David M. Shotton scite author profile

Macrophage subpopulations in the mouse express a lectin‐like receptor, sialoadhesin (originally named sheep erythrocyte receptor, SER), which selectively recognizes sialoglycoconjugates and is likely to be involved in cellular interactions of stromal macrophages in haematopoietic and lymphoid tissues. In this report we describe the purification and ligand specificity of sialoadhesin isolated from mouse spleen. Purified sialoadhesin, a glycoprotein of 185 kd apparent Mr, agglutinated sheep or human erythrocytes at nanomolar concentrations in a sialic acid‐dependent manner. Low angle shadowing and electron microscopy showed that sialoadhesin consisted of a globular head region of approximately 9 nm and an extended tail of approximately 35 nm. To investigate the specificity for sialic acid, we studied the interaction of sialoadhesin with derivatized human erythrocytes, glycoproteins, and glycolipids. In conclusion, sialoadhesin specifically recognizes the oligosaccharide sequence Neu5Ac alpha 2‐‐‐‐3Gal beta 1‐‐‐‐3GalNAc in either sialoglycoproteins or gangliosides. These findings imply that specific sialoglycoconjugates carrying this structure may be involved in cellular interactions between stromal macrophages and subpopulations of haematopoietic cells and lymphocytes.

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The dimensions of the T lymphocyte glycoprotein leukosialin and identification of linear protein epitopes that can be modified by glycosylation.

Cyster

1991

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Leukosialin (CD43) is a major glycoprotein of T lymphocytes whose extracellular domain of 224 amino acids contains on average one O‐linked carbohydrate unit per three amino acids. This suggests an unfolded structure for the extracellular domain which has now been established to extend to a length of 45 nm by transmission electron microscopy following low angle rotary shadowing. The antigenicity of rat leukosialin has been studied using nine monoclonal antibodies (MAbs) whose binding is differentially affected by the cell type on which leukosialin is expressed and by the removal of sialic acid. From these observations it appears that the epitopes are affected by glycosylation, yet seven of the nine MAbs reacted clearly with the extracellular domain of leukosialian expressed in an unglycosylated form in Escherichia coli. The MAbs showing this positive reaction included three of the four antibodies whose epitopes were affected by neuraminidase treatment of leukosialin. It thus appears that linear protein epitopes are recognized and that some of these can be modified in the native structure by glycosylation. The positions of the antigenic determinants have been mapped by expressing fusion proteins of different lengths and the identity of one epitope was proven by the binding of two MAbs to an octapeptide expressed as a fusion protein. For three MAbs, the location of epitopes in the native protein was confirmed by electron microscopy of shadowed leukosialin–Fab complexes. Overall it is concluded that leukosialin is a major component at the periphery of the T lymphocyte and that despite its high level of glycosylation, protein determinants are exposed that could be ligands in cell interactions.

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David M. Shotton

Muscular dystrophy in the mdx mouse: Histopathology of the soleus and extensor digitorum longus muscles

The molecular structure of human erythrocyte spectrin

Purification and properties of sialoadhesin, a sialic acid-binding receptor of murine tissue macrophages.

The dimensions of the T lymphocyte glycoprotein leukosialin and identification of linear protein epitopes that can be modified by glycosylation.

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