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1.
The constitutively active Bcr‐Abl tyrosine kinase plays a crucial role in chronic myelogenous leukemia (CML) pathogenesis. The Bcr‐Abl protein induces the upregulation of proto‐oncogene c‐Jun, which is involved in Bcr‐Abl transforming activity in Bcr‐Abl positive cells. Recent studies reported that c‐Jun inhibited hemoglobin synthesis in human CML cell line K562. However, c‐Jun also plays a critical role in cell proliferation and apoptosis. In this study, we investigated the physiological roles of c‐Jun in cell proliferation, apoptosis and erythroid differentiation of K562 cells. Firstly, we generated K562 cell lines stably overexpressing c‐Jun. These clones have the same proliferation rate as the parental cell line in general culture medium. Endogenous c‐Jun expression was analyzed to determine the effective concentration of STI571 for inhibiting Bcr‐Abl signaling. Western blots show that STI571 inhibited c‐Jun expression in a dose‐dependent manner, reaching a maximum inhibition at 1 µM. STI571 could inhibit c‐Jun expression in K562 cells, but not in c‐Jun‐overexpression cells. c‐Jun did not alter growth inhibition and apoptotic induction by STI571 treatment, but inhibited STI571‐induced erythroid differentiation. Moreover, c‐Jun did not alter growth inhibition and apoptotic induction by histone deacetylase (HDAC) inhibitors (apicidin, sodium butyrate, and MS275) treatment, but inhibited HDAC inhibitors‐induced erythroid differentiation. These results suggest that c‐Jun may modulate anticancer drugs‐induced cell differentiation but not growth inhibition and apoptosis in CML cells. J. Cell. Physiol. 218: 568–574, 2009. © 2008 Wiley‐Liss, Inc.  相似文献   

2.
Bcr–Abl is the transforming principle underlying chronic myelogenous leukaemia (CML). Here, we use a functional interaction proteomics approach to map pathways by which Bcr–Abl regulates defined cellular processes. The results show that Bcr–Abl regulates the actin cytoskeleton and non-apoptotic membrane blebbing via a GADS/Slp-76/Nck1 adaptor protein pathway. The binding of GADS to Bcr–Abl requires Bcr–Abl tyrosine kinase activity and is sensitive to the Bcr–Abl inhibitor imatinib, while the GADS/Slp-76 and Slp-76/Nck interactions are tyrosine phosphorylation independent. All three adaptor proteins co-localize with cortical actin in membrane blebs. Downregulation of each adaptor protein disrupts the actin cytoskeleton and membrane blebbing in a similar fashion and similar to imatinib. These findings highlight the importance of protein interaction dependent adaptor protein pathways in oncogenic kinase signaling.  相似文献   

3.
Bcr–Abl plays an essential role in the pathogenesis and development of chronic myeloid leukaemia (CML). Inhibition of Bcr–Abl has great potential for therapeutic intervention in CML. In order to obtain novel and potent Bcr–Abl inhibitors, twenty seven 4,6-disubstituted pyrimidines were synthesized and evaluated herein. The biological results indicated that four compounds of them (C4, C5, C16, and C23) were potent Bcr–Abl inhibitors which were comparable to positive control. Moreover, C4 and C5 displayed promising antiproliferative activity against K562 cells. The results suggested that these 4,6-disubstituted pyrimidines could serve as promising leads for further optimization of Bcr–Abl inhibitors.  相似文献   

4.
Haematopoietic cell kinase (Hck) is a protein tyrosine kinase of the Src family specifically expressed in phagocytes as two isoforms, p59Hck and p61Hck, present at the plasma membrane and lysosomes, respectively. We report that ectopic expression of a constitutively active mutant of p61Hck (p61Hck(ca)) triggered the de novo formation of actin-rich rings at the ventral face of the cells that we characterized as bona fide podosome rosettes, structures involved in cell migration. Their formation required the adaptor domains and the kinase activity of p61Hck, the integrity of microfilament and microtubule networks and concerted action of Cdc42, Rac and Rho. Podosome rosette formation was either abolished when p61Hck(ca) was readdressed from lysosomes to the cytosol or triggered when p59Hck(ca) was relocalized to lysosomes. Lysosomal markers were present at podosome rosettes. By stimulating exocytosis of p61Hck(ca) lysosomes with a calcium ionophore, the formation of podosome rosettes was enhanced. Interestingly, we confirm that, in human macrophages, Hck and lysosomal markers were present at podosomes which were spatially reorganized as clusters, a foregoing step to form rosettes, upon expression of p61Hck(ca). We propose that lysosomes, under the control of p61Hck, are involved in the biogenesis of podosomes, a key phenomenon in the migration of phagocytes.  相似文献   

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7.
Alantolactone, an allergenic sesquiterpene lactone, has recently been found to have significant antitumor effects on malignant tumor cells. Here, we investigated the potential effect of alantolactone on Bcr/Abl+ imatinib-sensitive and -resistant cells. Alantolactone treatment resulted in obvious apoptosis in both imatinib-sensitive and -resistant K562 cells, as shown by the increase in Annexin V-positive cells, caspase-3 activation, poly(ADP-ribose) polymerase-1 (PARP-1) cleavage and mitochondrial membrane potential collapse. Alantolactone significantly inhibited NF-κB-dependent reporter gene activity, decreased the DNA-binding activity of NF-ОκB, and blocked TNF-α-induced IκBα phosphorylation. Of interest, the oncogenic Bcr/Abl fusion protein but not its mRNA levels were quickly reduced upon alantolactone exposure in imatinib-sensitive and -resistant K562 cells. Bcr/Abl knockdown enhanced the apoptosis driven by alantolactone. Bcr/Abl protein reduction could not be reversed by the addition of proteasome or caspase-3 inhibitors. The overexpression of p65 inhibited alantolactone-induced apoptosis, whereas p65 or Bcr/Abl silencing enhanced its apoptotic-inducing effect. Furthermore, Bcr/Abl-transfected 32D cells showed more sensitivity to alantolactone than vector-transfected control cells, and the Bcr/Abl protein was depleted, as observed in K562 cells. Finally, alantolactone-induced apoptosis was also observed in primary CD34+ CML leukemic cells. Collectively, these findings suggest that alantolactone is a promising potent agent to fight against CML cells via the inhibition of the NF-κB signaling pathway and depletion of the Bcr/Abl protein.  相似文献   

8.
The bcr-abl oncogene plays a critical role in the pathogenesis of chronic myelogenous leukemia (CML). The fusion of Bcr sequences to Abl constitutively activates the Abl protein tyrosine kinase. We have recently shown that expression of Bcr-Abl in bone marrow cells by retroviral transduction efficiently induces in mice a myeloproliferative disease resembling human CML and that Abl kinase activity is essential for Bcr-Abl to induce a CML-like myeloproliferative disease. However, it is not known if activation of the Abl kinase alone is sufficient to induce a myeloproliferative disease. In this study, we examined the role of the Abl SH3 domain of Bcr-Abl in induction of myeloproliferative disease and tested whether c-Abl activated by SH3 deletion can induce a CML-like disease. We found that Bcr-Abl with an Abl SH3 deletion still induced a CML-like disease in mice. In contrast, c-Abl activated by SH3 deletion induced only lymphoid malignancies in mice and did not stimulate the growth of myeloid colonies from 5-fluorouracil-treated bone marrow cells in vitro. These results indicate that Bcr sequences in Bcr-Abl play additional roles in inducing myeloproliferative disease beyond simply activating the Abl kinase domain and that functions of the Abl SH3 domain are either not required or redundant in Bcr-Abl-induced myeloproliferative disease. The results also suggest that the type of hematological neoplasm induced by an abl oncogene is influenced not only by what type of hematopoietic cells the oncogene is targeted into but also by the intrinsic oncogenic properties of the particular abl oncogene. In addition, we found that DeltaSH3 c-Abl induced less activation of Akt and STAT5 than did Bcr-Abl, suggesting that activation of these pathways plays a critical role in inducing a CML-like disease.  相似文献   

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10.
The Bcr - Abl tyrosine kinase is responsible for the oncogenic phenotype observed in Philadelphia chromosome-positive leukemia and induces resistance to apoptotic cell death in a variety of cell types. Recent evidence supports the hypothesis that these two properties of Bcr - Abl are derived from cooperative but distinct signaling pathways. Phosphatidylinositol 3-kinase (PI3K), which has been suggested to associate with and become activated by Bcr - Abl, has been shown to be required for Bcr - Abl-mediated cell growth. Also, PI3K has been implicated in resistance to apoptosis induced by some growth factors. We therefore examined the role of PI 3-kinase in the anti-apoptotic effect of Bcr - Abl. First, we confirmed that expression of p185(bcr - abl) in HL-60 cells, which renders these cells resistant to apoptosis, induces tyrosine phosphorylation of the p85 subunit of PI3K. Consistent with this result, we observed a 20-fold increase in PI3K activity upon immunoprecipitation of tyrosine-phosphorylated proteins from cells expressing Bcr - Abl versus control cells. Nevertheless, treatment of HL-60.p185(bcr - abl) cells with wortmannin, a potent inhibitor of PI3K, eliminated PI3K activity but did not interfere with the resistance of these cells to apoptosis. Similar results were obtained with the CML line K562 and with the BaF3.p185 (bcr - abl) line. We conclude that while PI3K participates in the anti-apoptotic response mediated by some growth factors and also seems to be important for the growth of Bcr-Abl-positive cells, it does not play any role in Bcr - Abl-mediated resistance to apoptosis.  相似文献   

11.
The fusion protein Bcr–Abl, which is the molecular cause of chronic myelogenous leukemia (CML) interacts in multiple points with signaling pathways regulating the cellular adhesivity and cytoskeleton architecture and dynamics. We explored the effects of imatinib mesylate, an inhibitor of Bcr–Abl protein used in front‐line CML therapy, on the adhesivity of JURL‐MK1 cells to fibronectin and searched for underlying changes in the cell proteome. As imatinib induces apoptosis of JURL‐MK1 cells, we used three different caspase inhibitors to discriminate between direct consequences of Bcr–Abl inhibition and secondary changes related to the apoptosis. Imatinib treatment caused a transient increase in JURL‐MK1 cell adhesivity to fibronectin, possibly due to the switch off of Bcr–Abl activity. Subsequently, we observed a number of changes including a decrease in cell adhesivity, F‐actin decomposition, reduction of integrin β1, CD44, and paxillin expression levels and a marked increase in cofilin phophorylation at Ser3. These events were generally related to the proceeding apoptosis but they differed in their sensitivity to the individual caspase inhibitors. J. Cell. Biochem. 111: 1413–1425, 2010. © 2010 Wiley‐Liss, Inc.  相似文献   

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The Bcr–Abl oncoprotein is the cause of chronic myelogenous leukemia (CML). Crystal structure analysis suggests that Bcr30–63 is the core of the Bcr–Abl oligomerization interface for aberrant kinase activity; however, the precise role of other residues of Bcr1–72 excluding Bcr30–63 have not been evaluated. In this study, Bcr30–63 was named OD2 and other residues of Bcr1–72 were named OD1. Cytoplasmic transduction peptide (CTP) was used to carry molecules into cytoplasm. CTP-OD1 and CTP-OD2 fusion peptides were expressed from a cold-inducible expression system. Our results demonstrated that both fusion peptides could localize into the cytoplasm, specifically interact with the Bcr–Abl protein and further inhibit growth, induce apoptosis, and decrease the phosphorylation of Bcr–Abl in K562 cell lines. However, the viability of THP-1, a Bcr–Abl negative cell line, was unaffected. These results suggested that CTP-OD1 and CTP-OD2 may be an attractive therapeutic option to inhibit the activation of Bcr–Abl kinase in CML.  相似文献   

14.
15.
Bcr‐Abl is an oncogenic fusion protein which expression enhances tumorigenesis, and has been highly associated with chronic myeloid leukemia (CML). Acquired drug resistance in mutant Bcr‐Abl has enhanced pathogenesis with the use of single therapy agents such as nilotinib. Moreover, allosteric targeting has been identified to consequentially inhibit Bcr‐Abl activity, which led to the recent development of ABL‐001 (asciminib) that selectively binds the myristoyl pocket. Experimental studies have revealed that the combination of nilotinib and ABL‐001 induced a ‘bent’ conformation in the C‐terminal helix of Bcr‐Abl; a benchmark of inhibition, thereby exhibiting a greater potency in the treatment of CML, surmounting the setbacks of drug resistance, disease regression and relapse. Therefore, we report the first account of the dynamics and conformational analysis of oncogenic T334I Bcr‐Abl by dual targeting. Our findings revealed that unlike in the Bcr‐Abl‐Nilotinib complex, dual targeting by both inhibitors induced the bent conformation in the C‐terminal helix that varied with time. This was coupled with significant alteration in Bcr‐Abl stability, flexibility, and compactness and an overall structural re‐orientation inwards towards the hydrophobic core, which reduced the solvent‐exposed residues indicative of protein folding. This study will facilitate allosteric targeting and the design of more potent allosteric inhibitors for resistive target proteins in cancer.  相似文献   

16.
Chronic myeloid leukemia is a clonal multilineage myeloproliferative disease of stem cell origin characterized by the presence of the Bcr/Abl oncoprotein, a constitutively active tyrosine kinase. In previous studies, we have provided evidence that Bcr/Abl overexpression in leukemic cells increased their susceptibility to NK-mediated lysis by different mechanisms. In the present study, using UT-7/9 cells, a high level Bcr/Abl transfectant of UT-7 cells, we show that the treatment of Bcr/Abl target by imatinib mesylate (IM), a specific Abl tyrosine kinase inhibitor, hampers the formation of the NK/target immunological synapse. The main effect of IM involves an induction of surface GM1 ganglioside on Bcr/Abl transfectants that prevents the redistribution of MHC-related Ag molecules in lipid rafts upon interaction with NK cells. IM also affects cell surface glycosylation of targets, as assessed by binding of specific lectins resulting in the subsequent modulation of their binding to lectin type NK receptor, particularly NKG2D. In addition, we demonstrate that the tyrosine kinase activity repression results in a decrease of MHC-related Ags-A/B and UL-16-binding protein expression on Bcr/Abl transfectants UT-7/9. We show that NKG2D controls the NK-mediated lysis of UT-7/9 cells, and IM treatment inhibits this activating pathway. Taken together, our results show that the high expression of Bcr/Abl in leukemic cells controls the expression of NKG2D receptor ligands and membrane GM1 via a tyrosine kinase-dependent mechanism and that the modulation of these molecules by IM interferes with NK cell recognition and cytolysis of the transfectants.  相似文献   

17.
In Philadelphia chromosome-positive human leukemias, the c-abl proto-oncogene on chromosome 9 becomes fused to the bcr gene on chromosome 22, and chimeric Bcr-Abl proteins are produced. The fused Bcr sequences activate the tyrosine kinase, actin-binding, and transforming functions of Abl. Activation of the Abl transforming function has been shown to require two distinct domains of Bcr: domain 1 (Bcr amino acids 1 to 63) and domain 2 (Bcr amino acids 176 to 242). The amino acid sequence of domain 1 indicates that it may be a coiled-coil oligomerization domain. We show here that domain 1 of Bcr forms a homotetramer. Tetramerization of Bcr-Abl through Bcr domain 1 correlates with activation of the tyrosine kinase and F-actin-binding functions of Abl. Disruption of the coiled coil by insertional mutagenesis inactivates the oligomerization function as well as the ability of Bcr-Abl to transform Rat-1 fibroblasts or to abrogate interleukin-3 dependence in lymphoid cells. These results strongly suggest that Bcr-Abl oligomers are the active entities in transformation.  相似文献   

18.
Zhu J  Li Z  Zhang G  Meng K  Kuang W  Li J  Zhou X  Li R  Peng H  Dai C  Shen JK  Gong F  Xu Y  Liu S 《PloS one》2011,6(8):e23720

Purpose

To explore the effects of Icaritin on chronic myeloid leukemia (CML) cells and underlying mechanisms.

Method

CML cells were incubated with various concentration of Icaritin for 48 hours, the cell proliferation was analyzed by MTT and the apoptosis was assessed with Annexin V and Hoechst 33258 staining. Cell hemoglobinization was determined. Western blotting was used to evaluate the expressions of MAPK/ERK/JNK signal pathway and Jak-2/Phorpho-Stat3/Phorsph-Akt network-related protein. NOD-SCID nude mice were applied to demonstrate the anti-leukemia effect of Icaritin in vivo.

Results

Icaritin potently inhibited proliferation of K562 cells (IC50 was 8 µM) and primary CML cells (IC50 was 13.4 µM for CML-CP and 18 µM for CML-BC), induced CML cells apoptosis and promoted the erythroid differentiation of K562 cells with time-dependent manner. Furthermore, Icaritin was able to suppress the growth of primary CD34+ leukemia cells (CML) and Imatinib-resistant cells, and to induce apoptosis. In mouse leukemia model, Icaritin could prolong lifespan of NOD-SCID nude mice inoculated with K562 cells as effective as Imatinib without suppression of bone marrow. Icaritin could up-regulate phospho-JNK or phospho-C-Jun and down-regulate phospho-ERK, phospho-P-38, Jak-2, phospho-Stat3 and phospho-Akt expression with dose- or time-dependent manner. Icaritin had no influence both on c-Abl and phospho-c-Abl protein expression and mRNA levels of Bcr/Abl.

Conclusion

Icaritin from Chinese herb medicine may be a potential anti-CML agent with low adverse effect. The mechanism of anti-leukemia for Icaritin is involved in the regulation of Bcr/Abl downstream signaling. Icaritin may be useful for an alternative therapeutic choice of Imatinib-resistant forms of CML.  相似文献   

19.
Interleukin-6 (IL-6) initiates STAT3 signaling in plasma membrane rafts with the subsequent transit of Tyr-phosphorylated STAT3 (PY-STAT3) through the cytoplasmic compartment to the nucleus in association with accessory proteins. We initially identified caveolin-1 (cav-1) as a candidate STAT3-associated accessory protein due to its co-localization with STAT3 and PY-STAT3 in flotation raft fractions, and heat shock protein 90 (HSP90) due to its inclusion in cytosolic STAT3-containing 200-400-kDa complexes. Subsequent immunomagnetic bead pullout assays showed that STAT3, PY-STAT3, cav-1, and HSP90 interacted in plasma membrane and cytoplasmic complexes derived from uninduced and stimulated Hep3B cells. This was a general property of STAT3 in that these interactions were also observed in alveolar epithelial type II-like cells, lung fibroblasts, and pulmonary arterial endothelial cells. Exposure of Hep3B cells to the raft disrupter methyl-beta-cyclodextrin for 1-10 min followed by IL-6 stimulation for 15 min preferentially inhibited the appearance of PY-STAT3 in the cav-1-enriched sedimentable cytoplasmic fraction, suggesting that these complexes may represent a trafficking intermediate immediately downstream from the raft. Because IL-6 is known to function in the body in the context of fever, the possibility that HSP90 may help preserve IL-6-induced STAT3 signaling at elevated temperature was investigated. Geldanamycin, an HSP90 inhibitor, markedly inhibited IL-6-stimulated STAT3 signaling in Hep3B hepatocytes cultured overnight at 39.5 degrees C as evaluated by DNA-shift assays, trafficking of PY-STAT3 to the nucleus, cross-precipitation of HSP90 by anti-STAT3 polyclonal antibody, and reporter/luciferase construct experiments. Taken together, the data show that IL-6/raft/STAT3 signaling is a chaperoned pathway that involves cav-1 and HSP90 as accessory proteins and suggest a mechanism for the preservation of this signaling during fever.  相似文献   

20.
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