Hemagglutinating activity of the heat-labile enterotoxin isolated from porcine enterotoxigenic Escherichia coli

Abstract The hemagglutinating activity of the heat-labile enterotoxin (LT_p) isolated from porcine enterotoxigenic Escherichia coli was studied by hemagglutination inhibition. The hemagglutinating activity of LT_p was enhanced 64–512-fold with pronase- and neuraminidase-treated human erythrocytes although both intact human and sheep erythrocytes were not agglutinated by LT_p at the highest concentration used. No enhancement was found in hemagglutination of neuraminidase-treated sheep erythrocytes by LT_p. Hemagglutination of pronase-treated human type A erythrocytes induced by LT_p was inhibited by melibiose and galactose among mono-, di-, and polysaccharides used as inhibitors. Galactose was a slightly better inhibitor than melibiose. These findings suggest that LT_p is a bacterial lectin specific for galactose.     

Hemagglutinating activity of the B subunit(s) of the heat-labile enterotoxin isolated from human enterotoxigenic Escherichia coli

Abstract The hemagglutinating activity of the B subunit(s) of the heat-labile toxin (LT_h - B) produced by human enterotoxigenic Escherichia coli was studied by hemagglutination and hemagglutination inhibition. Very strong hemagglutination of both neuraminidase- and pronase-treated human erythrocytes was induced by the LT_h - B whereas that of intact ones was induced weakly or not at all by the LT_h - B at the highest concentration used. Enhancement in hemagglitination of these human erythrocytes by the LT_h - B was about 8- to 512-fold for type A and B erythrocytes and 16-fold for type O erthrocytes, respectively. On the other hand, no hemagglutination of intact and treated sheep erythrocytes was found by the LT_h - B at the highest concentration used. Hemagglutination of pronase-treated human type B erythrocytes by the LT_h - B was inhibited by galactose and melibiose among mono-, di- and polysaccharides used as inhibitors. These findings suggest that the LT_h - B is a bacterial lectin specific for galactose-linked residues.     

Hemagglutinating activity of the B subunit(s) of the heat-labile enterotoxin isolated from chicken enterotoxigenic Escherichia coli

The hemagglutinating activity of the B subunit(s) of the heat-labile enterotoxin (LTc-B) produced by chicken enterotoxigenic Escherichia coli was studied by hemagglutination and hemagglutination inhibition. No or weak hemagglutination of intact human erythrocytes was found by the LTc-B at the highest concentration used, whereas strong hemagglutination of both neuraminidase- and pronase-treated human erythrocytes was found. Enhancement in hemagglutination of treated human erythrocytes induced by the LTc-B was over 2 to 120-fold for type A and B erythrocytes and over 8-fold for type O erythrocytes, respectively. With intact and treated sheep erythrocytes, on the other hand, no hemagglutination was found by the LTc-B at the highest concentration used. Hemagglutination of pronase-treated human type B erythrocytes by the LTc-B was inhibited by methyl-alpha-D-galactopyranoside, galactose, melibiose, hog A + H, asialo-bovine salivary mucin and asialo-thyroglobulin among mono-, di- and polysaccharides and glycoproteins used as inhibitors. These results suggest that the LTc-B is a galactose-specific bacterial lectin.     

Hemagglutinating and binding properties of botulinum C2 toxin

To characterize the binding substance(s) for botulinum C2 toxin, the hemagglutinating activity of component II of botulinum C2 toxin (C2II) was studied by hemagglutination and hemagglutination inhibition. Human and animal erythrocytes were agglutinated by trypsinized C2II much more strongly than by untreated C2II. Trypsinized C2II agglutinated neuraminidase-treated erythrocytes more strongly than intact, trypsin- and pronase-treated ones. On the other hand, trypsin- and pronase-treated erythrocytes were more weakly hemolyzed by trypsinized C2II than intact and neuraminidase-treated ones, and trypsinized C2II showed both hemagglutinating and hemolytic activities to these erythrocytes. Hemagglutination of trypsin-treated human type B erythrocytes was inhibited by galactose, N-acetylgalactosamine, N-acetylglucosamine, L-fucose and mannose. Thyroglobulin and bovine salivary mucin were much stronger inhibitors. From these findings, the binding substance(s) for botulinum C2 toxin on erythrocytes is(are) suggested to be glycoprotein(s).     

Binding and hemagglutinating properties of the B subunit(s) of heat-labile enterotoxin isolated from human enteroxigenic Escherichia coli

The binding and hemagglutinating activities of the B subunit(s) of the heat-labile enterotoxin (LTh-B) isolated from human enterotoxigenic Escherichia coli were investigated. The binding of 125I-labeled LTh-B to neuraminidase-treated human type B erythrocytes was most effectively inhibited by ganglioside GM1. A number of mono-, di- and polysaccharides, as well as several glycoproteins were at least 500 times less potent inhibitors. However, hemagglutination was effectively inhibited by galactose, melibiose and hog A + H but not by ganglioside GM1. Preincubation of the LTh-B with ganglioside GM1 gave much stronger hemagglutination than LTh-B alone. These results suggest that the predominant binding substance for LTh-B on neuraminidase-treated human type B erythrocytes is ganglioside GM1, but indicate that the interaction of LTh-B with ganglioside GM1 is different in hemagglutination.     

Purification and Characterization of Two Lectins from the Sea Cucumber Stichopus japonicus

Two Ca^{2 +}–dependent lectins were purified from the sea cucumber Stichopus japonicus by affinity chromatography on lactosyl-Sepharose 4B and ion-exchange chromatography on Q-Sepharose. Their molecular masses were estimated to be 13kDa (SJL-I) and 15kDa (SJL-II) on SDS-PAGE. SJL-I agglutinated rabbit erythrocytes as well as human A, B, and O-type erythrocytes, but SJL-II agglutinated only rabbit erythrocytes. Hemagglutination by SJL-I was competitively inhibited by N-acetyl-D- galactosamine and galactose-containing carbohydrates. On the other hand, only lactose, melibiose, and raffinose gave weak inhibition of hemagglutination by SJL-II, suggesting that SJL-II may have high specificity for particular complex carbohydrate(s) on the surface of rabbit erythrocytes. SJL-II was activated at ten times lower Ca²⁺ concentration than SJL-I. Both lectins lost activity in acidic pH, while SJL-I appeared more stable down to pH 4.5.     

Hemagglutination by Rabies Virus

Goose erythrocytes were agglutinated by five strains of rabies virus grown in monolayer cell cultures at pH 6.4 and at 0 to 4 C. Hemagglutination was not affected by the cell type in which the virus was grown. Prerequisites for occurrence of hemagglutination are absence of hemagglutination inhibitors (such as those contained in bovine serum) and a relatively high virus concentration (> 10(6) plaque-forming units of virus per ml). "Soluble" hemagglutinin was not present in crude preparations of extracellular virus. Treatment of purified preparations of extracellular virus with Tween 80 and ether did not result in release of a "soluble" hemagglutinin. The hemagglutinating property of extracellular virus seemed to be conditioned by the integrity of its coat. Preparations of infectious intracellular virus exhibited about 15 times lower hemagglutinating activity than extracellular virus. This decreased hemagglutinating activity did not seem to be caused by binding of hemagglutination inhibitors to the virus particles. Rabies virus can be quantitatively adsorbed onto and eluted from erythrocytes. Erythrocytes pretreated with rabies virus retained their ability to be agglutinated by the same virus strain. The reaction with rabies virus of erythrocytes treated with the receptor-destroying enzyme or KIO(4) was the same as that of nontreated erythrocytes. The hemagglutinating component of rabies virus, therefore, does not exhibit neuraminidase activity. Treatment of extracellular virus by various agents indicated that the hemagglutinating component consists of protein or lipoprotein. Sulfhydryl groups present in the viral hemagglutinin are essential for hemagglutination.     

Herpes simplex virus type 1-induced hemagglutination: glycoprotein C mediates virus binding to erythrocyte surface heparan sulfate.

We recently reported that herpes simplex virus type 1 (HSV-1) can cause agglutination of murine erythrocytes (E. Trybala, Z. Larski, and J. Wisniewski, Arch. Virol. 113:89-94, 1990). We now demonstrate that the mechanism of this hemagglutination is glycoprotein C-mediated binding of virus to heparan sulfate moieties at the surface of erythrocytes. Hemagglutination was found to be a common property of all gC-expressing laboratory strains and clinical isolates of HSV-1 tested. Mutants of HSV-1 deficient in glycoprotein C caused no specific hemagglutination, whereas their derivatives transfected with a functional gC-1 gene, thus reconstituting gC expression, regained full hemagglutinating activity. Hemagglutination activity was inhibited by antibodies against gC-1 but not by antibodies with specificity for glycoproteins gB, gD, or gE or by murine antiserum raised against the MP strain of HSV-1, which is gC deficient. Finally, purified gC-1 protein, like whole HSV-1 virions, showed high hemagglutinating activity which was inhibited by heparan sulfate and/or heparin and was completely prevented by pretreatment of erythrocytes with heparitinase, providing evidence that gC-1 mediates hemagglutination by binding to heparan sulfate at the cell surface. Thus, HSV-1-induced hemagglutination is gC-1 dependent and resembles the recently proposed mechanism by which HSV-1 attaches to surface heparans on susceptible cells, providing a simple model for initial events in the virus-cell interaction.     

Indomethacin inhibits cholera toxin-induced cyclic AMP accumulation in Chinese hamster ovary cells

Abstract Indomethacin was examined for its capacity to inhibit increases in adenosine-3',5'-monophosphate (cAMP) concentrations in Chinese hamster ovary (CHO) cells treated with cholera toxin. When added to the culture medium 1 h prior to cholera toxin (100 ng/ml), indomethacin (500 μg/ml) exhibited maximum protection against the typical increase in cAMP. Application of indomethacin at the same time as cholera toxin or up to 3 h after the toxin progressively decreased the drug's capacity to block further increases in cAMP. The drug appeared to block adenylate cyclase activity because addition of forskolin to drug-treated cells did not elicit a cAMP response. Binding of ¹²⁵I-labeled cholera toxin to indomethacin-treated cells was also reduced by at least 50%. These data indicate that indomethacin's inhibitory effect on cAMP formation in cholera toxin-treated cells could be explained by its capacity to alter adenylate cyclase activity and cholera toxin binding.     

Toxoplasma gondii micronemal protein MIC1 is a lactose-binding lectin.

Host cell invasion by Toxoplasma gondii is a multistep process with one of the first steps being the apical release of micronemal proteins that interact with host receptors. We demonstrate here that micronemal protein 1 (MIC1) is a lactose-binding lectin. MIC1 and MIC4 were recovered in the lactose-eluted (Lac(+)) fraction on affinity chromatography on immobilized lactose of the soluble antigen fraction from tachyzoites of the virulent RH strain. MIC1 and MIC4 were both identified by N-terminal microsequencing. MIC4 was also identified by sequencing cDNA clones isolated from an expression library following screening with mouse polyclonal anti-60/70 kDa (Lac(+) proteins) serum. This antiserum localized the Lac(+) proteins on the apical region of T. gondii tachyzoites by confocal microscopy. The Lac(+) fraction induced hemagglutination (mainly type A human erythrocytes), which was inhibited by beta-galactosides (3 mM lactose and 12 mM galactose) but not by up to 100 mM melibiose (alpha-galactoside), fucose, mannose, or glucose or 0.2 mg/ml heparin. The lectin activity of the Lac(+) preparation was attributed to MIC1, because blotted MIC1, but not native MIC4, bound human erythrocyte type A and fetuin. The copurification of MIC1 and MIC4 may have been due to their association, as reported by others. These data suggest that MIC1 may act through its lectin activity during T. gondii infection.     

Studies on the binding substances on human erythrocytes for the heat-labile enterotoxin isolated from porcine enterotoxigenic Escherichia coli

The binding substance for the heat-labile enterotoxin (LTp) isolated from porcine enterotoxigenic Escherichia coli was studied by competitive binding assays. The binding of 125I-labeled LTp to neuraminidase-treated human type A erythrocytes was most effectively inhibited by ganglioside GM1 among inhibitors used. Mono-, di- and polysaccharides, glycoproteins and lectins were over 10(4)-times less potent inhibitors. Similar results were also obtained in competitive binding assays with 3H-labeled ganglioside GM1 and LTp-coupled Sepharose 4B. On the other hand, hemagglutination of neuraminidase-treated human type A erythrocytes by LTp was inhibited by methyl alpha-D-galactopyranoside, galactose, melibiose and some glycoproteins, but not effectively inhibited by ganglioside GM1 at the highest concentration used. Preincubation of LTp with an appropriate amount of ganglioside GM1 resulted in much higher hemagglutination than LTp alone. Although these findings show that there may be fundamental differences between interactions with ganglioside GM1 in hemagglutination compared to interactions with ganglioside GM1 in binding, the predominant binding substance for LTp on neuraminidase-treated human type A erythrocytes is suggested to be ganglioside GM1.     

Melibiose transport system in Lactobacillus plantarum.

Lactobacillus plantarum ATCC 8014 grew on melibiose at 30 C, but not at 37 C, although it grew on galactose or lactose at either temperature. ATCC 8014 grown on lactose at 30 or 37 C accumulated melibiose slowly, suggesting that melibiose may partly be transported by a lactose transport system. A lactose-negative mutant, NTG 21, derived from ATCC 8014 was isolated. The mutant was totally deficient in lactose transport, but retained normal melibiose transport activity. In NTG 21, the melibiose transport activity was induced by melibiose at 30 C, but not at 37 C. The transport activity itself was found to be stable for at least 3 hr at 37 C, suggesting that the induction process in the cytoplasm rather than the inducer entrance is temperature-sensitive in the organism. The organism also failed to form alpha-galactosidase at 37 C when grown on melibiose. The enzyme synthesis, however, was induced by galactose in NTG 21 (and also by lactose in ATCC 8014) even at 37 C, indicating that the induction of the enzyme is essentially not temperature-sensitive. In NTG 21, melibiose transport system and alpha-galactosidase were induced by galactose, melibiose and o-nitrophenyl-alpha-D-galactopyranoside when the strain was grown at 30 C. Raffinose induced melibiose transport system only a little, while it was a good inducer for alpha-galactosidase. Inhibition studies revealed that galactose may be a weak substrate of the melibiose transport system; no inhibition was demonstrated with lactose and raffinose.     

Titration of Cholera Antitoxin in Human Sera by Microhemagglutination with Formalinized Erythrocytes

Microtiter hemagglutination tests employing formalinized sheep erythrocytes sensitized with either crude or purified cholera toxin were used to assay the cholera antitoxin content of human sera. Comparable results were obtained with either crude or purified toxin-sensitized cells with the exception of two sera that gave unusually high hemagglutination titers with the crude toxin. Sera from 13 convalescent cholera patients showed a high degree of correlation between antitoxin levels as determined in vitro by the hemagglutination test and in vivo by the skin permeability factor neutralization test. Fourfold or greater rises in antitoxin levels between acute and convalescent sera were detected in 9 of 15 patients with bacteriologically proven cholera. No significant increases in titer were observed in 14 cases of noncholera diarrhea. Cholera antitoxin was detected by hemagglutination in only 1 of 33 sera, obtained from eight countries, containing vibriocidal antibodies. Formalinized sheep erythrocytes sensitized with toxin and stored at 4 C in the presence of 1:10,000 thimerosal were stable and sensitive for at least 6 months (the longest time tested).     

Hemagglutinating properties of Actinobacillus pleuropneumoniae

A total of 26 isolates of Actinobacillus pleuropneumoniae were tested for their ability to agglutinate erythrocytes of different origins. Seven different hemagglutination patterns were found. Ten (38%) isolates did not agglutinate any of the erythrocytes tested. The remaining 16 (62%) isolates agglutinated human erythrocytes, and among these, 12 also agglutinated rat, cat, dog, guinea pig, or bovine erythrocytes. No correlation was found between the seven different hemagglutination patterns observed and the serotypes. Hemagglutination activity was destroyed by heating at 100 degrees C as well as by formaldehyde treatment, but was not affected by heating at 60 degrees C, by treatment with trypsin or pronase, or by homogenization of bacterial cells. No fimbriae were observed on examination of bacterial cells negatively stained with phosphotungstate using electron microscopy. Hydrophobic surface properties of the isolates were evaluated. All the isolates appear to possess a hydrophilic cell surface. The present study provides evidence that certain isolates of A. pleuropneumoniae possess hemagglutinating properties which do not appear to be mediated by fimbriae or to involve hydrophobic interactions.     

The adhesive glycoprotein laminin is an agglutinin

The glycoprotein laminin appears to function in the attachment of various epithelial cells to basement membranes. We examined whether its putative cell-adhesive activity could be analyzed in a simple, one-component model system—the agglutination of erythrocytes. Laminin is a potent agglutinin of aldehyde-fixed sheep and human erythrocytes, with half-maximal agglutination of 0.8 μg/ml in a standard hemagglutination assay. Inhibitors of this hemagglutinating activity include gangliosides and certain charged phospholipids. The spectrum of molecules is similar but not identical to inhibitors of the hemagglutinating activity of the adhesive glycoprotein fibronectin. Laminin is much less biologically active in three other assays for fibronectin biological activity involving cell spreading on tissue culture substrates, attachment of fibroblastic cells to type I collagen, and restoration of normal morphology to transformed fibroblasts. The adhesive glycoproteins laminin and fibronectin therefore differ markedly in biological activities in several specific adhesion assays; however, they resemble one another in binding to heparin, collagen, and cell surfaces and in their agglutinin activity.     

泥蚶(Tegillarca granosa Linnaeus)血淋巴液凝集素的分离纯化及其性质研究

泥蚶是一种重要的海产经济贝类,其血淋巴液经硫酸铵二步分级沉淀后,再经Sephadex G- 100凝胶过滤和Sepharose 4B亲和层析纯化制得泥蚶血淋巴液凝集素。经测定,该凝集素分子量约为123Kda,为两个亚基的蛋白质,其相对分子量分别为15 KDa和16 KDa,分子中含5．02％的糖。在氨基酸组成中,天门冬氨酸(Asp)含量最高,其次是谷氨酸(Glu)和组氨酸(His),不含蛋氨酸(Met)。泥蚶血淋巴液凝集素对多种天然或经酶修饰的人或动物红细胞具有不同的凝集作用,其中对兔红细胞的凝集活性最大。半乳糖和乳糖对其凝集活性具有抑制作用。凝集活性依赖于Ca2 ,在pH7．0较稳定,热稳定性不高,在30℃-70℃时凝集效价由原来的25下降为21,当温度超过80℃以后,凝血活性完全丧失。     

从绿藻礁膜（Monostroma nitidum Wittr）分离半乳糖专一的凝集素

礁膜（Monostroma nitidum Wittr）经 25%～80%硫酸铵分级、DEAE-纤维素52离子交换层析和Sephadex G-200凝胶过滤层析,得到纯化礁膜凝集素（Monostroma nitidum lectin,MNL）,在SDS-PAGE上显示单一蛋白染色带. 用Sephadex G-200层析测得其分子质量为66.6 kD, 用SDS-PAGE测得其分子质量为66.2 kD．该凝集素可以凝集人A、B、AB、O型红细胞,且凝集活性相同. 在对人（A、B、AB、O）、兔、鲤、鲫、鼠、羊、鸡、狗的红细胞凝集作用中,兔凝集作用最强．该凝集素在pH 4.00～10.53范围内均有活性,但在pH 5.20～9.40范围内活性最大．经100 ℃热处理30 min后,该凝集素对兔红细胞血凝活性保留25%,活性最大的温度范围为25～55 ℃．MNL被EDTA抑制,最小抑制浓度为3.13 mmol/L,但对 Ca^２＋和Mg^２＋不敏感．该凝集素凝集兔红细胞的作用不被D -果糖、D-甘露糖、D-葡萄糖、蔗糖、麦芽糖、γ-球蛋白、牛甲状腺球蛋白所抑制,但被D- 半乳糖和乳糖抑制,最小抑制浓度分别为5 mmol/L和2.5 mmol/L．     

孔石莼(Ulva pertusa)凝集素的分离纯化及性质的研究

为抑制肿瘤细胞增殖和防治有关病害提供基础理论依据 ,将孔石莼 (Ulva pertusa)经磷酸盐缓冲液抽提 ,2 0 %～ 75%硫酸铵分级沉淀 ,牛甲状腺球蛋白 - Sepharose4B亲和层析 ,可以从绿藻孔石莼中纯化出孔石莼凝集素 (UPL) ,在 PAGE上显示单一蛋白染色带 ,在等电聚焦电泳上显示单一蛋白染色带 ,其 p I为 8.40 .纯化后的 UPL的最大紫外吸收峰在 2 85nm,用 Sephadex G- 2 0 0分子筛层析测得其分子量为 1 1 0 4 7.该凝集素可以凝集人的 A、B、AB、O型红细胞 ,且凝集活性相同 ,在对人 (A、B、AB、O)兔、鲤、鲫的红细胞的凝集作用中 ,兔的凝集作用最强 .该凝集素凝集兔红细胞的作用不被 D-半乳糖、D-果糖、葡萄糖、蔗糖、甘露聚糖、γ球蛋白、卵清蛋白所抑制 ,仅被牛甲状腺球蛋白抑制 ,最小抑制浓度为 6.2 0 g/L.该凝集素在 p H4.0～ 1 0 .1 4范围内均有活性 ,但在p H6.50～ 9.51范围内活性较高 ,该凝集活性在 85℃加热 1 h,活力仍未改变 ,说明具有很强的耐热性 .     

A method for detecting the hemagglutinating activity of enteroviruses

Optimal conditions to reveal the hemagglutinating activity in the Coxsackie viruses of group B and hemagglutination test (HAT) performed by the micromethod are studied and determined. The titre of hemagglutinins revealed in HAT is established to depend on pH of the phosphate-buffer solution, concentration of human erythrocytes and their group attribution. The viruses passaged at the suboptimal temperature 33 degrees C are shown to possess the maximal hemagglutinating activity.     

Properties of the erythrocyte receptors for influenza C virus.

Properties of the receptor for influenza C virus were studied. Although the receptor for influenza C virus on chicken erythrocytes was destroyed by the homologous virion, neuraminidase activity could not be detected in any of the influenza C virus strains tested. The receptor activity of chicken erythrocytes for influenza C virus was diminished by formaldehyde treatment but not by periodate oxidation. There was a considerable variation in the pattern and the titer of hemagglutination of influenza C virus when human erythrocytes of different blood types were used; the virus agglutinated most type B erythrocytes but not type A erythrocytes. By using human type B erythrocytes, differences among strains of influenza C virus in the hemagglutinating activity were also demonstrated. These results showed that both the receptor for and the receptor-destroying activity of influenza C virus were completely different from those of influenza A or B virus and also that carbohydrates were not involved in the receptor for influenza C virus.