Abstract
Although various functions of CD99 have been reported, such as apoptosis and homotypic aggregation of thymocyte and transendothelial migration of immune cells, biochemical/molecular natures of CD99 are still elusive. Using mouse CD99 gene, we show that CD99 forms homodimer through its extracellular domain. Expression of mouse CD99 is up-regulated on T cells after CD3-mediated activation, like the case for human CD99. The potential of CD99 to form homodimer was tested with a recently developed bimoleular fluorescence complementation analysis (BiFC). In BiFC analysis, the dimerization-induced fluorescence was strong near the perinuclear region and was faded at the cell membrane. However, surface expression of CD99 was still detected by flow cytometry, suggesting that CD99 either in monomer form or in association with other molecules exists on the cell surface. In BiFC analysis using CD99 mutants with its extracellular, transmembrane, or cytosolic domains changed to corresponding human CD4 domains, the mutant replaced with human CD4-extracellular domain did not produce fluorescence. Purified soluble CD99-Fc fusion proteins bound to CD99-Fc immobilized onto the gold sensor chip in surface plasmon resonance analysis, confirming that the extracellular domain was responsible for dimer formation. Intracytoplasmic staining for CD99 expression in the thymocytes and mature T cells showed that most of the cells, even the cells with low surface level of CD99, contained the molecule inside the cell. Our results suggest that majority of CD99 homodimers may exit in the cell and be exported to the cell surface, dissociating from each other, after a certain regulatory signal is delivered.
Highlights
CD99 is a cell surface glycoprotein leukocyte antigen that does not belong to any of the known protein families
To test whether the mouse ortholog of the CD99 gene showed a similar pattern, we examined the expression profile of mouse CD99 (mCD99) on T cells stimulated via CD3
CD99 expression was very low on T cells before activation, but increased on activated cells from day 1 post-activation, was up- regulated to a high level at day 3, and decreased by day 5 (Figure 1)
Summary
CD99 is a cell surface glycoprotein leukocyte antigen that does not belong to any of the known protein families. A close relationship between the down-regulation of CD99 expression and the generation of Hodgkin and Reed-Sternberg cells in Hodgkin's lymphoma has been investigated (Kim et al, 1998, 2000; Lee et al, 2001, 2003b) and this has drawn interest to the molecular mechanism of CD99 expression Despite these accumulated data on the functions of CD99, the biochemical and molecular nature of the molecule has not been well defined. It is possible that CD99 might form homodimers, because bands near 45 and 60 kDa are detected in western blots under nonreducing conditions in lysates from human thymocytes (unpublished finding).
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