N-linked oligosaccharides of the murine transferrin receptor from a plasmacytoma cell line. Comparison with total cellular N-glycans

The N-linked oligosaccharides synthesised by the murine plasmacytoma cell line NS-1 have been analysed by lectin affinity chromatography on columns of immobilised concanavalin A (Con A), Lens culinaris (lentil), Ricinus communis agglutinin (RCA) and leuko-phytohemagglutinin (L-PHA). The majority of complex N-glycans in this transformed cell line were branched structures with only a low level of biantennary complex chains detected. The analysis showed the major complex N-glycan fraction consisted of a minimum sialylated triantennary structure. [3H]Mannose-labelled transferrin receptor was isolated from NS-1 cells by immunoprecipitation followed by electroelution from SDS polyacrylamide gels. The isolated receptor was digested with Pronase and the 3H-labelled glycopeptides analysed by lectin affinity chromatography. Analysis by Con A-Sepharose indicated that approx. 50% of the labelled glycopeptides were branched complex N-glycans (unbound fraction) while the remainder were oligomannose structures (strongly bound). The presence of tri and/or tetraantennary structures in the Con A unbound fraction was further suggested by the interaction of 61% of the fraction with L-PHA. The lectin profiles obtained for the complex N-glycans of the transferrin receptor glycopeptides were similar to those for the total cellular glycopeptides of NS-1 cells. Reverse-phase HPLC analysis of tryptic glycopeptides of the isolated [3H]mannose-labelled transferrin receptor gave three 3H-labelled peaks, indicating that all three potential N-glycosylation sites on the receptor are utilised. The Con A-Sepharose profiles of the three fractions indicated the presence of branched complex N-glycans and high mannose chains at each site. The profiles of two of the tryptic glycopeptide fractions were very similar, while the third had a higher content of oligomannose oligosaccharides.     

The specificity of chain interactions among immunoglobulins. Combinations of γ chains with κ chains of the same subgroup as in the parent immunoglobulin G

1. The specificity of combination of heavy and light chains from selected human immunoglobulins was examined in the light of greater structural information than in previous studies. Heavy (gamma) chains from immunoglobulin G (kappa) myeloma proteins were allowed to combine with their homologous light (kappa) chains or with other kappa chains of the same variable-region subgroup. The affinity of each such pairing was assessed by having the test kappa chain compete with a standard population of normal light chains. 2. There was a spread of affinities among the heavy-light pairings with the homologous pairings having an average affinity significantly higher than the heterologous pairings. 3. It follows that (a) the preference shown for homologous heavy-light pairings is not explicable simply in terms of the known subdivisions of the variable and constant regions of the chains, and (b) it is unlikely that those residues specifying the subgroups of kappa-chain variable regions have a predominant role in the formation of interchain bonds with the gamma-chain variable regions.     

Fine sugar specificity of theButea frondosa seed lectin

Various monosaccharides and oligosaccharides were used to define the specificity of theButea frondosa lectin using the hapten inhibition technique of human erythrocyte agglutination. AlthoughB. frondosa lectin exhibited higher affinity forN-acetylgalactosamine, lactose andN-acetyllactosamine appeared to be relatively good inhibitors of haemagglutination. The behaviour ofN-acetyllactosamine-type oligosaccharides and glycopeptides on a column ofB. frondosa lectin immobilized on Sepharose 4B showed that the sugar-binding specificity of the lectin is directed towards unmaskedN-acetyllactosamine sequences. Substitution of theseN-acetyllactosamine sequences by sialic acid residues completely abolished the affinity of the lectin for the saccharides. The presence of one or several Fuc(1-3)GlcNAc groups completely inhibited the interaction between the glycopeptides and the lectin. Substitution of the core -mannose residue by an additional bisecting (1-4)GlcNAc residue decreases the affinity of the lectin for these structures as compared with the unsubstituted ones.     

Pregnancy-associated changes in oligomannose oligosaccharides of human and bovine uromodulin (Tamm-Horsfall glycoprotein)

The urinary glycoprotein uromodulin (Tamm-Horsfall glycoprotein) exhibits a pregnancy-associated ability to inhibit antigen-specific T cell proliferation, and the activity is associated with a carbohydrate moiety [Muchmore and Decker (1985) Science 229:479–81; Hessionet al., (1987) Science 237:1479–84; Muchmore, Shifrin and Decker (1987) J Immunol 138:2547–53]. We report here that the Man₆₍₇₎GlcNAc₂-R glycopeptides derived from uromodulin inhibit antigen-specific T cell proliferation by 50% at 0.2–2 M, and further studies, reported elsewhere, confirm that oligomannose glycopeptides from other sources are also inhibitory, with Man₉GlcNAc₂-R the most inhibitory of those tested [Muchmoreet al., J Leukocyte Biol (in press)]. In this work, we have extended the observation of pregnancy-associated inhibitory activity to a second species, and have compared the oligomannose profile of Tamm-Horsfall glycoprotein (nonpregnant) with that of uromodulin (pregnant) derived from both human and bovine sources. Surprisingly, there was a pregnancy-associated decrease in the total content of oligomannose chains due predominantly to a reduction in Man₅GlcNAc₂-R and Man₆GlcNAc₂-R. Man₇GlcNAc₂-R, which did not decrease with pregnancy, comprised a significantly greater proportion of the total oligomannose chains in pregnant vs. nonpregnant samples from both species (human; 34.6% vs. 25.9%: bovine; 14.4% vs. 7.2%).     

Relationship of the terminal sequences to the length of poly-N-acetyllactosamine chains in asparagine-linked oligosaccharides from the mouse lymphoma cell line BW5147. Immobilized tomato lectin interacts with high affinity with glycopeptides containing long poly-N-acetyllactosamine chains

To investigate the factors regulating the biosynthesis of poly-N-acetyllactosamine chains containing the repeating disaccharide [3Gal beta 1,4GlcNAc beta 1] in animal cell glycoproteins, we have examined the structures and terminal sequences of these chains in the complex-type asparagine-linked oligosaccharides from the mouse lymphoma cell line BW5147. Cells were grown in medium containing [6-3H]galactose, and radiolabeled glycopeptides were prepared and fractionated by serial lectin affinity chromatography. The glycopeptides containing the poly-N-acetyllactosamine chains in these cells were complex-type tri- and tetraantennary asparagine-linked oligosaccharides. The poly-N-acetyllactosamine chains in these glycopeptides had four different terminal sequences with the structures: I, Gal beta 1,4GlcNAc beta 1,3Gal-R; II, Gal alpha 1,3Gal beta 1,4GlcNac beta 1,3Gal-R; III, Sia alpha 2,3Gal beta 1,4GlcNAc beta 1,3Gal-R; and IV, Sia alpha 2,6Gal beta 1,4GlcNAc beta 1,3Gal-R. We have found that immobilized tomato lectin interacts with high affinity with glycopeptides containing three or more linear units of the repeating disaccharide [3Gal beta 1,4GlcNAc beta 1] and thereby allows for a separation of glycopeptides on the basis of the length of the chain. A high percentage of the long poly-N-acetyllactosamine chains bound by immobilized tomato lectin were not sialylated and contained the simple terminal sequence of Structure I. In addition, a high percentage of the sialic acid residues that were present in the long chains were linked alpha 2,3 to penultimate galactose residues (Structure III). In contrast, a high percentage of the shorter poly-N-acetyllactosamine chains not bound by the immobilized lectin were sialylated, and most of the sialic acid residues in these chains were linked alpha 2,6 to galactose (Structure IV). These results indicate that there is a relationship in these cells between poly-N-acetyllactosamine chain length and the degree and type of sialylation of these chains.     

Galactose-binding lectin from the seeds of champedak (Artocarpus integer): sequences of its subunits and interactions with human serum O-glycosylated glycoproteins

Our group has previously reported the isolation, partial characterisation, and application of a Galbeta1-3GalNAc- and IgA1-reactive lectin from the seeds of champedak (Artocarpus integer). In the present study, we have subjected the purified lectin to reverse-phase high performance liquid chromatography and sequenced its subunits. Determination of the N-terminal sequence of the first 47 residues of the large subunit demonstrated at least 95% homology to the N-terminal sequence of the alpha chains of a few other galactose-binding Artocarpus lectins. The two smaller subunits of the lectin, each comprised of 21 amino acid residues, demonstrated minor sequence variability. Their sequences were generally comparable to the beta chains of the other galactose-binding Artocarpus lectins. When used to probe human serum glycopeptides that were separated by two-dimensional gel electrophoresis, the lectin demonstrated strong apparent interactions with glycopeptides of IgA1, hemopexin, alpha2-HS glycoprotein, alpha1-antichymotrypsin, and a few unknown glycoproteins. Immobilisation of the lectin to Sepharose generated an affinity column that may be used to isolate the O-glycosylated serum glycoproteins.     

Modification of the N-linked oligosaccharides in cell surface glycoproteins during chick embryo development. A using lectin affinity and a high resolution chromatography study

Important differences in asparagine-linked glycopeptides were observed in vitro cultured fibroblasts derived from chick embryo at different stages of development. Cells from 8-day and 16-day embryos were labeled metabolically with [3H]mannose. Cell surface glycopeptides obtained after mild trypsin treatment were extensively digested with pronase and then chromatographed on concanavalin-A-Sepharose and other immobilized lectins. The most important changes concerned the complex type chains. The ratio between triantennary plus tetraantennary and biantennary chains increased about 2.5-fold from the 8th to the 16th day of development. In the same way, complex chains with bisecting N-acetylglucosamine increased from 8-day to 16-day cells as shown by Phaseolus-vulgaris-erythroagglutinin--agarose chromatography. In 16-day cells, the majority of triantennary chains (60%) with alpha-linked mannose substituted at C2 and C6 positions and biantennary chains (50%) were shown to contain fucosyl (alpha 1----6)N-acetylglucosaminyl structure in the core region by their ability to bind to a lentil lectin affinity column. Similarly, in 8-day cells, triantennary chains (50%) were more fucosylated than biantennary chains (35%). Thus, complex structures exhibited an increased fucosylation of their invariable core from the 8th to the 16th day of development, except for fucosylated triantennary chains which were retained on Phaseolus vulgaris Leucoagglutin and on lentil lectin. These latter structures were present at the surface of 8-day cells and absent at the surface of 16-day cells. After chromatography on Bio-Gel P6 and treatment with endo-beta-N-acetylglucosaminidase H, the [3H]-mannose-labeled glycopeptides were separated by high resolution chromatography into glycopeptides with complex chains and glycopeptides with high-mannose chains. Analysis of the high-mannose oligosaccharides released after endo-beta-N-acetylglucosaminidase H treatment by chromatography on Bio-Gel P4 indicated that the same type of high-mannose chains were present at the surface of 8-day and 16-day cells. Quantification of mannose, galactose and sialic acid residues using gas liquid chromatography was consistent with a decrease of the relative amount of oligomannose chains and an increase of the relative amount of complex type chains in 16-day cells compared to 8-day cells. Thus N-linked oligosaccharides derived from cell surface glycoproteins undergo changes during embryo development resulting in greater complexity of carbohydrate chains.     

Fine sugar specificity of the mistletoe (Viscum album) lectin I

The behaviour ofN-acetyllactosamine-type oligosaccharides and glycopeptides on a column of mistletoe lectin I (MLI) immobilized on Sepharose 4B was examined. The immobilized lectin does not show any affinity for asialo-N-glycosylpeptides and related oligosaccharides, which possess one to four unmaskedN-acetyllactosamine sequences. However, substitution of at least one of theN-acetyllactosamine sequences by sialic acid residues, either at O-3 or O-6 of galactose, slightly enhances the affinity of the lectin. Such sialylatedN-glycosylpeptides or oligosaccharides are eluted from the lectin column by the starting buffer as retarded fractions. Surprisingly, the affinity of the immobilized MLI is higher for P1 antigen-containing glycopeptide isolated from turtle-dove ovomucoid and for glycopeptides from bovine thyroglobulin containing terminal non-reducing Gal1–3Gal sequences. These structures are strongly bound on the lectin column and their elution is obtained with 0.15M galactose in the starting buffer.In memory of Hartmut Franz.     

Partial characterization of the oligosaccharides of mouse thymocyte Thy-1 glycoprotein.

Four glycopeptides (I, IIA, IIB, III) with different oligosaccharide structures were isolated from purified mouse thymocyte Thy-1 glycoprotein. The glycoprotein was digested with Pronase, and the glycopeptide fraction was isolated by gel filtration and acetylated with [3H]acetic anhydride. The different glycan structures were separated by affinity chromatography on concanavalin A-Sepharose 4B and lentil lectin-Sepharose 4B. Size determinations of intact and exoglycosidase- and endoglycosidase-digested glycopeptides were performed by gel filtration on Bio-Gel P-6, calibrated with glycopeptides of known structure. On the basis of these experiments and on the behaviour of the glycopeptides on the lectin columns, the following structures of the oligosaccharide chains were proposed: I, triantennary 'complex-type' with terminal fucose; IIA, biantennary 'complex-type' without fucose; IIB, biantennary 'complex-type' with fucose; III, a mixture of 'high-mannose' chains containing either five or six mannose residues (approx. 50% of each). Amino acid analysis of the glycopeptides showed that the predominant oligosaccharide at glycosylation-site Asn-23 was of 'high-mannose' type, whereas the other two sites (Asn-75 and Asn-99) were glycosylated with 'complex-type' chains. Both these sites were shown to be variably glycosylated. The major glycans linked to Asn-75 were of structures I and IIB, whereas all three 'complex-type' chains were represented at Asn-99. The results presented explain the previously reported carbohydrate heterogeneity of thymocyte Thy-1 glycoprotein.     

Synthetic methods of glycopeptide assembly, and biological analysis of glycopeptide products

The technology of glycopeptide synthesis has recently developed into a fully mature science capable of creating diverse glycopeptides of biological interest, even in combinatorial displays. This has allowed biochemists to investigate substrate specificity in the biosynthetic processing and immunology of various protein glycoforms. The construction of all the mucin core structures and a varietyof cancer-related glycopeptides has facilitated detailed analysis of the interaction between MHC-bound glycopeptides and T cell receptors. Novel dendritic neoglycopeptide ligands have been shown to demonstrate high affinity for carbohydrate receptors and these interactions are highly dendrimer specific. Large complex N-linked oligosaccharides have been introduced into glycopeptides using synthetic or chemoenzymatic procedures, both methods affording pure glycopeptides corresponding to a single glycoform in preparative quantities. The improved availability of glycosyl transferases has led to increased use of chemoenzymatic synthesis. Chemical ligation has been introduced as a method of attaching glycans to peptide templates. Combinatorial synthesis and the analysis of resin-bound glycopeptide libraries have been successfully carried out by applying the ladder synthesis principle. Direct quantitative glycosylation of peptide templates on solid phase has paved the way for the synthesis of templated glycopeptide mixtures as libraries of libraries.     

Regulation of thyroglobulin glycosylation. A comparative study of the thyroglobulins from porcine thyroid glands and follicles in serum-free culture

Porcine thyroid cells were cultured in serum-free medium and thyrotropin was or was not added at day 4 and [3H]glucosamine at day 6 for 24 h. The major glycoprotein secreted outside the follicles proved to be thyroglobulin by immunoprecipitation, polyacrylamide gel electrophoresis, and amino acid composition. Thyroglobulin glycopeptides were analyzed by sequential affinity chromatography on immobilized lectins and compared to chemically labeled carbohydrate chains released from thyroid-derived thyroglobulin by hydrazinolysis. 82% and 85% of the glucosamine-labeled oligosaccharides of thyroglobulin from control and stimulated cells, respectively, were unretained on concanavalin A (ConA)-Sepharose compared to 46% only for in vivo thyroglobulin. 35-42% and 33-35% of the ConA-unbound glycopeptides were retarded on erythrophytohemagglutinin and leukophytohemagglutinin under basal or stimulatory conditions, respectively, while none of the triantennary structures of in vivo thyroglobulin was. Moreover, binding to Bandieraea-agarose showed that 20% of these complex structures contained alpha-linked galactose in thyroglobulin secreted by control cells, but only 10% in the molecules derived from thyroid. When analyzed on ricin-agarose after neuraminidase treatment, the ConA-unbound glycopeptides were retained to an extent of 65% for those from control cells and 98% for those from stimulated cells. Furthermore, 15% of desialylated ConA-unbound glycopeptides from cellular origin were also found to bind to wheat germ agglutinin. Carbohydrate composition, gel chromatography, and exoglycosidase treatment further demonstrated that thyroglobulin carbohydrate chains synthesized under serum-free cell culture were essentially composed of heterogeneous multiantennary structures instead of usual biantennary and high mannose type species. Under thyrotropin stimulation, 85% of the carbohydrate chains of thyroglobulin was shown to be sialylated by high performance liquid chromatography analysis instead of 65% under basal conditions, suggesting that thyrotropin may shift terminal glycosylation of thyroglobulin from alpha-galactose to sialic acid.     

Recombinant proteins L and LG

Several bacterial cell wall proteins, like proteins A and G, with valuable affinity for immunoglobulins have been discovered and are currently employed in immunological techniques. In 1988, protein L, a bacterial cell wall protein with Ig-binding capacity, was isolated from the anaerobic bacterial speciesPeptostreptococcus magnus. Binding data with immunoglobulin fragments suggested that protein L could selectively bind the variable region of human kappa light chains. More recently a recombinant LG fusion protein was expressed inE. coli containing four repeated Ig-binding domains of protein L (fragment B1–4) and two IgG Fc-binding protein G domains (fragment CDC). Recombinant L and LG proteins were tested in the purification of murine monoclonal IgG and their fragments. After affinity-constant evaluation in different buffer systems, high-pressure affinity-chromatography columns were prepared by coupling the proteins to Affi-prep 10 resin and tested with eight different murine monoclonal antibodies and their fragments of various isotypes. Affinity-chromatography experiments confirming radioimmunoassay results showed 75% fragment-binding capacity of protein L and 100% of protein LG. These results evidenced protein LG as the most powerful Ig-binding tool so far described. Therefore, application of these proteins may be suggested in the purification of murine immunoglobulins and their fragments, including the engineered ones.     

Preferential association of kappa IIIb light chains with monoclonal human IgM kappa autoantibodies

The predominance of the relatively uncommon V region subgroup isotype kappa III among the light chains of human monoclonal (IgM kappa) anti-IgG antibodies, (i.e., rheumatoid factors), was further documented through sequence analyses of ten such autoantibodies isolated from IgM-anti-IgG cold-insoluble immune complexes (mixed cryoglobulins). The amino-terminal sequence of all ten kappa-chains was characteristic for kappa III proteins and virtually identical to that of a prototype kappa III light chain. Similar sequence identity was found for kappa-chains isolated from three IgM kappa autoantibodies that formed cold-insoluble immune complexes with low-density lipoprotein (LDL). The thirteen light chains were found to be virtually identical in sequence for the first framework region (FR); ten of these proteins sequenced through the first complementarity-determining region (CDR) and into the second FR were markedly similar. The second CDR of five proteins was almost identical in sequence to that of the prototype kappa III-chain. Concordance was also demonstrated between the structural classification of the light chains as kappa III and their immunochemical classification as members of this V region subgroup. Serologic analyses of light chains isolated from seven IgM kappa autoantibodies (six anti-IgG, one anti-LDL) and of one intact IgM kappa anti-LDL antibody showed that each had antigenic determinants common to kappa II proteins. These light chains also expressed the antigenic determinant(s) of a V-region sub-subgroup of kappa III proteins designated kappa IIIb. Our studies confirm the preferential association of kappa III (and kappa IIIb) light chains with IgM kappa anti-IgG antibodies and demonstrate a similar association for IgM kappa anti-LDL antibodies. The finding that these and other types of IgM kappa autoantibodies, e.g., cold agglutinins, have remarkably similar light chains suggests an inherent restriction in the immune response to self-antigens.     

A structural basis for four distinct elution profiles on concanavalin A--Sepharose affinity chromatography of glycopeptides.

Twelve 14C-acetylated glycopeptides have been subjected to affinity chromatography on concanvalin A (Con A)--Sepharose at pH 7.5. The elution profiles could be classified into four distinct patterns. The first pattern showed no retardation of glycopeptide on the column and was elicited with a glycopeptide having three peripheral oligosaccharide chains: (abstract:see text). Such glycopeptides have only a single mannose residue capable of interacting with Con A--Sepharose; an interacting mannose residue is either an alpha-linked nonreducing terminal residue or an alpha-linked 2-O-substituted residue. The second type of profile showed a retarded elution of glycopeptide with buffer lacking methyl alpha-D-glucopyranoside (indicative of weak interaction with the column) and was given by glycopeptides with the structures: (abstract: see text) where R1 is either H or a sialyl residue. The third profile type showed tight binding of glycopeptide to Con A--Sepharose and elution as a sharp peak with 0.1 M methyl alpha-D-glucopyranoside; glycopeptides giving this pattern had the structures: (abstract: see text) where R2 is either H, glcNAc, Gal-beta 1,4-GlcNAc, or sialyl-Gal-beta 1,4-GlcNAc. These glycopeptides all have two interacting mannose residues, the mimimum required for binding to the column; one of these mannose residues must, however, be a terminal residue to obtain tight binding and sharp elution. The fourth profile type showed tight binding of glycopeptide to the column but elution with 0.1 M methyl alpha-D-glucopyranoside resulted in a broad peak indicating very tight binding; glycopeptides showing this behaviour had the structures: (abstract: see text) where R3 is either GlcNAc,Gal-beta 1,4-GlcNAc, or sialyl-Gal-beta 1,4-GlcNAc.Therefore it can be concluded that although a minimum of two interacting mannose residues is required for binding to Con A--Sepharose, the residues linked to these mannoses can either strengthen or weaken binding to the column.     

Effect of melanin concentrating hormone on pigment and adrenal cells in vitro

Highly purified synthetic salmonid melanin concentrating hormone (MCH) and some analogs were investigated for their ability to concentrate the pigment in scale melanophores of the Chinese grass carp, Ctenopharyngodon idellus, to produce melanin dispersion in frog or lizard melanophores and to inhibit alpha-MSH in its action on mouse melanoma and rat adrenal glomerulosa cells in vitro. In the grass carp, MCH produced half-maximal pigment aggregation at 6 X 10(-11) M and its oxidized form at 7 X 10(-11) M. Replacement of the two methionines at position 3 and 6 with norvaline lowered the potency by a factor of 2.7 and with propargylglycine by a factor of about 7. Linear, Cys5,14-Acm-protected MCH was a full agonist of MCH but with a 345-fold lower potency. Iodinated MCH showed similar, low activity. In tetrapods, salmonid MCH and its analogs displayed only marginal pigment dispersion at concentrations greater than 10(-5) M. Alkali-treatment of MCH increased the pigment-dispersing potency by a factor of about 30 whereas the activity for pigment aggregation in the grass carp was destroyed. At high concentrations (10(-6), 10(-5) M) MCH also stimulated tyrosinase activity in B-16 mouse melanoma cells but did not modify the effects of alpha-MSH in this system. By contrast, when tested on rat adrenal glomerulosa cells, salmonid MCH had no effect alone but at a concentration of greater than 10(-10) M it slightly reduced corticosterone production by an alpha-MSH concentration of 10(-7) M. Aldosterone production was not affected and MCH did not influence the response to ACTH.     

The binding characteristics and utilization of Aleuria aurantia,Lens culinaris and few other lectins in the elucidation of fucosyltransferase activities resembling cloned FT VI and apparently unique to colon cancer cells

Human colon carcinoma cell fucosyltransferase (FT) in contrast to the FTs of several human cancer cell lines, utilized GlcNAcbeta1,4GlcNAcbeta-O-Bn as an acceptor, the product being resistant to alpha1,6-L-Fucosidase and its formation being completely inhibited by LacNAc Type 2 acceptors. Further, this enzyme was twofold active towards the asialo agalacto glycopeptide as compared to the parent asialoglycopeptide. Only 60% of the GlcNAc moieties were released from [14C]fucosylated asialo agalacto triantennary glycopeptide by jack bean beta-N-acetylhexosaminidase. These alpha1,3-L-fucosylating activities on multiterminal GlcNAc residues and chitobiose were further examined by characterizing the products arising from fetuin triantennary and bovine IgG diantennary glycopeptides and their exoglycosidase-modified derivatives using lectin affinity chromatography. Utilization of [14C]fucosylated glycopeptides with cloned FTs indicated that Lens culinaris lectin and Aleuria aurantia lectin (AAL) required, respectively, the diantennary backbone and the chitobiose core alpha1,6-fucosyl residue for binding. The outer core alpha1,3- but not the alpha-1,2-fucosyl residues decreased the binding affinity of AAL. The AAL-binding fraction from [14C]fucosylated asialo fetuin, using colon carcinoma cell extract, contained 60% Endo F/PNGaseF resistant chains. Similarly AAL-binding species from [14C]fucosylated TFA-treated bovine IgG using colon carcinoma cell extract showed significant resistance to endo F/PNGaseF. However, no such resistance was found with the corresponding AAL non- and weak-binding species. Thus colon carcinoma cells have the capacity to fucosylate the chitobiose core in glycoproteins, and this alpha1,3-L-fucosylation is apparently responsible for the AAL binding of glycoproteins. A cloned FT VI was found to be very similar to this enzyme in acceptor substrate specificities. The colon cancer cell FT thus exhibits four catalytic roles, i.e., alpha1,3-L-fucosylation of: (a) Galbeta1,4GlcNAcbeta-; (b) multiterminal GlcNAc units in complex type chain; (c) the inner core chitobiose of glycopeptides and glycoproteins; and (d) the nonreducing terminal chiotobiose unit.     

Studies on carbohydrate moieties of the glycoprotein,glucoamylase II ofAspergillus niger: Nature of carbohydrate-peptide linkage and structure of oligosaccharides

Electrophoretically homogeneous type 1 (GP-C₁ and GP-C₂), type 2 (GP-C_3a and GP-C3b,) and type 3 (GP-D₁, and GP-D₂) glycopeptides fromAspergillus niger glucoamylase II (Manjunath and Raghavendra Rao, preceding paper) were separately treated with alkaline borohydride. The (\-eliminated oligosaccharides were subjected to single and sequential digestion with specific glycosidases and the products analysed by gas liquid chromatography. The studies revealed that carbohydrate moieties were present as mannose, Man-Man-, and trisaccharide structures, namely, (a) GIc-Man-Man-, (b) Gal-Man-Man, (c) Man-Man-Man-, (d) GlcNAc-Man-Man-, and (e) Xyl-Man-Man. None of the glycopeptides contained all the trisaccharide structures (a) to (e). Type 1 glycopeptide contained structures (a), (b) and (c); type 2, (a) and (d) and type 3, (a), (b) and (e). The number of carbohydrate units (mono-, di-and trisaccharides) present in the major glycopeptides was determined and tentative structures for the glycopeptides proposed. Carbohydrate units appeared to occur in clusters of 4 to 7 in each glycopeptide, a structure unique to the carbohydrate moiety inAspergillus niger glucoamylase. Based on carbohydrate analysis and yields of glycopeptide, the number of units of each type of glycopeptide present in glucoamylase II was tentatively calculated to give two of type Man:Glc:Gal = 12–15:l:l, one of type Man:Glc:GlcN = 10-l1:1:2 and one of type Man :GIc :Gal:Xyl = 4–8:0.1:0.5-0.8:0.3-1 glycopeptides.     

Structural similarities in the kappa light chains of human rheumatoid factor paraproteins and serum immunoglobulins bearing a cross-reactive idiotype

The monoclonal antibody (MoAb) 17.109 recognizes a cross-reactive idiotype (CRI) associated with the light chains of Waldenstrom's macroglobulins with rheumatoid factor (RF) activity. The MoAb also reacts with a proportion of IgM-RF molecules from the sera of rheumatoid arthritis and primary Sjogren's syndrome patients, and from the sera of seropositive normal human subjects. In the present experiments, we used affinity chromatography to purify the 17.109 CRI-positive immunoglobulin from serum and have analyzed the isolated material by Western blotting. The purified 17.109 CRI-positive material from the sera of rheumatoid arthritis patients, Sjogren's syndrome patients, and normal subjects contained exclusively kappa light chains, and had demonstrated RF activity. In every case the 17.109 CRI-positive isolates reacted with antibodies against synthetic peptides corresponding to both the conserved second and third complementarity-determining regions (CDR) of the monoclonal kappa IgM-RF paraprotein Sie. The binding was inhibited specifically by the free peptides in solution. The antipeptide antibodies did not react appreciably with unfractionated human immunoglobulin. The data establish that the 17.109 CRI-positive immunoglobulin from diverse human sera have similar or identical second and third light chain CDR. These results suggest i) that the MoAb 17.109 identifies the protein product of a single or a very few V kappa genes, ii) that the ability to make kappa light chains with the 17.109-associated variable region is widespread in the human population, and iii) that the 17.109-defined kappa variable region segment is associated with IgM-RF autoantibodies.     

Analysis of immunoglobulin light chain loci in sheep

A sheep kappa cDNA probe was isolated, characterized by sequence analysis and shown to have significant sequence identity to other kappa light chains. This probe and a sheep lambda light chain probe were used to estimate the extent of various sheep immunoglobulin light chain gene loci by Southern blot analysis of genomic DNA. The results showed that the sheep has a single hybridizing kappa constant gene and three to five kappa V segment bands. Segregation of three polymorphic bands at the lambda C locus indicated that they were products of separate C segments. Restriction fragment pattern variations were obtained using light chain probes on various sheep breeds, but no pattern or individual band was characteristic for a particular breed.     

Human cardiac myosin light chains: Sequence comparisons between myosin LC1 and LC2 from normal and idiopathic dilated cardiomyopathic hearts

The primary structures of light chains isolated from the human myocardium with idiopathic dilated cardiomyopathy (IDC) were determined and compared with the sequence structures of myosin light chains obtained from control human heart myosin. Sequences were determined by chemical analysis and the identity of N-terminal residues established by mass spectrometry. The N-terminal residues in essential (ELC) and regulatory (RLC) light chains were blocked and were identified to be trimethyl alanine. The amino acid sequences of ELC and RLC from control human myosin revealed a high degree of homology with those purified from rat and chicken cardiac myosin. Comparison with a published partial chemical sequence of the human heart myosin light chains revealed significant variations. However, there was very good agreement with published sequences obtained by molecular biological techniques. Sequences of the light chains from cardiomyopathic myosin revealed no difference in the primary structures when compared with control human heart myosin light chains indicating IDC had no influence on, nor was caused by, altered myosin light chain gene expression.