Isolation and Characterization of a Sex-Specific Lectin in a Marine Red Alga,Aglaothamnion oosumiense Itono

In red algae, spermatial binding to female trichogynes is mediated by a lectin-carbohydrate complementary system. Aglaothamnion oosumiense is a microscopic filamentous red alga. The gamete recognition and binding occur at the surface of the hairlike trichogyne on the female carpogonium. Male spermatia are nonmotile. Previous studies suggested the presence of a lectin responsible for gamete recognition on the surface of female trychogynes. A novel N-acetyl-d-galactosamine-specific protein was isolated from female plants of A. oosumiense by affinity chromatography and named AOL1. The lectin was monomeric and did not agglutinate horse blood or human erythrocytes. The N-terminal amino acid sequence of the protein was analyzed, and degenerate primers were designed. A full-length cDNA encoding the lectin was obtained using rapid amplification of cDNA ends-PCR (RACE-PCR). The cDNA was 1,095 bp in length and coded for a protein of 259 amino acids with a deduced molecular mass of 21.4 kDa, which agreed well with the protein data. PCR analysis using genomic DNA showed that both male and female plants have this gene. However, Northern blotting and two-dimensional electrophoresis showed that this protein was expressed 12 to 15 times more in female plants. The lectin inhibited spermatial binding to the trichogynes when preincubated with spermatia, suggesting its involvement in gamete binding.     

Human erythrocyte specific lectin from the seeds of Indian coral tree,<Emphasis Type="Italic">Erythrina variegata</Emphasis> Linn,var.<Emphasis Type="Italic">orientali</Emphasis> Linn,Merrill

Human erythrocyte specific lectin was isolated from the seeds ofErythrina variegata Linn. var.orientalis Linn. Merrill. The lectin preferentially agglutinated erythrocytes in the sequence of O>B>A = AB. The lectin was purified 19-fold by affinity chromatography on acid treated sepharose 4B with an yield of 81%. The purified lectin was found homogeneous on polyacrylamide gel electrophoresis. The erythroagglutination reaction was inhibited by N-acetyl-D-galactosamine, D-galactose and lactose at very low concentration. The haemagglutination by the purified lectin was not inhibited by different hexose and pentose sugars even at high concentration. The purified lectin was a glycoprotein and agglutinated leucocytes at 3 μg protein concentration. The lectin induced transformation of peripheral blood lymphocytes in cultures.     

Chemical and immunological similarities between the phloem proteins of three genera of the Cucurbitaceae

Phloem exudates from Cucurbita, Cucumis, and Citrullus were gelled by oxidative formation of disulphide bridges between the phloem filaments. Gellation could be inhibited by dithiothreitol or iodoacetamide and did not require the presence of the phloem lectin. Each exudate contained a dimeric lectin of similar relative molecular mass and purified specific activity; these were all specific for oligomers of N-acetyl-glucosamine, and shared antigenic determinants. The similarity of the phloem proteins between Cucurbita, Cucumis, and Citrullus implied that they served the same function in each genus. This is postulated to be the sealing of wounded sieve-tubes, with the lectin on the filaments binding and preventing the entry of micro-organisms. The phloem lectin and the filament-forming protein from Cucurbita shared sequence homologies as judged by amino-acid-composition comparisons, but antibodies raised against each showed no cross-reactivity with the other protein. The exudates from Cucurbita and Cucumis may contain a high concentration of phloem proteins because the large diameter of their sieve-pores does not allow rapid blocking by callose synthesis on wounding, and a chemical mechanism of gellation is required.     

Characterization of a lectin from the seeds of Erythrina vespertilio

A lectin was isolated from the seeds of Erythrina vespertilio by affinity chromatography on lactose-Sepharose 6B. The lectin has an M, of 59 000 and consists of two non-covalently associated subunits (M, ∼ 30 000). The lectin is devoid of cysteine but has six methionine residues/mol and a neutral sugar content of 9.7% The carbohydrate composition was mannose, N-acetylglucosamine, fucose, xylose and galactose in amounts of 15.0, 4.0, 1.0, 5.0 and 25 mol/59 000 g, respectively. Alkaline gel electrophoresis and isoelectric focusing showed that the affinity purified lectin consists of a family ofisolectins. Valine was the only N-terminal amino acid found and the N-terminal sequence was homologous with that found for other legume lectins. The lectin was inhibited by galactosyl containing carbohydrates; p-nitrophenyl-β-galactoside was the best inhibitor and the lectin showed a slight preference for β-galactosides. Comparison of its properties with those of other Erythrina lectins shows that most of the lectins of this genus are closely related.     

Purification and properties of a lectin from lonchocarpus capassa (apple-leaf) seed

A lectin has been purified from L. capassa seed by ammonium sulphate fractionation and affinity chromatography on a column of D-galactose-derivatized Sepharose. The lectin is a glycoprotein which contains 3.8% neutral carbohydrates comprised of mannose, N-acetylglucosamine, xylose and fucose. The subunit M, of the lectin is 29 000, it has only alanine as N-terminal amino acid and contains 240 amino acids with a high content of acidic and hydroxy amino acids, single residues of methionine and histidine and the absence ofcystine. The lectin of L. capassa seed is a metalloprotein in that it contains 0.8 mol Ca²⁺ and 0.4 mol Mn²⁺ per mol. It agglutinates untreated human A, O and B type erythrocytes and rabbit erythrocytes. N-Acetyl-D-galactosamine was the best inhibitor. D-Galactose and various carbohydrates containing this sugar inhibit the hemagglutinating activity of the lectin. The lectin is also inhibited by D-glucose. The amino-terminal sequence of the lectin from L. capassa seed shows a significant degree of homology with many lectins from leguminous plants and is related to concanavalin A by a circularly permuted sequence homology.     

An acid-tolerant lectin coupled with high Hg2+ potentiated hemagglutination enhancing property purified from Amanita hemibapha var. ochracea

A 37.4 kDa acid tolerant lectin was isolated and purified from dried fruiting bodies of Amanita hemibapha var. ochracea designated as AHL. The lectin was not adsorbed on DEAE-cellulose, but rather adsorbed on S-Sepharose and subjected to gel filtration by fast protein liquid chromatography on Superdex 75. The purified lectin was immune from inhibition activities of metal ions. More over, AHL exhibited high agglutination activity on rabbit erythrocytes with accelerating Hg²⁺ ions concentration. Partial peptide sequence analysis (VSNNLLTGPKVVR) of this lectin showed relative similarity to phosphoenolpyruvate carboxykinase [ATP]-like protein as predicted from Fragaria vesca subsp. Vesca. Interestingly, AHL displayed a strong affinity toward α-Lactose, making our study the first report associating Amanita species’ lectin specificity for α-Lactose to the best of our knowledge.     

Isolation of a mannose-specific lectin from Escherichia coli and its role in the adherence of the bacteria to epithelial cells.

A high molecular weight protein aggregate, which agglutinates yeast cells, human epithelial cells and mouse lymphocytes, was isolated from extracts of Escherichia coli by differential centrifugation and gel filtration. The agglutination is specifically inhibited by d-mannose and its derivatives, the best inhibitor being p-nitrophenyl α-d-mannoside. Sodium dodecyl sulfate gel electrophoresis showed that the lectin consists of protein subunits with identical M_r of ～36500. The amino acid composition of the purified lectin is different from that reported for the type I pili protein, the K99 antigen and the major outer membrane protein Ia of E. coli. The protein appears to be located on the bacterial surface, and is probably involved in the mannose-specific adherence of E. coli to eukaryotic cells.     

Isolating and characterising a lectin from Galactia lindenii seeds that recognises blood group H determinants

A lectin was isolated from Galactia lindenii seeds and characterised. The lectin, purified by affinity chromatography, readily agglutinated O(H) human erythrocytes and interacted weakly with rabbit and rat erythrocytes. Specificity towards blood group H-type determinants was established; among them H-type 2 (alpha-L-Fuc (1-2)-beta-D-Gal (1-4)-beta-D-GlcNAc-O-R) was recognised by the lectin. The binding to the glycoconjugate was partially inhibited by GalNAc and Me-beta-Gal. The protein is an M=104,256 tetramer which dissociates into identical M=26,064 subunits under non-reducing conditions. Its amino acid composition, pI, A(1%), and N-terminal sequence (23 residues) were determined. The N-terminal region showed a unique sequence found hitherto only in some lectins (designated type-II) from the Dioclea genus. This work presents the evidence concerning a distinct type of lectin found in the Diocleinae tribe able to recognise the H-type 2 human blood group determinant and clearly different from the Glc/Man-specific lectins. The protein is a potential tool in cellular and histochemical studies.     

Identification and Characterization of a Chitin-binding Protein Purified from Coelomic Fluid of the Lugworm Arenicola marina Defining a Novel Protein Sequence Family

We have isolated a novel type of lectin named Arenicola marina lectin-1 (AML-1) from the lugworm A. marina. The lectin was purified from the coelomic fluid by affinity chromatography on a GlcNAc-derivatized column and eluted with GlcNAc. On SDS-PAGE, AML-1 showed an apparent molecular mass of 27 and 31 kDa in the reduced state. The N-terminal amino acid sequences were identical in these two bands. In the unreduced state, a complex band pattern was observed with bands from 35 kDa to more than 200 kDa. Two different full-length clones encoding polypeptides of 241 and 243 amino acids, respectively, were isolated from a coelomocyte cDNA library. The two clones, designated AML-1a and AML-1b, were 92% identical at the protein level and represent a novel type of protein sequence family. Purified AML-1 induced agglutination of rabbit erythrocytes, which could be inhibited by N-acetylated saccharides. Recombinant AML-1b showed the same band pattern as the native protein, whereas recombinant AML-1a in the reduced state lacked a 27 kDa band. AML-1b bound GlcNAc-derivatized columns and chitin, whereas AML-1a did not bind to these matrices. Immunohistochemical analysis revealed that AML-1 is expressed by coelomocytes in the nephridium and in round cells in the epidermis and in eggs. Moreover, AML-1 expression was up-regulated in response to a parasitic infection. We conclude that AML-1 purified from coelomic fluid is encoded by AML-1b and represents a novel type of protein family that binds acetylated components.     

BUL: A novel lectin from Bauhinia ungulata L. seeds with fungistatic and antiproliferative activities

A new galactose-binding lectin, termed BUL, has been purified from seeds of Bauhinia ungulata L. (Caesalpinoideae) by precipitation with solid ammonium sulfate followed by agarose–lactose affinity chromatography. B. ungulata lectin strongly agglutinated rabbit erythrocytes, both native and treated with proteolytic enzymes, and was inhibited by d-galactose and d-galactose-derived sugars, especially N-acetyl-d-galactosamine. BUL was shown to be a stable glycoprotein, maintaining its hemagglutinating activity after incubation at wide ranges of temperature and pH, but not after incubation with EDTA. By SDS-PAGE analysis, purified BUL showed an electrophoretic profile consisting of a single band with apparent molecular mass of 30 kDa. BUL showed intrinsic fluorescence typical of folded globular proteins, and CD spectra of lectin in the native state showed a predominance of β-sheet secondary structure. The N-terminal amino acid sequence of 19 residues showed a high sequential similarity to other galactose-specific lectins from the Bauhinia genus. In addition, BUL showed antifungal activity against phytopathogenic species and showed in vitro antiproliferative activity against the HT-29 cell line of human colon adenocarcinoma in a dose-dependent manner.     

Isolation of an N-acetyl-d-galactosamine-binding protein from winged bean (Psophocarpus tetragonolobus)

A lectin has been purified to homogeneity by affinity chromatography on a Sepharose-N-caproyl-d-galactosamine column from the local variety of winged bean (Psophocarpus tetragonolobus). The lectin agglutinated native erythrocytes of all blood groups. This hemagglutination was inhibited best by N-acetyl-d-galactosamine. A molecular weight of 41,000 was obtained for the lectin by gel filtration on Bio-Gel P-100. Sodium dodecyl sulfate-polyacryl-amide gel electrophoresis of the same lectin showed a single M_r 35,000 polypeptide.     

Isolation and determination of the primary structure of a lectin protein from the serum of the American alligator (Alligator mississippiensis)

Mass spectrometry in conjunction with de novo sequencing was used to determine the amino acid sequence of a 35 kDa lectin protein isolated from the serum of the American alligator that exhibits binding to mannose. The protein N-terminal sequence was determined using Edman degradation and enzymatic digestion with different proteases was used to generate peptide fragments for analysis by liquid chromatography tandem mass spectrometry (LC MS/MS). Separate analysis of the protein digests with multiple enzymes enhanced the protein sequence coverage. De novo sequencing was accomplished using MASCOT Distiller and PEAKS software and the sequences were searched against the NCBI database using MASCOT and BLAST to identify homologous peptides. MS analysis of the intact protein indicated that it is present primarily as monomer and dimer in vitro. The isolated 35 kDa protein was ~ 98% sequenced and found to have 313 amino acids and nine cysteine residues and was identified as an alligator lectin. The alligator lectin sequence was aligned with other lectin sequences using DIALIGN and ClustalW software and was found to exhibit 58% and 59% similarity to both human and mouse intelectin-1. The alligator lectin exhibited strong binding affinities toward mannan and mannose as compared to other tested carbohydrates.     

Sequence analysis and heterologous expression of lectin-like gene CMLec3 from the medicinal fungus Cordyceps militaris

Through data mining of the Cordyceps militaris genome, a lectin-like encoding gene, CMLec3, was identified. In this study, the CMLec3 sequence was analyzed using bioinformatics approaches, and the gene was heterologously expressed in Escherichia coli BL21?cells. The biological activity of the product was examined. In addition, CMLec3 gene expression levels were assessed. The results showed that the CMLec3 protein contained a lectin domain structure and was successfully expressed. The CMLec3 protein partly inhibited HeLa cell proliferation. CMLec3 exhibited the highest gene expression in the primordium at a level 5.19 times that of the mycelium and 1.35 times that of the fruiting body. This suggests that the gene may be related to fruiting body development.     

Blood group B-specific lectin of Plecoglossus altivelis (Ayu fish) eggs

A lectin that agglutinates human blood group B erythrocytes but not blood group A and O erythrocytes was isolated from eggs of Ayu sweet fish (Plecoglossus altivelis). The lectin also agglutinates Ehrlich ascites carcinoma cells but not rat ascites hepatoma AH109 or rat sarcoma 150 cells tested. The lectin agglutination was most effectively inhibited by monosaccharides with the first type of configuration, i.e., L-rhamnose, L-mannose and L-lyxose at a concentration of 0.03 mM. The lectin agglutination was moderately inhibited by monosaccharides with the second type of configuration, i.e., D-galactose, D-fucose and D-galacturonic acid at a concentration of 0.4 mM. However, the agglutination was not inhibited by various other monosaccharides and oligosaccharides that have other types of configuration. The basis for an apparent B-specific hemagglutination may be due to the steric similarity of the C₂ and C₄ of the galactosyl series, the B-specific determinant, and the L-rhamnosyl series, which are the best inhibitors of the lectin activity. The lectin was affinity purified on an L-rhamnosyl-Sepharose column and was characterized as a homogeneous low molecular weight protein (M_r 14 000) with an abundance of hydrophobic amino acids and dicarboxylic amino acid.     

Cloning and Sequencing of a Lectin Protein Gene from the Roots of Sophora flavescens (in English)

A lectin protein（SFL） with molecular weight about 32 kD which markedly agglutinated rabbit and human red blood cells was purified from the roots of Sophora flavescens Ait. This protein, and apparently inhibited the growth of Fusarium vasinfectum Atk., Gibberella saubinetii (Mont.) Sacc., and Piricularia oryzae Cav. A set of degenerate PCR primer was synthesized according to the N-terminal sequence of the purified protein. The full-length cDNA coding the lectin was cloned by RT-PCR and 5′-RACE and sequenced (GenBank AF285121). The deduced amino acid sequence indicates that a preprotein with 284 amino acid residues is firstly translated and then processed to a mature protein with 254 amino acids. A N-Glycosylation site is the Asn 182 residue.      

Sialic acid-binding dwarf elder four-chain lectin displays nucleic acid N-glycosidase activity

Sialic acid-binding dwarf elder agglutinin (SEA) present only in rhizomes of the medicinal plant Sambucus ebulus L., was found to be a tetrameric glycoprotein consisting of two covalently-associated dimers of an enzymic A chain with rRNA N-glycosidase activity (EC 3.2.2.22) linked to a B chain with agglutinin properties. The lectin inhibited protein synthesis by a cell-free system and depurinated ribosomes. Cloning of the corresponding gene and molecular modeling of the deduced amino acid sequence demonstrated that SEA has a three-dimensional structure which resembles that reported for other two tetrameric type 2 RIPs from Sambucus (SNAI and SSA). The lectin agglutinated red blood cells and displayed sugar affinity for sialic acid residues apart from d-galactose, binding to the mucin-producing gut goblet cells. Since sialic acid is present in animal cells, especially in epithelial lining gut cells, but not in plants, SEA could play a role in the defense against insect attack.     

Purification, characterization, and cDNA cloning of alpha-N-acetylgalactosamine-specific lectin from starfish, Asterina pectinifera

We report here the purification, characterization, and cDNA cloning of a novel N-acetylgalactosamine-specific lectin from starfish, Asterina pectinifera. The purified lectin showed 19-kDa, 41-kDa, and 60-kDa protein bands on SDS-PAGE, possibly corresponding to a monomer, homodimer, and homotrimer. Interestingly, on 4-20% native PAGE the lectin showed at least nine protein bands, among which oligomers containing six to nine subunits had potent hemagglutination activity for sheep erythrocytes. The hemagglutination activity of the lectin was specifically inhibited by N-acetylgalactosamine, Tn antigen, and blood group A trisaccharide, but not by N-acetylglucosamine, galactose, galactosamine, or blood group B trisaccharide. The specificity of the lectin was further examined using various glycosphingolipids and biotin-labeled lectin. The lectin was found to bind to Gb5Cer, but not Gb4Cer, Gb3Cer, GM1a, GM2, or asialo-GM2, indicating that the lectin specifically binds to the terminal alpha-GalNAc at the nonreducing end. The hemagglutination activity of the lectin was completely abolished by chelation with EDTA or EGTA and completely restored by the addition of CaCl(2). cDNA cloning of the lectin showed that the protein is composed of 168 amino acids, including a signal sequence of 18 residues, and possesses the typical C-type lectin motif. These findings indicate that the protein is a C-type lectin. The recombinant lectin, produced in a soluble form by Escherichia coli, showed binding activity for asialomucin in the presence of Ca(2+) but no hemagglutination.     

Cloning and characterization of the Atlantic salmon serum lectin,a long-form C-type lectin expressed in kidney

We report the cloning of four distinct cDNAs and a genomic sequence encoding a multimeric serum lectin found in the blood of Atlantic salmon (Salmo salar). The sequence variation among the cDNAs as well as genomic Southern blotting analysis revealed a multi-gene family. Expression of the salmon serum lectin (SSL) was specific to kidney, as demonstrated by RT-PCR. Analysis of the 173-amino acid sequence of SSL confirmed that it is a member of the C-type lectin superfamily. Sequence alignments and intron/exon structure of the SSL gene showed it to belong to the type VII C-type lectins, which normally bind to galactose or other ligands, whereas the SSL protein sequence contains the EPN motif of mannose-binding C-type lectins, that bind mannose or related carbohydrates.     

A biologically active lectin of enteroaggregative Escherichia coli

The pathogenesis of enteroaggregative Escherichia coli, a major contributor to paediatric diarrhoea, is still not clearly understood. A complex carbohydrate specific lectin was identified from the culture supernatant of an enteroaggregative E. coli strain. The lectin was purified to 660-fold by a combination of sequential saturated ammonium sulphate precipitation and gel filtration chromatography in the FPLC system. The homogeneity of the purified lectin was established by analytical isoelectrofocusing [pI 6.75]. Hemagglutination of rabbit erythrocytes by the purified lectin was best inhibited by fetuin. The N-terminal sequence of the 41.7 kDa subunit showed homology to the outermembrane porins and the 23.4 kDa subunit showed homology to a hypothetical protein of Yersinia pestis and secreted Hcp protein. This protein could induce extensive morphological changes in HEp-2 cells and significant amount of fluid accumulation in rabbit ileal loop. GM1 showed maximum binding to the lectin among all other gangliosides. This purified protein showed cross-reactivity to the binding subunit of cholera toxin in western immunoblot. The presence of this toxin in some of the clinical isolates of enteroaggregative E. coli was also observed. The structural and functional characteristics of the toxin revealed that it is a novel virulence determinant of aggregative E. coli.     

Molecular basis of anticoagulant and anticomplement activity of the tick salivary protein Salp14 and its homologs

During feeding, a tick''s mouthpart penetrates the host''s skin and damages tissues and small blood vessels, triggering the extrinsic coagulation and lectin complement pathways. To elude these defense mechanisms, ticks secrete multiple anticoagulant proteins and complement system inhibitors in their saliva. Here, we characterized the inhibitory activities of the homologous tick salivary proteins tick salivary lectin pathway inhibitor, Salp14, and Salp9Pac from Ixodesscapularis in the coagulation cascade and the lectin complement pathway. All three proteins inhibited binding of mannan-binding lectin to the polysaccharide mannan, preventing the activation of the lectin complement pathway. In contrast, only Salp14 showed an appreciable effect on coagulation by prolonging the lag time of thrombin generation. We found that the anticoagulant properties of Salp14 are governed by its basic tail region, which resembles the C terminus of tissue factor pathway inhibitor alpha and blocks the assembly and/or activity of the prothrombinase complex in the same way. Moreover, the Salp14 protein tail contributes to the inhibition of the lectin complement pathway via interaction with mannan binding lectin–associated serine proteases. Furthermore, we identified BaSO₄-adsorbing protein 1 isolated from the tick Ornithodoros savignyi as a distant homolog of tick salivary lectin pathway inhibitor/Salp14 proteins and showed that it inhibits the lectin complement pathway but not coagulation. The structure of BaSO₄-adsorbing protein 1, solved here using NMR spectroscopy, indicated that this protein adopts a noncanonical epidermal growth factor domain–like structural fold, the first such report for tick salivary proteins. These data support a mechanism by which tick saliva proteins simultaneously inhibit both the host coagulation cascade and the lectin complement pathway.