Interaction of lectins with human T lymphocytes mitogenic properties, inhibitory effects, binding to the cell membrane and to isolated surface glycopeptides

Dither‐Centerlind, Marie‐Louise; Axelsson, Bertil; Hammarström, Sten; Hellström, U.; Perlmann, Peter

doi:10.1002/eji.1830100607

Cited by 45 publications

(17 citation statements)

References 62 publications

(32 reference statements)

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“…Conceivably, but in our opinion less likely, individual differences in labeling might also result from differences in the association of the transmembrane proteins with putative components ofthe membrane skeleton, resulting in differential partition on fracture. In either case, heterogeneity of T-cell populations, as revealed by fracture-labeling, retains possible operational value and a significance that is reinforced by the homogeneous labeling patterns so far observed in other cells and by the recent finding of multiple WGA-binding glycoproteins in the plasma membranes of human T cells (19). The effect ofWGA (stimulatory/inhibitory; see refs.…”

Section: Resultsmentioning

confidence: 85%

“…At present, opportunities for correlation of the pattern of WGA labeling of P faces, as reported here, with available data on T-lymphocyte plasma membrane glycoproteins are limited. In thymus-derived lymphocytes, most plasma membrane glycoproteins appear to contain terminal sialic acid residues on their oligosaccharide chains (6,19). WGA recognizes and binds to sialic acid, although it can also bind to GlcNAc residues deeper in the oligosaccharide chains that are revealed after removal of the terminal sialic acid by neuraminidase (20).…”

Section: Resultsmentioning

confidence: 99%

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T-lymphocyte heterogeneity: wheat germ agglutinin labeling of transmembrane glycoproteins.

Torrisi¹,

Silva²

1982

Proc. Natl. Acad. Sci. U.S.A.

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We have recently described "fracture-label" techniques that permit direct cytochemical labeling offreeze-fractured cells. We report here the use of fracture-labeling to investigate the distribution and partition of wheat germ agglutinin (WGA) receptor sites over the protoplasmic and exoplasmic plasma membrane faces of freeze-fractured human thymus-derived (T) lymphocytes. All exoplasmic faces are strongly labeled by WGA. In contrast, the protoplasmic faces exhibit remarkable variation, ranging from virtual absence of label in some faces to very high densities in other faces. We interpret the presence of WGA receptor sites over the protoplasmic faces to reflect the presence of transmembrane WGA-binding sialoglycoproteins that, during freeze-fracture, partition with the inner half of the plasma membrane. Our results, therefore, indicate heterogeneous expression of integral membrane proteins within populations of human T cells. Fracture-label techniques thus represent an additional tool in the definition of lymphocyte subpopulations.The plasma membranes of human T cells reflect in their composition and structure the complexity and functional heterogeneity intrinsic to the immune system. Current studies of the heterogeneity of human T lymphocytes are leading to the identification ofcell subpopulations as defined by differences in the compositions of their plasma membranes, frequently through the identification of surface antigens and lectin binding sites, as well as through the analysis of ligand-evoked cellular responses (1-3). Wheat germ agglutinin (WGA), a plant lectin, can be used to fractionate human T lymphocytes on the basis of the presence of high-affinity or low-affinity receptors for the lectin (4, 5). In addition, microfluorimetric analysis of fluorescent-lectin binding appears to be able to distinguish subpopulations of lymphocytes (6,7).Recently, we developed cytochemical techniques-"fracturelabel"-that permit direct labeling of the membrane components partitioned by freeze-fracture with each membrane half. In fracture labeled preparations, labeled membrane fracture faces are observed in thin sections or in platinum/carbon (Pt/ C) replicas of critical point-dried preparations (8)(9)(10)(11)(12) (14,15). This procedure labeled the cell surface of B lymphocytes and Fc receptor-positive T cells and permitted their subsequent identification in thin sections. Thus, any cell that was labeled on the unfractured surface ofthe plasma membrane could be excluded from the analysis offracture surfaces. The cells were then mixed 1:1 with washed glutaraldehyde-fixed human erythrocytes used here as a control for positive identification offracture faces (see below; see also refs. 8, 10, and 12), embedded in 25% bovine serum albumin, and crosslinked by 1% glutaraldehyde, and the resulting gels were sliced, impregnated in 30% glycerol, and frozen in Freon 22 cooled by liquid nitrogen (8, 10). Frozen gels were fractured in liquid nitrogen by crushing with a glass pestle as described (8,10). Gel fragments were thaw...

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Section: Resultsmentioning

confidence: 85%

Section: Resultsmentioning

confidence: 99%

T-lymphocyte heterogeneity: wheat germ agglutinin labeling of transmembrane glycoproteins.

Torrisi¹,

Silva²

1982

Proc. Natl. Acad. Sci. U.S.A.

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“…Little is known about the cell surface carbohydrate structures involved in the binding to these 3 lectins [6,7]. To elucidate the possible role of sialic acid as a modulator of ,8-linked terminal, non-reducing D-galactose and Nacetyl-D-galactosamine, we have studied the SBA, PNA and HPA binding of the gangliosides GM2, GM1 and GDla, and the corresponding desialylated glycosphingolipids GA2 and GA1 .…”

Section: Affinity Chromatography Liposome Membranementioning

confidence: 99%

Binding specificities of the lectins from Helix pomatia, soybean and peanut against different glycosphingolipids in liposome membranes

Månsson¹,

Olofsson²

1983

FEBS Letters

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The binding specificities of the lectins from Helixpomatia, soybean and peanut against glycosphingolipids containing Blinked terminal D-galactose and N-acetyl-D-galactosamine and the role of sialic acid as a modulator of the binding specificity were investigated. The test system used consisted of liposomes containing the glycosphingolipids and lectins coupled to gel columns. Of the investigated glycosphingolipids only ganglioside GM2 bound to soybean agglutinin while Heiixpomatia agglutinin was found to bind only GA2. Peanut agglutinin showed good affinity both for ganglioside GM1 and its asialoderivative GA1 . LectinGanglioside G&cosphingolipid

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“…The subunits are of two different types, designated leukocyte reactive (L) and erythrocyte reactive (E), and occur in the combinations L4, L3E, L2E2, LE3, and E4 (1)(2)(3). L has high affinity for lymphocyte surface receptors (1)(2)(3)(4)(5) but little for those of erythrocytes (refs. 1 and 2; unpublished data) and is responsible for the mitogenic properties of the isolectins (1)(2)(3)(4)(5).…”

mentioning

confidence: 99%

“…L has high affinity for lymphocyte surface receptors (1)(2)(3)(4)(5) but little for those of erythrocytes (refs. 1 and 2; unpublished data) and is responsible for the mitogenic properties of the isolectins (1)(2)(3)(4)(5). E is responsible for the erythrocyte agglutinating properties (3,6).…”

mentioning

confidence: 99%

Mitogenic leukoagglutinin from Phaseolus vulgaris binds to a pentasaccharide unit in N-acetyllactosamine-type glycoprotein glycans.

Hammarström¹,

Hammarström²,

Sundblad³

et al. 1982

Proc. Natl. Acad. Sci. U.S.A.

132

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The carbohydrate binding specificity of leukoagglutinin (La; Phaseolus vulgaris isolectin L4) was studied by using quantitative precipitation and precipitation-inhibition. A series of purified glycopeptides and synthetic oligosaccharides were used as inhibitors. The minimal structural unit required for La binding was the disaccharide GlcNAc(1-+2)Man. Additions for this basic unit of different sugar residues gave a positive or negative contribution to binding. The most complementary structure was the pentasaccharide Gal(1-.>4)GlcNAc(1-*2)Man 6 Gal(1-*4)GlcNAc. This pentasaccharide unit occurs in tetraantennary N-acetyllactosamine-type glycoprotein glycans. Glycoproteins containing such structures were accordingly precipitated by La. Selected glycopeptides and oligosaccharides were also tested as inhibitors of La-induced DNA synthesis in human lymphocytes. The pattern of inhibition was essentially the same as that obtained by precipitation-inhibition, indicating that binding to lymphocytes via the carbohydrate binding site of the lectin is an essential step in the activation process.

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Interaction of lectins with human T lymphocytes mitogenic properties, inhibitory effects, binding to the cell membrane and to isolated surface glycopeptides

Cited by 45 publications

References 62 publications

T-lymphocyte heterogeneity: wheat germ agglutinin labeling of transmembrane glycoproteins.

T-lymphocyte heterogeneity: wheat germ agglutinin labeling of transmembrane glycoproteins.

Binding specificities of the lectins from Helix pomatia, soybean and peanut against different glycosphingolipids in liposome membranes

Mitogenic leukoagglutinin from Phaseolus vulgaris binds to a pentasaccharide unit in N-acetyllactosamine-type glycoprotein glycans.

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