Suppression of proline-directed protein kinase FAexpression inhibits the growth of human chronic myeloid leukaemia cells

Initial studies revealed that proline-directed protein kinase FA(PDPK FA) was overexpressed in various cancerous tissues relative to normal controls. However, the functional role of overexpressed PDPK FAin cancer remains to be established. In this report, we explore the potential role of PDPK FAin leukaemia cell growth by investigating the effects of partial inhibition of this kinase on the malignant phenotype of human chronic myeloid leukaemia cells (K562). Cloning of PDPK FAcDNA and its recombinant antisense expression vector and PDPK FA-specific antibody were successfully developed. Two stable antisense clones of K562 cells were subcloned which expressed 70% and 45% of PDPK FArespectively, compared with control-transfected clone in both immunoprecipitate activity assay and immunoblot analysis. In sharp contrast, these two antisense clones expressed no significant suppression of any other related PDPK family members, indicating the specificity of these two antisense clones. Moreover, these antisense clones proportionally and potentially exhibited cell growth retardation, poor clonogenic growth in soft agar and loss of serum independence. The results demonstrate that specific antisense suppression of PDPK FAis sufficient to interfere with the growth of K562 cells, indicating that PDPK FAis essential for human chronic myeloid leukaemia cell growth. © 2000 Cancer Research Campaig

The multicellularity genes of dictyostelid social amoebas

The evolution of multicellularity enabled specialization of cells, but required novel signalling mechanisms for regulating cell differentiation. Early multicellular organisms are mostly extinct and the origins of these mechanisms are unknown. Here using comparative genome and transcriptome analysis across eight uni- and multicellular amoebozoan genomes, we find that 80% of proteins essential for the development of multicellular Dictyostelia are already present in their unicellular relatives. This set is enriched in cytosolic and nuclear proteins, and protein kinases. The remaining 20%, unique to Dictyostelia, mostly consists of extracellularly exposed and secreted proteins, with roles in sensing and recognition, while several genes for synthesis of signals that induce cell-type specialization were acquired by lateral gene transfer. Across Dictyostelia, changes in gene expression correspond more strongly with phenotypic innovation than changes in protein functional domains. We conclude that the transition to multicellularity required novel signals and sensors rather than novel signal processing mechanisms

PLK1 inhibitors: Setting the mitotic death trap

Polo-like kinase 1 (Plk1) regulates mitotic progression in all eukaryotes and has been implicated in the transformation of human cells. Analysis of the cytological and anti-tumor activities of BI 2536, a novel, selective pharmacological inhibitor of Plk1, has connected chemistry and biology to the bedside

Constitutive activation of the Ras/MAP kinase pathway and enhanced TCR signaling by targeting the Shc adaptor to membrane rafts.

The Shc adaptor is responsible for coupling receptor tyrosine kinases and tyrosine kinase-associated receptors to the Ras/MAP kinase pathway. Shc is believed to be regulated by a change in subcellular localization from the cytosol to the plasma membrane, where it recruits Grb-2/Sos complexes and hence permits juxtaposition of the guanine nucleotide exchange factor Sos to Ras, resulting in GDP/GTP exchange and Ras activation. Shc has been recently shown to inducibly colocalize in detergent-resistant membrane rafts together with the activated TCR and associated signaling molecules. To understand whether Shc localization in membrane rafts is sufficient to regulate Shc function, we constructed a Shc chimera containing the Ras membrane localization motif at the C-terminus. We show that membrane targeted Shc was constitutively localized in the plasma membrane of T-cells, and was mostly compartmentalized in lipid rafts. Membrane targeted Shc was phosphorylated on tyrosine residues and bound Grb-2/Sos in the absence of TCR engagement. Furthermore, expression of membrane targeted Shc resulted in constitutive downstream signaling, including Erk2 activation and enhancement of TCR dependent activation of the TCR responsive transcription factor NF-AT. Hence localization of Shc in membrane rafts is sufficient for Shc to acquire a signaling competent state. Interestingly, a membrane targeted Shc mutant lacking both Grb-2 binding sites was not only incapable of signaling in the absence of TCR triggering, but transdominantly inhibited endogenous Shc, supporting a non redundant role for Shc in the activation of the Ras/MAP kinase pathway in T-cells