Interaction between Dolichos biflorus lectin and chick embryonic fibroblasts at different stages of development

The interaction between chick embryo fibroblasts and A1-specific blood group Dolichos biflorus lectin has been studied at various stages of embryo development. The site number (($\text{0.26±0.03) · 10}{}^6\text{sites/cell}$) remains the same during development whereas the affinity constant apparently decreases from 8-day cells onwards. The effects of cell number, temperature and time course on the Dolichos binding to fibroblasts were not age dependent. Competitive binding experiments revealed that Dolichos receptor sites were distinct from binding sites of Robina pseudoacacia lectin and concanavalin A, but partially related to binding sites of Ricinus lectin. Thymidine incorporation by fibroblasts in the presence of Dolichos lectin was age dependent. It was inhibited in 6-day cells and weakly stimulated in 16-day cells, but not modified in 12-day cells. Dolichos lectin effects on embryo fibroblasts were very specific because both binding to cells and effect on thymidine incorporation were blocked by $\text{N-}\text{acetylgalactosamine}$, the determinant of Dolichos lectin, as well as by Dolichos antiserum.     

Primary structure of the Dolichos biflorus seed lectin

The Dolichos biflorus seed lectin is a tetramer composed of equal amounts of two subunit types. The subunit types are structurally very similar, yet only the larger subunit exhibits the ability to bind carbohydrate. A cDNA clone representing the entire coding region of the D. biflorus lectin mRNA has been sequenced. This cDNA represents 1075 nucleotides of seed lectin mRNA encoding a polypeptide of Mr = 29,674. Analysis of the deduced sequence indicates that the NH2 termini and COOH termini of both lectin subunits are present within the mRNA coding region. This information supports previous data indicating that both subunits of the lectin are encoded by a single mRNA and that the difference between the subunit types apparently arises by the proteolytic removal of a 10-amino acid sequence from the COOH terminus of the larger subunit. Comparison of the D. biflorus seed lectin sequence to the sequence of other leguminous seed lectins indicates regions of extensive homology. The residues of concanavalin A involved in metal binding are highly conserved in the D. biflorus lectin, but those involved in saccharide binding show a much lower degree of conservation. Prediction of the secondary conformation of the D. biflorus polypeptide suggests that structures involved in the formation of quaternary structure in concanavalin A are also conserved.     

Cell growth and thymidine incorporation changes induced by Dolichos lectin in embryo fibroblasts at various stages of differentiation.

We report here the effect of Dolichos lectin on chick embryo fibroblasts from embryos between 6th and 16th day of development. There is evidence that Dolichos lectin decreases cell number and proportion of cells incorporating tritium labelled thymidine in case of chick embryo fibroblasts of 6th, 8th and 10th day of development. Dolichos lectin stimulated the proliferation of 16-day old embryo cells. No effect was noticed on 12-day embryo cells at different concentrations of Dolichos lectin used. This lectin is specifically inhibited by N-acetyl-D-galactosamine and anti-Dolichos lectin serum. The difference in response by cells during different stages of embryonic development could perhaps be explained as some regulatory changes occurring on the cell surface.     

Isolation and characterization of subunits from the predominant form of Dolichos biflorus lectin.

The subunits of the two molecular forms (A and B) of the Dolichos biflorus lectin were isolated by ion-exchange chromatography on DEAE-cellulose in 8.0 M urea. Subunits IA and IIA which comprise the predominant molecular form A of the lectin were found to have molecular weights of 27,700 and 27,300, respectively, as determined by sedimentation equilibrium studies in 8.0 M urea. These subunits have similar amino acid compositions and each have alanine at their amino-terminal ends. Comparison of the IA and IIA subunits by immunodiffusion against antisera to the seed extract as well as to subunits IA and IIA showed no antigenic differences between the two subunits. Carboxyl terminal analyses of subunits IA and IIA with carboxypeptidase A produced an essentially simultaneous release of both leucine and valine residues from subunit IA; no detectable amino acids were released from subunit IIA under identical conditions. The data suggest that the molecular form A of the lectin (molecular weight 113,000, Carter and Etzler, 1975) consists of four subunits with a possible stoichiometry of IA2IIA2. Other possible arrangements of the subunits are discussed.     

Isolation and characterization of a lectin from the roots of Dolichos biflorus

A lectin has been isolated from the roots of 7-day-old Dolichos biflorus plants and has been compared with the D. biflorus seed lectin. The root lectin differs from the seed lectin in molecular weight, subunit stoichiometry, amino acid composition, amino terminal amino acid sequence, and isoelectric focusing pattern. However, the root lectin has in common with the seed lectin a specificity for N-acetyl-D-galactosamine, and upon denaturation the root lectin will react weakly with antiserum made to denatured seed lectin. Distribution studies of this lectin in germinating seedlings show that the highest levels of lectin are found in 1-day-old roots. Upon dissection and analysis of 7-day-old roots, the highest levels of the lectin are in the uppermost segment. In addition, isoforms of this lectin also exist in the stems and leaves of the plant.     

cDNA cloning and in vitro synthesis of the Dolichos biflorus seed lectin

The Dolichos biflorus seed lectin contains two structurally related subunits. A cDNA library was constructed using RNA isolated from D. biflorus seeds actively synthesizing the seed lectin. The library was expressed in Escherichia coli using a lambda Charon 16 vector, and lectin-specific antiserum was used to isolate a seed lectin cDNA. Hybridization of the D. biflorus seed lectin cDNA to RNA isolated from seeds actively producing both lectin subunits identifies a single-size RNA of 1100 bases. An oligodeoxyribonucleotide probe, constructed from an amino acid sequence common to both lectin subunits, detects the same size RNA. Translation of seed mRNA in vitro and immunoprecipitation of translation products using a lectin-specific antiserum yields a single polypeptide of slightly higher molecular mass than the largest seed lectin subunit. This seed lectin precursor is indistinguishable from a polypeptide synthesized from mRNA hybrid selected by the seed lectin cDNA. These data support the existence of a single polypeptide precursor for both subunit types of the D. biflorus seed lectin and suggest that differences between the subunit types arise by posttranslational processing.     

Isolation and characterization of cyanogen bromide fragments and a glycopeptide from the Dolichos biflorus lectin.

The 110000 molecular weight Dolichos biflorus lectin is a glycoprotein composed of four subunits of approximately 27000 molecular weight with one methionine residue per subunit (Carter and Etzler, 1975b). Cyanogen bromide cleavage of the lectin yielded two fragments with approximate molecular weights of 15000 and 12000 as determined by electrophoresis on sodium dodecyl sulfate gels. Only the 15000 molecular weight fragment stained for carbohydrate with the periodic acid-Schiff stain. The two fragments were isolated, and their amino acid compositions were determined. The 15000 molecular weight fragment was identified as the amino terminal segment of the lectin subunits by NH2-terminal amino acid analysis. A glycopeptide with a minimum molecular weight of 1100 was isolated from the lectin by exhaustive Pronase digestion. Complete acid hydrolysis of the glycopeptide yielded aspartic acid, mannose, and N-acetylglucosamine in the ratio of 1:4-5:1-2. Partial acid hydrolysis of the glycopeptide produced a component which had an identical mobility with commercial N-acetylglucosaminylasparagine in high voltage paper electrophoresis. The data indicate that the carbohydrate unit of the lectin is bound to the amino terminal half of the subunits by a glycosylamine linkage between N-acetylglucosamine and asparagine.     

Production and characterization of a monoclonal antibody against the seed lectin of the Dolichos biflorus plant

Spleen cells from mice immunized with the Dolichos biflorus seed lectin were fused with cells from the mouse myeloma Sp2/O-Ag14 cell line to form hybridomas. Those hybridomas producing antibodies against the seed lectin were cloned at least four times and the monoclonal antibodies from clone C11/64-56.28 were characterized and found to be specific for Subunit I of the lectin; they do not react with the structurally similar Subunit II. In previous studies, we have shown that although these two subunits appear to differ only at their COOH-terminal ends, only Subunit I has carbohydrate binding activity. Using a solid phase enzyme immunoassay, the antigenic determinant fr the monoclonal antibody was found to be located on the COOH-terminal cyanogen bromide fragment of this subunit. The monoclonal antibody inhibits the ability of the lectin to agglutinate erythrocytes and N-acetyl-D-galactosamine, the specific hapten for the lectin, inhibits the ability of the antibody to combine with the lectin. These results suggest that the monoclonal antibody recognizes a determinant that is located either at or near the active site of the lectin or that is conformationally interdependent with the active site.     

Isolation of serine protease from granulated metrial gland cells of mice and rats with lectin from Dolichos biflorus.

Granulated metrial gland cells were the only cells in the endometria of pregnant mice and rats that reacted histochemically with fluoresceinated lectin (DBA) from Dolichos biflorus. Cell extracts of uteri of pregnant animals, separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and analysed by lectin overlay blotting, contained DBA-reactive, 40-50 kDa, doublet glycoprotein bands. This glycoprotein was purified on a DBA agarose affinity column. It was identified by amino acid sequencing as a serine protease closely related to granzymes of T lymphocytes. We conclude that this granzyme accounts for the selective reactivity of granulated metrial gland cells with fluoresceinated DBA in histological sections of uteri of pregnant rodents and show that DBA affinity columns can be used for purification of granzyme derived from granulated metrial gland cells.     

Age related and lectin influenced changes of exoglycosidases activity in cultured chick embryonic skin fibroblasts

beta-N-acetyl-D-glucosaminidase, beta-N-acetyl-galactosaminidase and a beta-D-galactosidase activity was determined in untreated and lectins (ConA, PNA, SBA and WGA) treated chick embryonic skin fibroblasts at two incubation stages. Activity of all three glycosidases increased between 7 and 14 incubation days. ConA and WGA affected the levels of enzymatic activity; while SBA and PNA were uneffective. We discuss these findings in relation to a possible role of glycosidases in controlling mesenchymal GAG turnover.     

Alternative ultrastructural localization of Dolichos biflorus lectin binding sites in proton secreting parietal cells of mice

Summary High amount of N-acetyl-d-galactosamine specific lectin binding sites were detected on the canalicular membranes of human parietal cells. Our present model investigations on mice showed that the intracellular distribution of the terminal N-acetyl-d-galactosamine containing glycoprotein highly depends on the actual functional state of the parietal cells. In the normal gastric mucosa 40%–60% of parictal cells react positively after staining with horseradish peroxidase or biotin labelled Dolichos biflorus lectin. Ultrastructurally lectin binding sites occur mainly on the basolateral membrane infoldings in fed animals, while they are present exclusively on the canalicular membranes of fasting mice, suggesting that the alternative appearance of lectin binding sites on the opposite membrane areas of parietal cells is tightly coupled to their main function, to H⁺ secretion.     

Alternative ultrastructural localization of Dolichos biflorus lectin binding sites in proton secreting parietal cells of mice

High amount of N-acetyl-D-galactosamine specific lectin binding sites were detected on the canalicular membranes of human parietal cells. Our present model investigations on mice showed that the intracellular distribution of the terminal N-acetyl-D-galactosamine containing glycoprotein highly depends on the actual functional state of the parietal cells. In the normal gastric mucosa 40%-60% of parietal cells react positively after staining with horseradish peroxidase or biotin labelled Dolichos biflorus lectin. Ultrastructurally lectin binding sites occur mainly on the basolateral membrane infoldings in fed animals, while they are present exclusively on the canalicular membranes of fasting mice, suggesting that the alternative appearance of lectin binding sites on the opposite membrane areas of parietal cells is tightly coupled to their main function, to H+ secretion.     

Comparisons of different stages of chick embryonic development by the physiological regulatory response to hyposmotic challenge

Cardiac myocytes isolated and cultured from 11 day chick embryos present a Ca(2+)-dependent regulatory volume decrease (RVD) when exposed to hyposmotic stimulus. The RVD of myocytes from different embryonic stages were analyzed to evaluate their physiological performance through development. Among the several embryonic stages analyzed (6, 11, 16 and 19 days) only 19 day cardiac myocytes present a greater RVD when compared with 11 day (considered as control), the other ages showed no difference in the regulatory response. As it is known that RVD is Ca(2+) dependent, we decided to investigate the transient free Ca(2+) response during the hyposmotic swelling of the 11 and 19 day stages. The 11 day cardiac myocyte showed a transient 40% increase in intracellular free Ca(2+) when submitted to hyposmotic solutions, and the free Ca(2+) returned to baseline levels while the cells remained in hyposmotic buffer. However, the intracellular free Ca(2+) transient in the 19 day cells during hyposmotic challenge increases 100% and instead of returning to baseline levels, declines to 55% above control, well after the 11 day transient has returned to baseline. Also, quantitative fluorescence microscopy revealed that 19 day cardiac myocytes have more sarcoplasmic reticulum (SR) Ca(2+) ATPase sites per cell as compared to the 11 day cells. Our findings suggest that 19 day cells have more developed intracellular Ca(2+) stores (SR). By evoking the mechanism of Ca(2+) induced Ca(2+) release, the cells have more free Ca(2+) available for signaling the RVD during hyposmotic swelling.     

cDNA cloning, primary structure, and in vitro biosynthesis of the DB58 lectin from Dolichos biflorus

Previous studies have shown that the Dolichos biflorus plant contains a lectin in its stems and leaves, called DB58, that is closely related to the D. biflorus seed lectin. DB58 is a heterodimer composed of two closely related subunits. Immunoprecipitation of total translation products from D. biflorus stem and leaf mRNA suggests a single polypeptide precursor for both of these subunits. Several identical cDNA clones representing the entire coding region of the DB58 mRNA have been isolated from a D. biflorus stem and leaf cDNA library. The DB58 cDNA represents an mRNA encoding a polypeptide of Mr = 29,545. The predicted polypeptide is equal in length to the larger subunit of DB58 with the addition of a 22-amino acid amino-terminal signal sequence. The sequence of the DB58 lectin exhibits 84% homology to the D. biflorus seed lectin at the amino acid level, suggesting that these lectins are encoded by differentially expressed genes and may have evolved to carry out tissue-specific functions. Comparison of the DB58 sequence to other leguminous seed lectins indicates a high degree of structural conservation.     

Weak protein-protein interactions in lectins: the crystal structure of a vegetative lectin from the legume Dolichos biflorus

The legume lectins are widely used as a model system for studying protein-carbohydrate and protein-protein interactions. They exhibit a fascinating quaternary structure variation, which becomes important when they interact with multivalent glycoconjugates, for instance those on cell surfaces. Recently, it has become clear that certain lectins form weakly associated oligomers. This phenomenon may play a role in the regulation of receptor crosslinking and subsequent signal transduction. The crystal structure of DB58, a dimeric lectin from the legume Dolichos biflorus reveals a separate dimer of a previously unobserved type, in addition to a tetramer consisting of two such dimers. This tetramer resembles that formed by DBL, the seed lectin from the same plant. A single amino acid substitution in DB58 affects the conformation and flexibility of a loop in the canonical dimer interface. This disrupts the formation of a stable DBL-like tetramer in solution, but does not prohibit its formation in suitable conditions, which greatly increases the possibilities for the cross-linking of multivalent ligands. The non-canonical DB58 dimer has a buried symmetrical alpha helix, which can be present in the crystal in either of two antiparallel orientations. Two existing structures and datasets for lectins with similar quaternary structures were reconsidered. A central alpha helix could be observed in the soybean lectin, but not in the leucoagglutinating lectin from Phaseolus vulgaris. The relative position and orientation of the carbohydrate-binding sites in the DB58 dimer may affect its ability to crosslink mulitivalent ligands, compared to the other legume lectin dimers.