Phosphorylation of the SSBP2 and ABL proteins by the ZNF198‐FGFR1 fusion kinase seen in atypical myeloproliferative disorders as revealed by phosphopeptide‐specific MS

The ZNF198‐fibroblast growth factor receptor‐1 (FGFR1) fusion kinase is a constitutively activated tyrosine kinase associated with a specific atypical myeloproliferative disease. The chimeric protein localizes to the cytoplasm, unlike the wild type FGFR1 receptor kinase, and presumably inappropriately phosphorylates specific targets as part of the oncogenic signaling cascade. Other than known targets of the FGFR1 kinase itself, few specific targets of ZNF198‐FGFR1 have been identified. Using a genetically engineered HEK 293 cell system, we have identified proteins that are specifically phosphorylated in the presence of the fusion kinase using anti‐phosphotyrosine immunoprecipitation and MS. Compared with 293 cells expressing exongenous wild type FGFR1, ZNF198‐FGFR1 is associated with phosphorylation of several proteins including SSBP2, ABL, FLJ14235, CALM and TRIM4 proteins. The specificity of the phosphorylation events in the SSBP2 and ABL proteins, which have previously been implicated in leukemogenesis, was further confirmed independently using immunoprecipitation with protein‐specific antibodies and Western blotting. The MS analysis also identified the phosphorylation events in the ZNF198 moiety in the chimeric protein that might be related to its function. These studies identify the intersection of several different leukemia‐related pathways in the development of this myeloproliferative disorder and provide new insights into the substrates of FGFR1 under defined conditions.     

Improved expression of kinases in Baculovirus-infected insect cells upon addition of specific kinase inhibitors to the culture helpful for structural studies

As exemplified by three cases, we show that the addition of a small molecular weight inhibitor to the culture of Baculovirus-infected insect cells can dramatically improve the expression of a recombinant kinase. The expression of the tyrosine kinase KDR was sevenfold higher and mainly in a soluble form, when the KDR inhibitor PTK/ZK was added to the culture at the time of Baculovirus infection. The expression of the catalytic domain of the serine/threonine kinase PKCtheta, which is otherwise not possible with the Baculovirus expression system, was expressed mainly soluble at 120mg/L by the addition of the PKC inhibitor BIM XI to the culture of Baculovirus-infected insect cells. For Abl kinase, the expression could also be significantly increased by the addition of the Abl kinase inhibitor STI571 to the culture. For all three kinases, this method had previously been applied by us for the improved production of kinase/inhibitor complex protein, leading to the co-crystal structures. It is shown here at the cases KDR-PTK/ZK and PKCtheta-BIM XI, that the stimulatory effect of an inhibitor on kinase expression is applicable under many culture conditions. The presented method represents a valuable tool to obtain structural knowledge on kinase-inhibitor complexes.     

Synthesis and docking study of 2-phenylaminopyrimidine Abl tyrosine kinase inhibitors

Six analogs of imatinib, an Abl kinase inhibitor clinically used as a first-line therapeutic agent for chronic myeloid leukaemia (CML), have been synthesized and characterized. And their potency as Abl kinase inhibitors have been screened by a robust virtual screening method developed based on the crystal structure (PDB code 2hyy) of Abl-imatinib complex using Surflex-Docking. The docking results are consistent with the inhibitory potency of the compounds characterized by MS method. And the H-bonds between imatinib analogs and Thr315 and Met318 residues in Abl kinase are shown to be crucial for achieving accurate poses and high binding affinities for the ATP-competitive kinase inhibitors.     

Signaling function of PSGL-1 in neutrophil: tyrosine-phosphorylation-dependent and c-Abl-involved alteration in the F-actin-based cytoskeleton

P-selectin glycoprotein ligand-1 (PSGL-1) is the best-characterized selectin ligand that has been demonstrated to mediate leukocytes rolling on endothelium and leukocytes recruitment into inflamed tissue in vivo. In addition to its direct role in leukocyte capturing, PSGL-1 also functions as a signal-transducing receptor. The present work showed that after cross-linking of PSGL-1 with KPL1, an anti-PSGL-1 monoclonal antibody, PSGL-1 linked to the cytoskeleton and became a detergent-insoluble component in activated neutrophils. The antibody cross-linking led to the polymerization and redistribution of F-actin-based cytoskeleton, and this alteration of cytoskeleton was spatiotemporally related to the polarization of PSGL-1. PSGL-1's polarization was cytoskeleton-dependent because it was eliminated by cytochalasin B. Furthermore, the polymerization and redistribution of F-actin filaments were tyrosine-phosphorylation-dependent since the alteration of F-actin-based cytoskeleton was severely blocked by genistein, a universal tyrosine kinase inhibitor. STI571, a small molecule inhibitor for cytoplasmic tyrosine kinase c-Abl, also inhibited the alteration of F-actin-based cytoskeleton, and c-Abl was redistributed to where F-actin concentrated in the activated neutrophils. The results suggested that cross-linking of PSGL-1 induces the phosphorylation-dependent and c-Abl-involved alteration of F-actin-based cytoskeleton in neutrophils.     

Cytoplasmic signalling by the c-Abl tyrosine kinase in normal and cancer cells

c-Abl is a non-receptor tyrosine kinase which is localized both in the nucleus and cytoplasm, and is involved in the regulation of cell growth, survival and morphogenesis. Although c-Abl nuclear function has been extensively studied, recent data also indicate an important role in cytoplasmic signalling through mitogenic and adhesive receptors. Here, we review the mechanisms by which growth factors promote cytoplasmic c-Abl activation and signalling and its function in the induction of DNA synthesis, changes in cell morphology and receptor endocytosis. The importance of de-regulated c-Abl cytoplasmic signalling in solid tumours is also discussed.     

S(yp) Y279和Y304介导了BcrAbl与Grb2等蛋白的结合

利用体外定点突变技术获得Ｓｙｐ Ｙ２７９Ｆ、Ｙ３０４Ｆ和Ｙ５４６Ｆ突变的ｃＤＮＡ, 将这些突变体和野生型Ｓｙｐ 分别构建入ｐＸＭ 真核表达载体, 转入Ｋ５６２ 细胞。经Ｗｅｓｔｅｒｎ 印迹证明, 各转染Ｋ５６２ 细胞中都有Ｓｙｐ 蛋白的表达。免疫沉淀与免疫印迹结果发现ＷＴ、Ｙ２７９Ｆ、Ｙ３０４Ｆ和Ｙ５４６Ｆ等４ 种Ｓｙｐ 在胞内均能直接与ＢｃｒＡｂｌ 结合。体外结合实验结果表明Ｙ３０４Ｆ突变导致了Ｓｙｐ 不能与Ｓｈｃ 结合,Ｙ２７９Ｆ突变则导致了Ｓｙｐ 不能与Ｇｒｂ２ 结合。结论是： 作为“接头蛋白”,Ｓｙｐ 可以介导ＢｃｒＡｂｌ 与Ｓｈｃ 和Ｇｒｂ２ 之间的结合;Ｇｒｂ２ 结合在Ｓｙｐ 的Ｙ２７９ 上,Ｓｈｃ 则结合在Ｓｙｐ的Ｙ３０４ 上     

The Hem protein mediates neuronal migration by inhibiting WAVE degradation and functions opposite of Abelson tyrosine kinase

In the nervous system, neurons form in different regions, then they migrate and occupy specific positions. We have previously shown that RP2/sib, a well-studied neuronal pair in the Drosophila ventral nerve cord (VNC), has a complex migration route. Here, we show that the Hem protein, via the WAVE complex, regulates migration of GMC-1 and its progeny RP2 neuron. In Hem or WAVE mutants, RP2 neuron either abnormally migrates, crossing the midline from one hemisegment to the contralateral hemisegment, or does not migrate at al and fail to send out its axon projection. We report that Hem regulates neuronal migration through stabilizing WAVE. Since Hem and WAVE normally form a complex, our data argues that in the absence of Hem, WAVE, which is presumably no longer in a complex, becomes susceptible to degradation. We also find that Abelson tyrosine kinase affects RP2 migration in a similar manner as Hem and WAVE, and appears to operate via WAVE. However, while Abl negatively regulates the levels of WAVE, it regulates migration via regulating the activity of WAVE. Our results also show that during the degradation of WAVE, Hem function is opposite to that of and downstream of Abl.