Abstract
T cell activation through the antigen receptor (TCR) involves the cytoplasmic tails of the CD3 subunits CD3gamma, CD3delta, CD3epsilon, and CD3zeta. Whereas the biological significance of the cytoplasmic tails of these molecules is suggested, in part, by their evolutionarily conserved sequences, their interactions with signal transduction molecules are not completely understood. We used affinity chromatography columns of glutathione S-transferase fused to the CD3epsilon cytoplasmic tail to isolate proteins that specifically interact with this subunit. In this way, we identified the shuttling protein nucleolin as a specific CD3epsilon-interacting molecule. Using competition studies and affinity chromatography on peptide columns, we were able to identify a central proline-rich sequence as the nucleolin-interacting sequence in CD3epsilon. Transfection in COS cells of wild type CD3epsilon, but not of nonbinding mutants of CD3epsilon, resulted in redistribution of nucleolin from the nucleus and nucleoli to the cytoplasm. This property was transferred to a CD8 protein chimera by appending the cytoplasmic tail of CD3epsilon. We also found that nucleolin associated with the TCR complex. This association was increased upon TCR engagement, suggesting that the CD3epsilon/nucleolin interaction may have a role in T cell activation.
Highlights
T cells respond to antigen via a polypeptide complex composed of ligand-binding T cell receptor (TCR)1 ␣ and  chains and the CD3 subunits CD3␥, CD3␦, CD3⑀, and CD3 [1, 2]
These results showed that nucleolin and its partial proteolytic fragments associate with the cytoplasmic tail of CD3⑀ in vitro
The association was increased in Jurkat cells stimulated with anti-CD3 antibody. These results show that the the antigen receptor (TCR) complex, probably via CD3⑀, interacts with nucleolin in T cells and that more nucleolin is recruited to the TCR complex when this is cross-linked with antibodies, suggesting that the CD3⑀/nucleolin interaction may have a role in T cell activation
Summary
T cells respond to antigen via a polypeptide complex composed of ligand-binding T cell receptor (TCR)1 ␣ and  chains (or ␥ and ␦ in ␥␦ T cells) and the CD3 subunits CD3␥, CD3␦, CD3⑀, and CD3 [1, 2]. We used affinity chromatography columns of glutathione S-transferase fused to the CD3⑀ cytoplasmic tail to isolate proteins that interact with this subunit. This association was increased upon TCR engagement, suggesting that the CD3⑀/nucleolin interaction may have a role in T cell activation.
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