0.8 × 10⁵ (high affinity) and from 2.10 × 10⁵ to 6.25 × 10⁵ (low affinity) per native and neuraminidase-treated N cell, respectively. On native and neuraminidase-treated M cells the number of Vg receptors increases from 0.011 × 10⁵ to 0.51 × 10⁵ (high affinity) and 0.13 × 10⁵ (low affinity), respectively. The large increase in the number of Vg receptors on neuraminidase-treated M cells is correlated with a large increase in agglutinability. Under similar treatment St(a+) cells behave like N erythrocytes whereas only 0.16 × 10⁵ Vg receptors of low affinity could be detected on neuraminidase-treated Tn erythrocytes. The results demonstrate that sialic acid is not required for binding and favor the view that the binding site of V. graminea lectin accommodates with two types of erythrocyte membrane receptors, one including both a contribution of polypeptide and oligosaccharide chains and a second which involves a simple interaction with sugar sequence Galβ1–3GalNAc available only when sialic acids are removed. The latter disaccharide is recognized by the Arachis hypogea lectin which therefore inhibits further binding of the V. graminea to neuraminidase-treated erythrocytes.     

Response of Calliphora vicina larval hemocytes to abiotic and biotic foreign particles injection

Human erythrocytes injection into the body cavity of Calliphora vicina postfeeding larvae results to their fast binding by thrombocytoidal fragments with agglutinates formation. There were almost none sites of lysis and degradation of erythrocytes in agglutinates even after shape modification and strands generation. Exceptions are zones of agglutinates with juvenile hemocytes, where destruction of erythrocytes is seen. The sequential injection of erythrocytes and charcoal particles leads to charcoal adhesion at first to agglutinates periphery and later to more deep stratum of cytoplasm between the erythrocytes. Under such conditions agglutinate formation period is accompanied with morphology variations which do not influence the intensity of agglutinating reaction. Juvenile plasmatocytes phagocytized the charcoal particles regardless of their concentration and duration of previous contact with erythrocytes. When mixture of abiotic and biotic particles was injected into post feeding larvae, crythrocytes and charcoal generate independent aggregations in the range of separate agglutinates. At the same time plasmatocytes form nodules consisting of temporary cell aggregations covered with cores of non phagocytized charcoal particles. These data testified that presumably lectin receptors responsible for foreign biotic and abiotic particles recognition are very near but not identical for different types of hemocytes. They may be specifical (for plasmatocytes) or integrated to different parts of cellular membrane (in thrombocytoids).     

Studies on hemagglutinins (lectins) from plasma of murrel fish, family Channidae

Hemagglutinating activity can be identified in the plasma of different species of murrel fish. This activity may be divided into four types according to their agglutinability towards erythrocytes from different sources. Type I plasma agglutinates human blood group A erythrocytes, type II can agglutinate neuraminidase treated human A B O erythrocytes, type III shows no agglutinating activity towards human erythrocytes, while type IV agglutinates human erythrocytes non-specifically. All of them bind to DEAE-cellulose but elute out by different salt concentrations. Type IV plasma is found to be a combination of three separate hemagglutinins, which are separable by sequential binding to human A B O erythrocytes. Blood group A specific lectin activity is purified from this plasma using formalinised A group erythrocytes. The apparent homogeneity of this purified lectin is established by polyacrylamide gel electrophoresis, isoelectric focusing and immunodiffusion. This agglutinin is antigenically identical with that isolated from type I plasma by affinity chromatography on N-acetyl-D-galactosamine coupled to epoxy-activated cellulose column. Their molecular weights are also found to be identical (Mr 140,000) in polyacrylamide gel electrophoresis, having two identical subunits. Forssman glycolipid (0.03 mM) was found to be the most potent inhibitor of agglutination, although Gal beta 1-3 GalNAc (0.09 mM) is also a good inhibitor. Exhaustive dialysis of the purified lectin (hemagglutinin) against EDTA denatures it irreversibly by dissociating it to its subunit structure. Thus human A group agglutinating activity isolated from type I and type IV plasma are identical.     

Binding and cytotoxicity of Ricinus communis lectins to HeLa cells, Sarcoma 180 ascites tumor cells and erythrocytes

The binding of Ricinus communis lectins to HeLa cells, Sarcoma 180 ascites tumor cells and human erythrocytes was studied in detail. Scatchard plots of binding of 125I-lectins to these cells gave biphasic lines except for HeLa cells at 0 degree C. The association constants of lectins for the three cell types at 37 degrees C were lower than those at 0 degree C. The numbers of total binding sites were estimated to be 7 to 16 X 10(7) per HeLa cell, 3 to 4 X 10(7) per Sarcoma 180 ascites tumor cell and 0.4 to 1 X 10(6) per erythrocyte. A fraction, 16 to 27% of the total amount of cell-bound lectin at 37 degrees C, appeared to be bound irreversibly as judged by non-removal on washing with 0.1 M lactose, whereas no lectin was irreversibly bound at 0 degree C. In the case of erythrocytes, no lectin became irreversibly bound even at 37 degrees C. The toxicity of lectins on HeLa cells and Sarcoma 180 ascites tumor cells was investigated. The toxicity of ricin D was 50 times for Sarcoma 180 ascites tumor cells and 140 times for HeLa cells as much as that for castor bean hemagglutinin. As to the sensitivities of both cell types to these lectins, it became apparent that Sarcoma 180 ascites tumor cells were more susceptible than HeLa cells.     

Differences in the expression of the human interferon-gamma gene in fresh lymphocytes and cultured lymphoblasts

Mammalian erythrocytes have been shown to bind 125I labeled ceruloplasmin. Binding was reversible and specific. Scatchard analysis yielded linear plots with a Kd of approximately 5nM. The binding site appeared to be a protein located on the cell surface. A ceruloplasmin binding protein with a molecular weight of 60,000 daltons was isolated from human erythrocytes. Erythrocytes which were not protected by ceruloplasmin's antioxidant properties, did not bind ceruloplasmin. Our results provide evidence for the presence of ceruloplasmin receptors in the erythrocyte membrane. It is proposed that the antioxidant activity of ceruloplasmin may play a role in determining the lifespan of circulating red cells.     

Purification and characterization of an O-acetylsialic acid-specific lectin from a marine crab Cancer antennarius

A sialic acid-binding lectin with high specificity for 9-O-acetyl- and 4-O-acetylsialic acids was purified from the hemolymph of the California coastal crab, Cancer antennarius, by affinity chromatography using bovine submaxillary mucin coupled to agarose. The binding specificity of the crab lectin distinguishes it from other known sialic acid-specific lectins from Limulus polyphemus and Limax flavus which show a broader range of specificity for sialic acids. The purified lectin is homogenous on sodium dodecyl sulfate-polyacrylamide electropherograms with a subunit molecular weight of about 36 kDa. The specificity of the lectin for O-acetylsialic acids appears to account for the fact that it agglutinates mouse, rat, rabbit, and horse erythrocytes, which contain O-acetylsialic acids on cell surface glycoconjugates, but not human monkey, sheep, goat, and chicken erythrocytes which contain only NeuAc or N-glycolylneuraminic acid (NeuGc). This conclusion was supported by the potent inhibition of hemagglutination by bovine and equine submaxillary mucins which contain 9(7,8)-O-acetyl- and 4-O-acetylsialic acids, respectively, and also by free 9-O-acetyl-N-acetylneuraminic acid (9-O-Ac-NeuAc) and 4-O-Ac-NeuAc relative to NeuAc and NeuGc. Further support for the role of O-Ac-sialic acids in hemagglutination of erythrocytes was obtained by enzymatic modification of human erythrocytes. Sialidase-treated erythrocytes were resialylated with purified sialyltransferases and various CMP-sialic acid donor substrates to contain NeuAc or NeuGc or 9-O-Ac-NeuAc in the Sia alpha 2,3Gal or Sia alpha 2,6Gal linkages. Cells resialylated to contain NeuAc or NeuGc were not agglutinated, but cells resialylated to contain 9-O-Ac-NeuAc were agglutinated with high titer, comparable to that of mice or horse erythrocytes.     

Purification and study of carbohydrate specificity of lectin from Sarcoscypha coccinea (Fr.) Lambette

A lectin that revealed affinity for lactose, N-acethylactosamine, 4-nitrophenyl-beta-D-gluco- and galactopyranosides from fruiting bodies of Sarcoscypha coccinea (Fr.) Lambette was purified by affinity chromatography on immobilized ovomucoid. According to electrophoresis data in 15% SDS-PAGE the lectin contains two very low-differing components with molecular weight 32 kDa. Molecular weight of the lectin is 128 kDa according to gel-chromatography on sephadex G-200. The lectin agglutinates rabbit erythrocytes and slightly weaker agglutinates human erythrocytes. After dialysis against 1% EDTA sodium salt solution the lectin loses hemaglutinating activity, but after the next dialysis against CaCl2 solution it is restored.     

The B4 lectin from Vicia villosa seeds interacts with N-acetylgalactosamine residues alpha-linked to serine or threonine residues in cell surface glycoproteins

We have examined the carbohydrate binding specificity of the B4 lectin from Vicia villosa seeds. The B4 lectin agglutinates Tn-exposed erythrocytes specifically and binds to these erythrocytes (1.4 X 10(6) sites/cell) with an association constant of 4.2 X 10(7) M-1. The concentrations of saccharides and glycopeptides of defined structure which cause 50% inhibition of B4 lectin binding to Tn-exposed erythrocytes were determined. N-Acetylgalactosamine is the best monosaccharide inhibitor, causing 50% inhibition of binding at a concentration of 0.04 mM. Other monosaccharides inhibit lectin binding in the following order of decreasing potency: N-acetylgalactosamine greater than methyl-alpha-galactopyranoside greater than p-nitrophenyl-alpha- or beta-galactopyranoside greater than methyl-beta-galactopyranoside, galactose greater than galactosamine greater than mannose, N-acetylglucosamine. The disaccharide Gal beta 1,3GalNAc causes 50% inhibition of binding at a concentration of 2.8 mM, a concentration similar to that of the p-nitrophenyl-alpha- or beta-galactopyranosides. Glycopeptides containing O-glycosidically linked oligosaccharide units are significantly more potent inhibitors of lectin binding than the oligosaccharide units alone. The most potent glycopeptide inhibitor is a fetuin glycopeptide containing two alpha-linked N-acetylgalactosamine units. This glycopeptide causes 50% inhibition of lectin binding at a concentration of 0.00034 mM and probably closely resembles the B4 lectin binding site on Tn-exposed erythrocytes.