Evidences for ubiquitination and intracellular trafficking of LAT, the linker of activated T cells.

Current evidences indicate that T cells use protein sorting and degradation to control duration and specificity of T cell receptor (TcR) signalling, including the CD3zeta chain which is ubiquitinated upon TcR triggering. In a previous study, we showed that the Linker of activated T cells (LAT) is present at the plasma membrane and in transferrin-labelled intracellular compartments also containing the CD3zeta chain. Here we show that LAT protein levels are tightly regulated in Jurkat lymphoid T cells likely involving proteasome-dependent degradation, recycling through trans-Golgi/endosome compartments and clathrin-dependent internalisation. We further identify a novel post-translational modification of LAT by ubiquitination that is likely to influence LAT protein stability, intracellular localisation and/or recycling. Our results provide novel molecular and regulatory insights into the function of LAT adapter protein in T cell signalling.

Alternative splicing modulates autoinhibition and SH3 accessibility in the Src kinase Fyn.

Src family kinases are central regulators of a large number of signaling pathways. To adapt to the idiosyncrasies of different cell types, these kinases may need a fine-tuning of their intrinsic molecular control mechanisms. Here, we describe on a molecular level how the Fyn kinase uses alternative splicing to adapt to different cellular environments. Using structural analysis, site-directed mutagenesis, and functional analysis, we show how the inclusion of either exon 7A or 7B affects the autoinhibition of Fyn and how this changes the SH3-dependent interaction and tyrosine phosphorylation of Sam68, with functional consequences for the Sam68-regulated survival of epithelial cells. Our results illustrate a novel mechanism of evolution that may contribute to the complexity of Src kinase regulation.