PMID: 7527813Jan 1, 1995Paper

The E2 molecule (CD99) specifically triggers homotypic aggregation of CD4+ CD8+ thymocytes

The Journal of Immunology : Official Journal of the American Association of Immunologists
G BernardA Bernard

Abstract

We have previously described E2 as a 32-kDa transmembrane glycoprotein displaying an isomorphism, as two epitopes (defined by mAbs O662 and L129) are widely distributed on T cells whereas two epitopes are restricted to T cell subsets (defined by mAbs D44 and 12E7). E2, the MIC-2 gene product, is involved in T cell adhesion because anti-E2 mAbs against pan T epitopes block spontaneous T cell rosettes. Pan T E2 mAbs are also able to induce exposure of the phosphatidylserine at the thymocyte surface but not at the surface of mature T lymphocytes, an event most likely linked to adhesion phenomena. We now show here that the anti-E2 mAbs (0662 and L129) that block rosettes and induce phosphatidylserine exposure at the thymocyte surface, and not those reacting with epitopes not involved in adhesion, also trigger aggregation of certain immature T cell lines and no other cell lines tested. Among the normal cells tested, anti-E2 mAbs exclusively induce homotypic aggregation of CD4+ CD8+ human thymocytes. This phenomenon is temperature, energy, and Mg++ dependent, and requires an intact cytoskeleton. These adhesion properties are rather characteristic of integrins. Nevertheless, mAb against beta 1, beta 2, and beta 3 integrin chains, as w...Continue Reading

Related Concepts

Related Feeds

Adhesion Molecules in Health and Disease

Cell adhesion molecules are a subset of cell adhesion proteins located on the cell surface involved in binding with other cells or with the extracellular matrix in the process called cell adhesion. In essence, cell adhesion molecules help cells stick to each other and to their surroundings. Cell adhesion is a crucial component in maintaining tissue structure and function. Discover the latest research on adhesion molecule and their role in health and disease here.