Abstract
Cell adhesion molecules belonging to the immunoglobulin superfamily promote cell aggregation and neurite outgrowth. These proteins are multidomain molecules comprising a number of distinct modules, notably Ig domains of the C2 class and fibronectin type III repeats. A subgroup of these neural adhesion molecules are linked to the membrane with a glycosylphosphatidylinositol anchor and show a more restricted pattern of expression in the embryo. Among them, the human homologue of the transient axonal glycoprotein, named TAX-1, shares a great degree of similarity at the protein level with rodent TAG-1. In the present study we set out to determine which domains of TAX-1 are involved in promoting the homophilic, adhesive properties of the molecule. We established stable Schneider-2 cell lines expressing the intact molecule, the fibronectin, or the immunoglobulin domains. The fibronectin domains were necessary and sufficient to mediate homophilic binding and induce cell aggregation, a response also observed with cells expressing the intact TAX-1 molecule. Aggregation was inhibited by the secreted form of the TAG-1 protein. On the other hand, the immunoglobulin domains by themselves were not able to induce cell aggregation. In addition, TAX-1 was localized in areas of cell contact among aggregating cells, justifying its role as an adhesion molecule.
Highlights
During the establishment of the body plan and during the development of the nervous system, selective adhesive interactions are responsible for cell segregation
Construction and Characterization of Cell Lines Expressing TAX-1 and Its Truncated Forms—In order to assay the in vitro cell adhesion activity of TAX-1 and to map the functional domains responsible for this activity, we devised an experimental model in which a recombinant TAX-1 protein carrying either all or some of the TAX-1 domains is expressed in a nonadherent cell line
We chose this line because its nonadherent nature provides us with a reliable indicator of binding activities and because any putative TAG-1 receptor is unlikely to be expressed in Drosophila cells [33, 34]
Summary
During the establishment of the body plan and during the development of the nervous system, selective adhesive interactions are responsible for cell segregation. The fibronectin domains were necessary and sufficient to mediate homophilic binding and induce cell aggregation, a response observed with cells expressing the intact TAX-1 molecule.
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