Removal Of Sialic Acid Residues Research Articles

Electrophoretic characterization of boar epididymal antiagglutinin.

Boar epididymal antiagglutinin, previously shown to inhibit sperm head-to-head agglutination, was purified from cauda epididymal plasma by precipitation with ammonium sulfate, anion-exchange chromatography, and reverse-phase HPLC, and was characterized by electrophoretic and membrane blotting techniques. Blotting techniques, using the ECL Glycoprotein Detection System (Amersham Life Science, Buckinghamshire, UK) and wheat germ agglutinin (WGA)-peroxidase, established the presence of sialic acid residues on purified antiagglutinin. Removal of sialic acid residues from antiagglutinin greatly reduced its immunoreactivity with the specific antiserum. Further purification by two-dimensional PAGE established the presence of one major and two minor forms that cross-reacted with the antiserum, with only the major form reacting with WGA-peroxidase. Extracts of washed epididymal spermatozoa contained a polypeptide with the same electrophoretic mobility as the major form. Additionally, the antiserum detected cross-reacting material in seminal plasma and in extracts from ejaculated spermatozoa. When spermatozoa were incubated under conditions shown to promote capacitation, the cross-reacting material could not be detected in sperm extracts. These results are consistent with the following conclusions: 1) antiagglutinin contains sialic acid residues that may be related to its immunoreactivity and molecular heterogeneity, and 2) either sperm-bound antiagglutinin is released or its epitope recognized by the antiserum is altered after ejaculation and in vitro capacitation.

Interaction of the salivary low-molecular-weight mucin (MG2) with Actinobacillus actinomycetemcomitans.

Periodontitis is associated with the presence of certain Gram-negative bacteria in the oral cavity, among these Actinobacillus actinomycetemcomitans. In order to determine which types of salivary components interact with A. actinomycetemcomitans two strains (HG 1175 and FDC Y4) were incubated with whole saliva and individual glandular secretions, viz. parotid, submandibular, and sublingual saliva. Immunochemical analysis by immunoblotting of bacteria-bound salivary proteins showed that IgA, the low-molecular mucin MG2, parotid agglutinin, and a 300 kDa sublingual and submandibular glycoprotein, were bound to the bacterial strains tested. In addition, adherence of A. actinomycetemcomitans to salivary proteins in a solid-phase was studied. After electrophoresis and transfer of salivary proteins to nitrocellulose membranes A. actinomycetemcomitans adhered only to MG2. In this assay periodate treatment, mild acid hydrolysis or neuraminidase digestion of the saliva glycoproteins abolished binding of two clinical isolates (HG 1175 and NY 664), suggesting that sialic acid residues on MG2 are involved in the binding. In contrast, adherence of the smooth laboratory strain Y4 was not affected by removal of sialic acid residues or even periodate treatment of MG2.

Use of a Biosensor Based on Surface Plasmon Resonance and Biotinyl Glycans for Analysis of Sugar Binding Specificities of Lectins<xref ref-type="fn" rid="fn1"><sup>1</sup></xref>

We have developed a new method for analysis of the interaction between lectins and biotin-derivatized oligosaccharides involving a biosensor based on surface plasmon resonance. Complex type asialo-bi-, tri-, and tetra-antennary oligosaccharides were quantitatively converted into their biotin derivatives by incubating them with 6-(D-biotinyl)-aminohexanoyl hydrazide. This method was also applicable to sialyl sugar chains without any removal of sialic acid residues. The reaction mixture could be directly injected onto the streptavidin pre-immobilized surface of a sensor chip without any purification because of its fairly low reagent/carbohydrate molar ratio. The amounts of sugar chains required for interaction analysis by this method were as low as 1 pmol. The binding specificities of Sambucus sieboldiana lectin, Maackia amurensis lectin, Ricinus communis agglutinin-120 (RCA120), and concanavalin A could be rapidly determined qualitatively by this method. Furthermore, kinetic analysis of the interaction between RCA120, and complex type asialo-bi-, tri-, and tetra-antennary oligosaccharides revealed that both the association rate constant and the dissociation rate constant (kdiss) decreased with increasing numbers of terminal galactosyl residues. Because the tendency observed for kdiss paralleled the elution order of these oligosaccharides on RCA120 immobilized affinity chromatography, kiss might hold the key to determination of the elution order on affinity chromatography.

Enzymatic Removal of Sialic Acid from Human Factor IX and Factor X Has No Effect on Their Coagulant Activity

Factor IX and factor X have sialic acid in O-linked and N-linked oligosaccharides on their activation peptides, and a terminal sialic acid is found on a recently described O-linked tetrasaccharide at Ser-61 in the light chain of human factor IXa. In studies presented here, the potential role of sialic acid residues in mediating activity of human coagulation factors IX and X was tested after enzymatic removal of sialic acid residues. In contrast to previous reports, treatment of factor IX or factor IXa with recombinant sialidase did not decrease the rate of factor IX activation or proteolytic properties of human factor IXa. The activation rates of factor IX and desialated factor IX were indistinguishable when treated with factor XIa, with factor VIIa/tissue factor complex, and with the factor X activating enzyme from Russell's viper venom. Desialated human factor IXa showed full activity in the non-activated partial thromboplastin time assay and retained full "tenase" activity in a coupled amidolytic assay. Similar experiments with human factor X showed no detectable loss of clotting activity in the prothrombin time assay after desialation. Additionally, desialated human factor X was cleaved by the factor X activating enzyme from Russell's viper venom and intrinsic tenase at the same rate as untreated factor X when analyzed by SDS-polyacrylamide gel electrophoresis. These studies have shown that factor IX and factor X clotting activity are not dependent on sialic acid content. Further studies are needed to determine whether desialated factor IX binds to endothelial cells, and whether factors IX and X are more rapidly cleared from circulation or have altered susceptibility to proteolysis after enzymatic removal of sialic acid.

Role of sialic acid residues in the in vitro superactivity of human choriogonadotropin (hCG) in rat Leydig cells

The binding activity (B) of porcine Luteinizing Hormone (pLH) to rat LH receptor as well as its stimulating activity (S) of testosterone secretion by rat Leydig cells in vitro are similar to those of the homologous hormone rat LH ( S/B ≈ 1 ). By contrast, the human Chorionic Gonadotropin (CG) and hLH exhibit stimulating activities relative to rat LH that are considerably higher than their relative binding activities ( S/B > 100 ) indicating that they have an abnormally high transducing efficiency (superactivity) after receptor binding. The heterologous hybrid αpLH × ßhCG is as superactive as native hCG and recombined αhCG × ßhCG whereas αhCG × ßpLH exhibits no superactivity, like native pLH and αpLH × ßpLH demonstrating that hCG superactivity is due to its ß-subunit. The removal of sialic acid residues with neuraminidase dramatically diminished hCG stimulating activity without impairing its receptor binding activity but the S/B ratio for asialo-hCG never reached values lower than 1. Similar treatments had no effect on the S/B ratios of non-superactive gonadotropins, pLH and equine CG. Sialic acid residues in the Asnß30 carbohydrate chains of hLH and hCG appear to be responsible for their superactivity in the in vitro stimulation of testosterone secretion by rat Leydig cells.

Effect of intranasal inoculation of Streptococcus pneumoniae on the structure of the surface carbohydrates of the chinchilla eustachian tube and middle ear mucosa

The changes in the cell surface carbohydrates of the eustachian tube (ET) and middle ear subsequent to the intranasal (i.n.) inoculation of Streptococcus pneumoniae (Spn) type 6A were studied in the chinchilla model of otitis media (OM) using a lectin histochemical technique with six different lectins (SNA, WGA, Succ WGA, BSL II, PNA, ECL). The labeling pattern revealed not only the removal of the terminal sialic acid, but also exposure of N-acetylglucosamine (GlcNAc), a component of the trisaccharide receptor for Spn previously identified on human pharyngeal cells. The removal of sialic acid residues progressed from the nasopharyngeal to the tympanic orifice and was most pronounced in those animals from which Spn could be isolated from the middle ear. Our data indicate an alteration of the normal lectin labeling pattern and exposure of GlcNAc restricted mainly to the roof and neck portion, along the course of the eustachian tube. Exposure of part or all of a Spn adherence receptor structure by the pneumococcal enzymes, may facilitate colonization, invasion of the middle ear, and induction of OM.

Influenza A virus reassortants with surface glycoprotein genes of the avian parent viruses: effects of HA and NA gene combinations on virus aggregation.

A series of 33 human-avian and human-mammalian influenza virus reassortant clones possessing either HA or both HA and NA genes of the avian or mammalian virus was obtained by crosses of A/USSR/90/77 (H1N1) human virus with 5 avian and 1 mammalian influenza virus strains. All of the reassortants possessing NA genes of the H1N1 human parent virus and HA gene of an avian or mammalian parent virus had high values of infectivity/HA activity ratio. Since this feature could result from a limited virion aggregation, several reassortants were analyzed by velocity sucrose gradient centrifugation. In all cases tested, the reassortants of H3N1, H4N1, H10N1 and H13N1 composition were shown to be aggregated, whereas the preparations of the parent H1N1 virus and the reassortants possessing both HA and NA genes from the avian parents were represented mostly by single virions. The aggregates were formed at 4 degrees C and dissociated at 37 degrees C. The dissociation was blocked by an inhibitor of neuraminidase activity (2-deoxy-2,3-dehydro-N-acetyl-neuraminic acid). The dissociation was reversible since the virions reaggregated at 4 degrees C; however, treatment with bacterial neuraminidase led to an irreversible dissociation of the aggregates. The tendency of the reassortants to aggregate correlates with an increased infectivity/HA ratio. No regular decrease in the neuraminidase activity in the virions of reassortants as compared to the parent H1N1 virus was revealed. The most likely explanation of the observed phenomenon seems to be an inefficient removal of sialic acid residues from the avian virus hemagglutinin by the human virus N1 neuraminidase.

Carbohydrate residues modulate the activation of coagulation factor X.

Factor X is a plasma protein involved in both the intrinsic and extrinsic pathways of blood coagulation. Post-translational modifications of the protein involve gamma-carboxylation of specific glutamic acid residues, beta-hydroxylation of one aspartic acid residue, and N- and O-linked glycosylation. Even though it is known that gamma-carboxylation is instrumental in regulating biological activity, the role of glycosylation in the function and properties of factor X has not been previously investigated. We utilized lectin binding and glycosidase treatment to investigate the functional role of carbohydrates on the activation peptide of factor X. Sambucus nigra agglutinin, a lectin that binds to sialic acid terminally linked alpha(2-6) to galactose or N-acetyl-galactosamine inhibits activation of human factor X in a dose-dependent manner. Inhibition of activation was observed for both intrinsic (factor IXa/VIIIa) and extrinsic (factor VIIa/tissue factor) pathway complexes. In accordance with this, selective removal of sialic acid residues on the activation peptide of factor X by neuraminidase also results in a drastic reduction of activation of the zymogen by these complexes. Corresponding reduction of activity in classical clotting assays (activated partial thromboplastin time and prothrombin time) also agrees with this observation. These results suggest a possible role of N-linked carbohydrates in the activation of factor X.

Apparent ineffectiveness of natural killer cells vis-à-vis retrovirus-infected targets.

The role of NK cells in the defense against retroviral infections is ill defined. The discovery of the pathogenic human retroviruses and their epidemic spread have made more urgent a better understanding of how such infections may be naturally controlled. Therefore, a systematic study was undertaken to determine whether NK cells obtained from healthy individuals are able to recognize and lyse target cells that have been infected with HTLV-I, HTLV-II, or HIV. The studies demonstrated that NK cells can recognize retrovirus-infected cells as evidenced by rapid conjugation, but that neither freshly isolated, nor IL-2 stimulated cells cause lysis of such targets. As has been reported for NK-resistant tumor cells, removal of sialic acid residues rendered the retrovirus-infected target cells vulnerable to NK cell attack. Although these data do not suggest that boosting natural immunity would be a useful treatment modality for patients with AIDS or HTLV-related diseases, the observations may help to explain why the small number of cells that harbor retroviruses in patients with subclinical infection are not eliminated.

Molecular characterisation and structural relationship of the synapse-enriched glycoproteins gp65 and gp55.

gp65 and gp55 are glycoprotein components of CNS synapses that are recognised by a single monoclonal antibody, SMgp65. This antibody has now been used to investigate the molecular properties of these two glycoproteins and the structural relationship between them. Both gp65 and gp55 occur in most brain regions as doublets of apparent molecular masses of 63 and 67 kDa, and 52 and 57 kDa, respectively. Striatal samples, however, are enriched in a novel gp65 isoform of 69 kDa. Removal of oligosaccharide residues from gp65 and gp55 with trifluoromethanesulphonic acid shows that gp65 and gp55 are composed of single polypeptide chains of 40 and 28 kDa, respectively. Removal of sialic acid residues with neuraminidase lowers the apparent molecular mass of both glycoproteins by 5-6 kDa. Triton X-114 phase partitioning and alkaline extraction of synaptic membranes indicate that both gp65 and gp55 are integral membrane glycoproteins. Treatment of synaptic membranes with phosphatidylinositol-specific phospholipase C does not solubilise either glycoprotein. One-dimensional peptide and epitope maps obtained by digestion of gp65 and gp55 with endoproteinase lys C or subtilisin are consistent with a close structural relationship between the two molecules. Tryptic digestion of samples enriched in gp65 and/or gp55 results in the formation of a novel immunoreactive 53-kDa species that is resistant to further trypsin degradation except in the presence of 0.1% (wt/vol) sodium dodecyl sulphate. Trypsin treatment of cultures of forebrain neurones in situ lowers the apparent molecular mass of gp65 to 53 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of neuraminidase on airway reactivity in the guinea pig.

We investigated the effects of neuraminidase, a viral enzyme that cleaves alpha ketosidic cell-bound sialic acids, to see if it accounts for parainfluenza and influenza virus-induced airway hyperreactivity. Accordingly, Vibrio cholerae neuraminidase was administered intratracheally in guinea pigs, and airway reactivity was assessed 3 h later. Removal of sialic acid residues was evaluated by histologic studies. Airway responsiveness was determined in anesthetized, tracheotomized, and mechanically ventilated guinea pigs by exposing them to increasing concentrations of aerosolized bronchoconstrictor agents. Respiratory system conductance was measured by the occlusion method. Neuraminidase injected intratracheally did not change airway reactivity to 10(-4) to 10(-2) M acetylcholine or 10(-4) to 2.5 x 10(-3) M histamine; nor did it prevent aerosolized albuterol from inhibiting histamine-induced bronchoconstriction. Substance P (10(-6) to 5 x 10(-5) M) had no significant bronchoconstrictor effect on guinea pigs pretreated with saline or neuraminidase. In guinea pigs pretreated with aerosols of the neutral endopeptidase inhibitor phosphoramidon (10(-4) M) before the concentration curve to aerosolized substance P was recorded, neuraminidase significantly reduced substance P-induced bronchoconstriction. When bronchoconstriction was induced by the 4-11 fragment of substance P (10(-5) to 10(-2) M), which is devoid of positive charges, it did not differ significantly in guinea pigs pretreated with saline and those pretreated with neuraminidase. These results indicate that in the guinea pig, neuraminidase injected intratracheally does not induce non-specific airway hyperreactivity and may alter the binding of substance P to its receptors.

Glycosylation variants of endopeptidase-24.11 (‘enkephalinase’)

Anion exchange chromatography resolves two charge variants of rat kidney endopeptidase-24.11 (designated NEP 1 and NEP 2); each was purified to homogeneity using immunoaffinity chromatography. In addition to charge differences the subunit molecular weights of NEP 1 and NEP 2 differ and are 89 and 96 kDa, respectively. Isoelectric focusing resolved 8–10 pl species in the pH range of 5.95 – 6.20 for NEP 1 and 5.46 – 6.06 for NEP 2. Removal of sialic acid residues converted the multiple pl species to one form with a pl of 6.32 for NEP 2, and two forms with pls of 6.27 and 6.32 for NEP 1. Endoglycosidase H or F, capable of removing high-mannose and biantennary branched N-linked oligosaccharides, produced a 2–3 kDa decrease in the molecular weight of both NEP 1 and NEP 2. Peptide-N-glycosidase F, capable of removing all classes of N-linked oligosaccharides, produced 8 and 11 kDa decreases in NEP 1 and NEP 2, respectively. Removal of all N-linked and O-linked oligosaccharides with trifluoromethanesulfonic acid resulted in 10 and 15 kDa decreases in NEP 1 and NEP 2, respectively. Tryptic epitope maps demonstrated that NEP 2 was cleaved at a slower rate than NEP 1. These analyses demonstrate that rat kidney NEP exhibits sialic acid microheterogeneity resulting in two distinct change variants. The data also indicate that NEP 2 contains more N- and O-linked carbohydrate mass than NEP 1 and may contain a larger polypeptide backbone giving rise to molecular weight differences between these enzyme forms.

Factors influencing the interaction of herpes simplex virus glycoprotein C with the third component of complement.

The factors influencing the interaction of herpes simplex virus (HSV) glycoprotein C (gC) with the third component of complement (C3) were investigated in this study. The ability of gC of HSV type 1 (gC-1) to bind to the C3b fragment of C3 was found to be influenced by cell specific processing of gC-1 in a different manner, binding being remarkably enhanced in some cell lines following removal of sialic acid residues. Testing several intertypic recombinants of HSV we found that only strains expressing gC-1 exhibited binding to C3b, even though their genome consisted mainly of HSV-2 sequences in some recombinants. Expression of type-2 glycoproteins gB, gD, gE, gG, gH, and gI did not alter the ability of gC-1 to bind to C3b. Rosetting of HSV-1 infected Vero cells with C3b-coated red blood cells (EAC) was found to be temperature dependent and could be inhibited with purified C3b and anti-C3 antibodies. Polyanions like heparin or dextran sulfate were also inhibitory in a dose dependent manner, whereas C3d, neomycin and other aminoglycoside antibiotics failed to block. As the tested polyanions are also known to inhibit the infectivity of HSV, it could be speculated, that the complement binding function and the heparin-binding/attachment function of gC might be related.

Adherence of oral streptococci to salivary glycoproteins

We used an overlay method to study the ability of human salivary glycoproteins to serve as receptors for several strains of streptococci that colonize the oral cavity. Parotid and submandibular-sublingual salivas were collected as ductal secretions, separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and transferred to nitrocellulose membranes. The resulting blots were overlaid with [35S]methionine-labeled bacteria, and salivary components to which the bacteria bound were detected by autoradiography. Potential glycoprotein receptors were identified for 8 of the 16 strains tested. In three cases (Streptococcus sanguis 72-40 and 804 and Streptococcus sobrinus OMZ176), highly specific interactions with a single salivary component were detected. Removal of sialic acid residues from the low-molecular-weight salivary mucin prevented adherence of one of these strains (S. sanguis 72-40), suggesting that this saccharide either mediates binding or is a critical component of the receptor site. In the remaining five strains (Streptococcus gordonii G9B and 10558, S. sanguis 10556, and Streptococcus oralis 10557 and 72-41), interactions with multiple salivary components, including the low-molecular-weight salivary mucin, highly glycosylated proline-rich glycoproteins, and alpha-amylase, were detected. These results suggest that some oral streptococci can bind specifically to certain of the salivary glycoproteins. The interactions identified may play an important role in governing bacterial adherence and clearance within the oral cavity.

Flow cytometric analysis of human erythrocytes: I. Probed with lectins and immunoglobulins

A recent review (Aminoff, 1988) summarized the evidence for and against our hypothesis for the role of glycophorin in the senescence and clearance of mammalian red blood cells (RBC) from circulation. This hypothesis postulates the loss of sialic acid from RBC surface in two forms: (a) as vesicles containing the sialoglycoprotein glycophorin, and (b) as free sialic acid residues from glycophorin molecules remaining on cell surface. In this report we demonstrate the applicability of flow cytometric procedures to explore, at the cellular level, time-dependent changes on RBC surface with change in cell size, and with in vivo age. The RBC are probed with fluorescein isothiocyanate (FITC) labelled lectins and goat anti-human-IgG and -IgM. The relative intensity of fluorescence is correlated to the change in RBC size as measured by forward lightscatter. Reactivity of RBC with FITC-labelled wheat germ agglutinin can be inhibited with either 0.2M N-acetylglucosamine or by removal of sialic acid residues with neuraminidase. The properties of the smallest RBC correspond to those of the oldest RBC in their: (a) decreased reactivity with FITC-labelled lectins that recognize sialic acid residues, wheat germ and Limax flavus agglutinins, and (b) increased reactivity with FITC-labelled goat anti-human-IgG and -IgM. These results are compatible with our glycophorin hypothesis. Moreover, they suggest that the initial loss of sialic acid as glycophorin containing vesicles is gradual, while the subsequent step involving the loss of sialic acid residues is rapid and exposes multiple disaccharide galactose β(1–3)N-acetylgalacosaminyl residues. These unmasked disaccharide sites are recognized by autoimmune IgG, IgM, and lectin-like receptors on macrophages resulting in the clearance of senescent RBC from circulation.

Biochemical analysis of a novel H-2 class I-like glycoprotein expressed in five AKR-(Gross virus) derived spontaneous T cell leukemias.

The H-2 class I Ag profiles of five spontaneous AKR (H-2K) Gross virus leukemic cell lines were analyzed. A novel H-2 class I, "alloantigen"-like glycoprotein was immunoprecipitated and isolated from all the tumor cell lines using an H-2Dd-specific mAb 35-5-8. The novel Ag was also recognized in vitro by anti-H-2Dd-specific CTL. In addition, DNA from all the thymomas, but not the DNA from normal adult AKR thymic cells showed a transcribed gene detectable with an H-2Dd-specific oligonucleotide probe. The molecular profile of the novel antigen was further studied by two-dimensional gel electrophoresis and analyzed by a computer based image analyzer system and reverse-phase HPLC tryptic peptide mapping. Its molecular pattern was different from the syngeneic H-2Kk, H-2Dk, and the allogeneic H-2Dd gene products. The two-dimensional gel pattern of the novel H-2 class I molecule had a different overall structure reflected in isoelectric point, number, and distribution of polypeptide spots. The tryptic peptide map analysis showed six peaks exclusively identified with the novel Ag. The calculated degree of homology with the corresponding H-2Dd, H-Dk, and H-Kk peptides was 41, 56, and 51%, respectively. In addition, an unusual cell surface distribution of the novel Ag was observed in most of the leukemic lines. The removal of sialic acid residues by neuraminidase treatment facilitated the detection of the allodeterminants by anti-H-2Dd-specific mAb and CTL. Furthermore, we showed that in one AKR tumor line, 424, there is a close association of the novel Ag with the syngeneic class I molecules. Prior preclearance of the syngeneic class I molecules revealed the presence of the H-2Dd-like allospecificity. The genetic and molecular relationship between the expression of this novel class I-like glycoprotein and the recently sequenced Q5 gene is under current investigation.

Cell surface interactions with metal chelates

We have explored immobilized metal ion affinity adsorption as a means of discrimination between cells and to assess partially the types of interaction that might contribute to the adsorption of cells on the such adsorbents. Erythrocytes from different sources were adsorbed on immobilized iminodiacetic acid charged with Cu 2+, Ni 2+ or Zn 2+. The affinity of the human erythrocytes for the immobilized metal ions follows the order Cu 2+ > Ni 2+ > Zn 2+. The adsorption capacity of the rat erythrocytes decreased in the following order: Zn 2+ > Ni 2+ > Cu 2+. Pre-saturation of the columns with imidazole lead to the recovery of over 90% of the cells applied on the columns. Enzymic removal of sialic acid residues from the surface of erythrocytes has no effect on the adsorption-elution profiles of these cells on affinity adsorbents. These findings suggest that histidine residues localized on the cell surface are involved in the cell binding to the adsorbent. This new separation principle could be expanded to other types of cell. It could be used as a diagnostic tool and for separation, as well as for probing cell surfaces.

Wheat germ agglutinin-binding protein changes in highly malignant Friend leukemia cells metastasizing to the liver.

We have used binding of radioactive lectins (i.e. Concanavalin A (ConA), Wheat Germ Agglutinin (WGA) and Ricinus communis agglutinin I (RCAI)) to membrane glycoproteins separated in SDS gel electrophoresis, to detect specific carbohydrate changes in plasma membrane proteins of in vivo passaged Friend erythroleukemia cells (FLC). These cells are highly metastatic to the liver, whereas the original in vitro passaged tumor cells do not metastasize. Marked qualitative differences in the high molecular weight region of the gels (100-200 kD) were observed between the WGA binding glycoproteins of metastatic in vivo passaged FLC and nonmetastatic in vitro passaged FLC. Furthermore, the binding of WGA to plasma membrane proteins of in vivo passaged FLC was much greater than the binding of WGA to plasma membrane proteins of in vitro passaged FLC. Lectin binding experiments after sialic acid removal by in situ mild acid hydrolysis of FLC glycoproteins indicated that an increased sialylation of the 120 and 145 kD glycoproteins was responsible for the increased WGA reactivity of in vivo passaged FLC plasma membranes. Besides the increased sialylation, other changes in glycosylation of the 100-200 kD glycoproteins of in vivo passaged FLC were observed: (1) qualitative differences between the WGA binding patterns of the two cell types were restored after treatment of the gels with mild acid and subsequent Smith degradation; (2) after chemical removal of sialic acid residues from the gels, qualitative differences in the RCA binding patterns to the glycoproteins of the two cell types were apparent.

Functional reactivity of WT31 monoclonal antibody with T cell receptor-gamma expressing CD3+4-8- T cells.

About 3% of normal peripheral blood T lymphocytes have the phenotype CD3+4-8-. The vast majority of these cells lack the conventional TCR-alpha-, beta complex but express the recently identified TCR-gamma, delta/CD3 receptor complex. These TCR gamma+/CD3+ cells were initially discovered by using as a criterion the lack of reactivity with WT31 mAb. This mAb has been reported to recognize a "framework" epitope on the TCR-alpha, beta/CD3 complex. However, using high concentrations of WT31 mAb, low levels of reactivity with the cell membrane of TCR-gamma+ cells can be observed. This reactivity was significantly increased upon removal of sialic acid residues by neuraminidase. In addition, WT31 mAb is capable to induce lysis by TCR-gamma+ clones. Moreover, immunoprecipitation with WT31 by using cell lysates prepared with the mild detergent digitonin resulted in the isolation of the intact TCR-gamma/CD3 complex. Thus, in contrast to what was previously assumed, WT31 mAb also reacts with a functional epitope present on gamma, delta/CD3 T cells, and therefore lack of reactivity with WT31 mAb is not always a proper hallmark for TCR-gamma-expressing cells.

Expression of sialylated Leu-M1 antigen in histiocytosis X.

The purpose of this study is to determine the versatility of the monoclonal antibody anti-Leu-M1 in histiocytosis X diagnosis. This antibody recognizes an unsialylated lacto-N-fucopentaose III (hapen X) carbohydrate moiety that is linked to the cell membrane protein in interdigitating reticulum cells and Langerhans' cells. Previously, the authors have shown that anti-Leu-M1 can be used to stain Reed-Sternberg cells, which are likely related to interdigitating reticulum cells. In this study, the authors tested the usefulness of anti-Leu-M1 in staining formalin-fixed and paraffin-embedded tissue sections from eight patients with histiocytosis X. For staining of histiocytosis X cells, unlike Reed-Sternberg cells in Hodgkin's disease, neuraminidase treatment was required for removal of sialic acid residues from the Leu-M1 antigen. The staining characteristics of anti-Leu-M1 in histiocytosis X cells resembled those of normal Langerhans' cells and lymphocyte and histiocyte variants (L & H cells) in the lymphocyte-predominant type of Hodgkin's disease. The significance of sialylation of Leu-M1 antigen in histiocytosis X cells has yet to be determined in order to correlate the prognosis of the disease. The authors suggest that anti-Leu-M1 used together with neuraminidase treatment is a valuable tool in the diagnosis of histiocytosis X when electron microscopy or frozen sections for OKT6 immunostaining are not available.