PTP-S2, a nuclear tyrosine phosphatase, is phosphorylated and excluded from condensed chromosomes during mitosis.

PTP-S2 is a tyrosine specific protein phosphatase that binds to DNA and is localized to the nucleus in association with chromatin. It plays a role in the regulation of cell proliferation. Here we show that the subcellular distribution of this protein changes during cell division. While PTP-S2 was localized exclusively to the nucleus in interphase cells, during metaphase and anaphase it was distributed throughout the cytoplasm and excluded from condensed chromosomes. At telophase PTP-S2 began to associate with chromosomes and at cytokinesis it was associated with chromatin in the newly formed nucleus. It was hyperphosphorylated and showed retarded mobility in cells arrested in metaphase. In vitro experiments showed that it was phosphorylated by CK2 resulting in mobility shift. Using a deletion mutant we found that CK2 phosphorylated PTP-S2 in the C-terminal non-catalytic domain. A heparin sensitive kinase from mitotic cell extracts phosphorylated PTP-S2 resulting in mobility shift. These results are consistent with the suggestion that during metaphase PTP-S2 is phosphorylated (possibly by CK2 or a CK2-like enzyme), resulting in its dissociation from chromatin.

Interaction of SH3 domain of Hck tyrosine kinase with cellular proteins containing proline-rich regions: evidence for modulation by unique domain.

The Hck tyrosine kinase, a member of Src family, is predominantly expressed in myeloid cells. In this report we have analyzed interaction of cellular proteins with Src homology 3 (SH3) domain of Hck. For this purpose we used various GST-Hck fusion proteins comprising a part of unique region, complete unique region and/or complete SH3 domain of Hck, and glutathione S-transferase (GST). When these fusion proteins (or GST), immobilized on glutathione-agarose beads were incubated with [35S] methionine labelled cell extracts, multiple proteins which interact specifically with SH3 domain of Hck were detected by SDS-PAGE followed by autoradiography. The Hck interacting proteins could also be detected by a tandem blot binding assay in which the blot was incubated with purified fusion protein (or GST) and then the interacting proteins were identified by using antibody against GST. When a part of or complete unique domain was present along with SH3 domain, the interaction of some specific proteins was reduced several fold. These results raise the possibility of unique domain altering the properties of SH3 domain, thus modulating or restricting the interaction of SH3 domain with specific cellular proteins. This modulatory effect of unique domain was localized to 28 amino acids upstream of SH3 domain. SH3 interacting proteins were associated with serine/threonine and tyrosine kinase activities towards exogenous substrates. Most of the SH3 binding proteins were soluble in Triton X-100. Differentiation of promyelocytic leukemia cell line HL-60 into macrophage like cells resulted in appearance of novel SH3 binding proteins. Hck was detected in the eluate of WGA-Sepharose column, suggesting that it interacts with WGA binding glycoprotein (s). A rat spleen cDNA library was screened for the SH3 binding proteins by protein interaction cloning. Sequence analysis of the clones showed the presence of proline rich regions containing PPXP motifs.

Molecular cloning of a membrane bound tyrosine-specific protein kinase from rat spleen.

Tyrosine-specific protein phosphorylation is believed to play an important (though poorly understood) role in various cellular functions in many normal and malignant cells. In order to understand the function of tyrosine-specific protein kinases in normal cells, it is necessary, as an initial step, to identify genes (and proteins) for these enzymes. For this purpose cDNA libraries were constructed in plasmid vector pGEM-3Z and lambda gt11 using mRNA from rat spleen. From these cDNA libraries, cDNA clones coding for a src-related tyrosine-specific protein kinase were isolated. The largest clone (L115) was 1.94 kb in size. Various restriction fragments of this clone were subcloned in plasmid vector for sequencing. The complete nucleotide sequence of the largest clone showed an open reading frame coding for a protein of 503 amino acids. The presence of a glycine at position 2 and an arginine at position 7 indicated that this protein is likely to be acylated at glycine 2 and therefore associated with plasma membrane. This gene showed high homology to human and mouse hck and hence it is perhaps the rat homologue of hck. Moderate level of expression of this gene was observed only in the adult rat spleen and not in other tissues. These results suggest that this kinase gene is expressed in a tissue specific manner.