Interaction of p59fyn kinase with the dynein light chain, Tctex-1, and colocalization during cytokinesis.

The protein tyrosine kinase p59fyn (Fyn) plays important roles in both lymphocyte Ag receptor signaling and cytokinesis of proB cells. We utilized yeast two-hybrid cloning to identify the product of the tctex-1 gene as a protein that specifically interacts with Fyn, but not with other Src family kinases. Tctex-1 was recently identified as a component of the dynein cytoskeletal motor complex. The capacity of a Tctex-1-glutathione S-transferase fusion protein to effectively bind Fyn from cell lysates confirmed the authenticity of this interaction. Tctex-1 binding required the first 19 amino acids of Fyn and integrity of two lysine residues within this sequence that were previously shown to be important for Fyn interactions with the immunoreceptor tyrosine-based activation motifs (ITAMs) of lymphocyte Ag receptors. Expression of tctex-1 mRNA and protein was observed in all lymphoma lines analyzed, and immunofluorescence confocal microscopy localized the protein to the perinuclear region. Analysis of a T cell hybridoma revealed prominent colocalization of Tctex-1 and Fyn at the cleavage furrow and mitotic spindles in cells undergoing cytokinesis. Our results provide a unique insight into a mechanism by which Tctex-1 might mediate specific recruitment of Fyn to the dynein complex in lymphocytes, which may be a critical event in mediating the previously defined role of Fyn in cytokinesis.

Interactions between the amino-terminal domain of p56lck and cytoplasmic domains of CD4 and CD8 alpha in yeast.

The interactions between CD4 or CD8 and p56lck were tested using the two-hybrid protein interaction system in yeast. Plasmid constructs were created which fuse the cytoplasmic domains of either CD4 or CD8 alpha to the DNA-binding protein LexA, and the unique amino-terminal domain of p56lck fused to a transcriptional activation domain. These constructs were transfected into yeast bearing lacZ and LEU2 reporter genes controlled by upstream LexA operator sequences. Yeast transfectants bearing either CD4 or CD8 alpha hybrid proteins in combination with the amino terminal p56lck hybrid protein exhibited increased beta-galactosidase activity and growth on leucine-deficient medium, indicating interactions between these protein domains. Quantitation of reporter activation indicated that the interaction of p56lck with CD8 alpha is at least 18-fold weaker than the interaction with CD4 in this assay. This reduced interactive capacity is apparently not due to competition by CD8 alpha interacting with itself, since homotypic or heterotypic interactions between CD8 alpha and/or CD4 could not be detected. Truncation and point mutants demonstrated that the interactions of p56lck with CD4 or CD8 alpha were dependent on the integrity of a pair of cysteines on each protein. The results indicate that these interactions do not require any additional proteins. Additionally, expression of the entire p56lck molecule as a hybrid with LexA resulted in dramatic reduction in the growth of yeast. Though the two-hybrid system is a powerful tool for examining protein interactions, this result indicates potential limitations in studying full-length src family tyrosine kinases in yeast.