Bcr - Abl-mediated resistance to apoptosis is independent of PI 3-kinase activity

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.     

Synthesis of Bcl-2 in response to anthracycline treatment may contribute to an apoptosis-resistant phenotype in leukemic cell lines.

BACKGROUND: Some forms of chemoresistance in leukemia may start from failure of tumour cells to successfully undergo apoptosis and Bcl-2 may play a role in this defect. Therefore, we evaluated the Bcl-2 content and synthesis in relation with the apoptotic potential in leukemic cell lines after anthracycline treatment. METHODS: U937, HL60, and K562 cells and their drug resistant (DR) variants were treated with varying concentrations of Idarubicin (IDA). Apoptosis was evaluated by fluorescence microscopy after acridine orange staining. Bcl-2 and Bax content were evaluated either by flow cytometry after indirect immunolabelling or by Western blot. RESULTS: High Bcl-2 contents were not related to a poor ability to undergo apoptosis in U937, HL60, K562 and their DR variants. IDA induced a concentration-dependent increase in Bcl-2 content in all cell lines as long as they do not perform apoptosis. Enhanced Bcl-2 expression was inhibited by cycloheximide, actinomycin D, or antisense oligonucleotide directed against bcl-2 mRNA. Bcl-2 expression was also increased in the resistant U937 variant after serum deprivation or C2-ceramide treatment. The synthesis of Bcl-2 led to an increased Bcl-2/Bax ratio solely in the cells with an apoptosis-resistance phenotype. CONCLUSIONS: These data suggest that exposure to IDA induces Bcl-2 expression in leukemic cell lines, and that this mechanism could contribute to apoptosis resistance and participate in the acquisition of chemoresistance. They also confirm that the evolution of the Bcl-2/Bax ratio reflects apoptotic ability better than the steady state level of Bcl-2 expression.     

PTPROt inactivates the oncogenic fusion protein BCR/ABL and suppresses transformation of K562 cells

Chronic myelogenous leukemia is typified by constitutive activation of the c-abl kinase as a result of its fusion to the breakpoint cluster region (BCR). Because the truncated isoform of protein-tyrosine phosphatase receptor-type O (PTPROt) is specifically expressed in hematopoietic cells, we tested the possibility that it could potentially dephosphorylate and inactivate the fusion protein bcr/abl. Ectopic expression of PTPROt in the chronic myelogenous leukemia cell line K562 indeed resulted in hypophosphorylation of bcr/abl and reduced phosphorylation of its downstream targets CrkL and Stat5, confirming that PTPROt could inactivate the function of bcr/abl. Furthermore, the expression of catalytically active PTPROt in K562 cells caused reduced proliferation, delayed transition from G0/G1 to S phase, loss of anchorage independent growth, inhibition of ex vivo tumor growth, and increased their susceptibility to apoptosis, affirming that this tyrosine phosphatase can revert the transformation potential of bcr/abl. Additionally, the catalytically inactive PTPROt acted as a trapping mutant that was also able to inhibit anchorage independence and facilitate apoptosis of K562 cells. The inhibitory action of PTPROt on bcr/abl was also confirmed in a murine myeloid cell line overexpressing bcr/abl. PTPROt expression was suppressed in K562 cells and was relieved upon treatment of the cells with 5-azacytidine, an inhibitor of DNA methyltransferase, with concomitant hypomethylation of the PTPRO CpG island. These data demonstrate that suppression of PTPROt by promoter methylation could contribute to the augmented phosphorylation and constitutive activity of its substrate bcr/abl and provide a potentially significant molecular therapeutic target for bcr/abl-positive leukemia.     

bcr／abl反义RNA片段对Ph＋人白血病细胞系分化的影响

为探讨Ph 白血病细胞中bcr/ab1表达的降低对细胞分化的影响,本文利用脂质体介导的方法将表达bcr/ab1融合区反义RNA片段的重组质粒导入K562和BV173细胞系,以Southern和Northern杂交以及筑巢式逆转录酶-聚合酶链反应技术证实外源DNA已在靶细胞内整合与表达,且bcr/ab1反义RNA片段的表达使内源性bcr/ab1 mRNA表达水平降低。未观察到表达bcr/ab1反义RNA片段的K562细胞出现粒单系或红系分化,重组质粒转染前后BV173细胞表面的CD10和CD34抗原以及K562细胞表面的CD13和CD33抗原表达无明显变化,提示bcr/ab1反义RNA片段抑制增殖的同时未引发分化与成熟。     

c‐Jun blocks cell differentiation but not growth inhibition or apoptosis of chronic myelogenous leukemia cells induced by STI571 and by histone deacetylase inhibitors

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.     

Alantolactone induces apoptosis in chronic myelogenous leukemia sensitive or resistant to imatinib through NF-κB inhibition and Bcr/Abl protein deletion

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.     

Lineage-related sensitivity to apoptosis in human tumor cells undergoing hyperthermia

In this study the role of hyperthermia as an apoptotic trigger was analyzed in four human tumor cell lines: HL60, U937, DOHH₂, and K562. These cell lines were chosen because of their well known and different expression of bcl-2 and bcr-abl genes, the expression of which is known to be an antiapoptotic condition. HL60 and U937 cells were strongly susceptible to heat exposure, while DOHH₂ cells were weakly sensitive and K562 cells were resistant, thus suggesting a possible gene involvement in this type of programmed cell death. The mechanisms underlying this apoptosis were investigated by flow cytometry, agarose gel electrophoresis, and light and electron microscopy. A subdiploid peak and DNA laddering, both of which are parameters specifically correlated to programmed cell death, were present in HL60 and U937 and, even if less evident, in DOHH₂ cells undergoing hyperthermic treatment, and were absent in K562 cells. In addition, DNA single-strand cleavage was revealed by in situ nick translation, observed by confocal microscopy. Morphological analysis confirmed these results and revealed the typical chromatin changes, followed by the appearance of micronuclei and apoptotic bodies. Accepted: 26 November 1999     

带有蛋白转导结构域的Bcr/Abl癌蛋白片段的表达及其跨膜转运

HIV 1编码的反式激活蛋白TAT具有将细胞外蛋白转导进入细胞的基序 ,称为蛋白转导结构域 (PTD) .为研究PTD介导的PTD Bcr Abl融合蛋白的跨膜转运 ,合成了编码PTD的基因片段 ,并与PCR扩增的慢性粒细胞白血病癌蛋白bcr abl基因片段融合 .在大肠杆菌中表达纯化了融合蛋白 ,将纯化的融合蛋白加入培养的HL60细胞和C2C12细胞后 ,发现PTD基序可以介导Bcr Abl蛋白自由从细胞外跨膜转导进入细胞内 .研究结果可能为用外源蛋白负载 (loading)免疫活性细胞如抗原提呈细胞提供新的途径 .     

A Bcr/Abl-independent, Lyn-dependent form of imatinib mesylate (STI-571) resistance is associated with altered expression of Bcl-2

The relationship between the Src kinase Lyn and Bcl-2 expression was examined in chronic myelogenous leukemia cells (K562 and LAMA84) displaying a Bcr/Abl-independent form of imatinib mesylate resistance. K562-R and LAMA-R cells that were markedly resistant to induction of mitochondrial dysfunction (e.g. loss of mitochondrial membrane potential, Bax translocation, cytochrome c, and apoptosis-inducing factor release) and apoptosis by imatinib mesylate exhibited a pronounced reduction in expression of Bcr/Abl, Bcl-x(L), and STAT5 but a striking increase in levels of activated Lyn. Whereas basal expression of Bcl-2 protein was very low in parental cells, imatinib-resistant cells displayed a marked increase in Bcl-2 mRNA and/or protein levels. Treatment of LAMA-R cells with the Src kinase inhibitor PP2 significantly reduced Lyn activation as well as Bcl-2 mRNA and protein levels. Transient or stable transfection of LAMA84 or K562 cells with a constitutively active Lyn (Y508F), but not with a kinase-dead mutant (K275D), significantly increased Bcl-2 protein expression and protected cells from lethality of imatinib mesylate. Ectopic expression of Bcl-2 protected K562 and LAMA84 cells from imatinib mesylate- and PP2-mediated lethality. Conversely, interference with Bcl-2 function by co-administration of the small molecule Bcl-2 inhibitor HA14-1 or down-regulation of Bcl-2 expression by small interfering RNA or antisense strategies significantly increased mitochondrial dysfunction and apoptosis induced by imatinib mesylate and the topoisomerase inhibitor VP-16 in LAMA-R cells. In marked contrast, these interventions had little effect in parental LAMA84 cells that display low basal levels of Bcl-2. Together, these findings indicate that activation of Lyn in leukemia cells displaying a Bcr/Abl-independent form of imatinib mesylate resistance plays a functional role in Bcl-2 up-regulation and provide a theoretical basis for the development of therapeutic strategies targeting Bcl-2 in such a setting.     

Tyrosine kinase modulation of protein kinase C activity regulates G protein-linked Ca2+ signaling in leukemic hematopoietic cells

We have used a recombinant mouse pre-B cell line (TonB210.1, expressing Bcr/Abl under the control of an inducible promoter) and several human leukemia cell lines to study the effect of high tyrosine kinase activity on G protein-coupled receptor (GPCR) agonist-stimulated cellular Ca²⁺ release and store-operated Ca²⁺ entry (SOCE). After induction of Bcr/Abl expression, GPCR-linked SOCE increased. The effect was reverted in the presence of the specific Abl inhibitor imatinib (1 μM) and the Src inhibitor PP2 (10 μM). In leukemic cell lines constitutively expressing high tyrosine kinase activity, Ca²⁺ transients were reduced by imatinib and/or PP2. Ca²⁺ transients were enhanced by specific inhibitors of PKC subtypes and this effect was amplified by tyrosine kinase inhibition in Bcr/Abl expressing TonB210.1 and K562 cells. Under all conditions Ca²⁺ transients were essentially blocked by the PKC activator PMA. In Bcr/Abl expressing (but not in native) TonB210.1 cells, tyrosine kinase inhibitors enhanced PKCα catalytic activity and PKCα co-immunoprecipitated with Bcr/Abl.Unlike native TonB210.1 cells, Bcr/Abl expressing cells showed a high rate of cell death if Ca²⁺ influx was reduced by complexing extracellular Ca²⁺ with BAPTA. Our data suggest that tonic inhibition of PKC represents a mechanism by which high tyrosine kinase activity can enhance cellular Ca²⁺ transients and thus exert profound effects on the proliferation, apoptosis and chemotaxis of leukemic cells.     

ALA-PDT对多种白血病细胞破坏作用的实验研究

目的:本研究主要观察相同条件的5 氨基乙酰丙酸的光动力疗法(ALA PDT)对不同种类的白血病细胞株生存率的影响,以及细胞死亡类型的差异。方法:选择5种白血病细胞(K562、HL60、U937、MOLT 4和6T CEM)进行比较。用MTT法检测细胞的存活率,用AnnexinV FITC PI双染法检测细胞不同死亡类型的比例。结果:不同细胞对相同条件的ALA PDT的敏感程度不同,依次为U937相似文献   

TCP1 increases drug resistance in acute myeloid leukemia by suppressing autophagy via activating AKT/mTOR signaling

T-complex protein 1 (TCP1) is one of the subunits of chaperonin-containing T complex (CCT), which is involved in protein folding, cell proliferation, apoptosis, cell cycle regulation, and drug resistance. Investigations have demonstrated that TCP1 is a factor being responsible for drug resistance in breast and ovarian cancer. However, the TCP1 role in acute myeloid leukemia (AML) remains elusive. In the present study, we discovered that the TCP1 expression was elevated in AML patients and high TCP1 expression was associated with low complete response rate along with poor overall survival. TCP1 showed higher expression in the adriamycin-resistant leukemia cell line HL60/A and K562/A, comparing to their respective parent cells HL60 and K562 cells. TCP1 inhibition suppressed drug resistance in HL60/A and K562/A cells, whereas TCP1 overexpression in HL60 cells incremented drug resistance, both in vitro and in vivo. Mechanistic investigations revealed that TCP1 inhibited autophagy and adriamycin-induced cell apoptosis, and TCP1-mediated autophagy inhibition conferred resistance to adriamycin-induced cell apoptosis. Furthermore, TCP1 interacted with AKT and mTOR to activate AKT/mTOR signaling, which negatively regulates apoptosis and autophagy. Pharmacological inhibition of AKT/mTOR signal particularly activated autophagy and resensitized TCP1-overexpressing HL60 cells to adriamycin. These findings identify a novel role of TCP1 regarding drug resistance in AML, which advise a new strategy for overcoming drug resistance in AML through targeting TCP1/AKT/mTOR signaling pathway.Subject terms: Prognostic markers, Acute myeloid leukaemia     

Downregulation of Bcr-Abl in K562 cells restores susceptibility to apoptosis: characterization of the apoptotic death

We examined the susceptibility of a variety of human leukemic cell lines to the induction of apoptosis. K562, a chronic myelogenous leukemic cell line which expresses the bcr-abl fusion gene, was found to be extremely resistant to apoptosis, irrespective of the inducing agent. This resistance can be attributed to the deregulated Abl kinase activity of bcr-abl, as downregulation of its expression using antisense oligodeoxynucleotides targeted to the beginning of the abl sequence in this chimeric gene rendered these cells susceptible to cytotoxic drug-induced apoptosis. Examination of the morphological and biochemical features of apoptosis in K562 cells revealed the typical membrane blebbing and chromatin condensation associated with this form of cell death. In situ TdT-mediated end labeling of the DNA revealed the presence of strand breaks in the treated cells and field inversion gel electrophoresis revealed the presence of large 10-50 kb fragments. However there was an absence of oligonucleosomal DNA fragmentation, whether or not Bcr-Abl was expressed. Thus, while inhibition of expression of Bcr-Abl renders K562 cells susceptible to apoptosis, the absence of oligonucleosomal DNA fragmentation in these cells is independent of the function of this molecule.     

BCR3/ABL2核酶的设计、构建及对K562细胞增殖与集落形成的抑制作用和凋亡诱导作用

利用计算机模拟设计合成了针对 K5 62细胞致癌融合 bcr3/abl2 m RNA的锤头状核酶 .该核酶以融合点附近 UUC为识别切割三联体 ,在核酶的 3′端增加一段 T7噬菌体终止子序列 .用基因克隆结合体外转录的方法 ,肯定了核酶的体外切割活性 .进而将核酶基因克隆到 p CEP4真核细胞高效表达载体上 ,利用脂质体 Lipofectin AMINE介导的转染技术将核酶与核酶基因导入靶细胞 ,从抑制靶细胞 K5 62的增殖与集落形成及引起靶细胞凋亡等方面验证了核酶在细胞水平上对融合基因 bcr3/abl2 m RNA的特异切割作用 ,并观察到了 T7噬菌体终止子序列对核酶切割效率的增强影响 .     

Comparative study of DNA damage, cell cycle and apoptosis in human K562 and CCRF-CEM leukemia cells: role of BCR/ABL in therapeutic resistance

The Philadelphia translocation t(9;22) resulting in the bcr/abl fusion gene is the pathogenic principle of almost 95% of human chronic myelogenous leukemia (CML). Imatinib mesylate (STI571) is a specific inhibitor of the BCR/ABL fusion tyrosine kinase that exhibits potent antileukemic effects in CML. BCR/ABL-positive K562 and -negative CCRF-CEM human leukemia cells were investigated. MTT survival assay and clonogenic test of the cell proliferation ability were used to estimate resistance against idarubicin. DNA damage after cell treatment with the drug at the concentrations from 0.001 to 3 microM with or without STI571 pre-treatment were examined by the alkaline comet assay. We found that the level of DNA damages was lower in K562 cells after STI571 pre-treatment. It is suggested that BCR/ABL activity may promote genomic instability, moreover K562 cells were found to be resistant to the drug treatment. Further, we provided evidence of apoptosis inhibition in BCR/ABL-positive cells using caspase-3 activity colorimetric assay and DAPI nuclear staining for chromatin condensation. We suggest that these processes associated with cell cycle arrest in G2/M checkpoint detected in K562 BCR/ABL-positive compared to CCRF-CEM cells without BCR/ABL expression might promote clone selection resistance to drug treatment.     

RNAi干扰Shp2基因对K562细胞增殖的抑制效应

通过RNA干扰技术沉默蛋白酪氨酸磷酸酶跏2基因,构建重纽质粒,采用实时荧光定量PCR（Real-timePCR）法、Westernblot、MTT法、流式细胞术（FCM）分别检测转染后K562细胞中bcr／abl融合基因、bcr／abl融合蛋白的表达水平、细胞生长增殖变化及细胞凋亡率,探索该基因的沉默表达对K562N胞的抑制作用。结果表明,该实验成功构建出能明显下调Shp2基因及其蛋白表达的重组质粒,转染K562细胞后,其bcr／abl融合基因及融合蛋白水平均明显降低、K562细胞增殖活力被抑制（P〈0．05）、细胞凋亡水平上升（P〈0．05）。与对照组相比,其差异具有统计学意义。提示,重组质粒可显著降低bcr／abl基因及蛋白的表达,抑制K562细胞的生物学效应,表明在细胞水平沉默Shp2有可能成为治疗慢性粒细胞白血病的有效靶点。     

Cell-penetrating fusion peptides OD1 and OD2 interact with Bcr–Abl and influence the growth and apoptosis of K562 cells

The Bcr–Abl oncoprotein is the cause of chronic myelogenous leukemia (CML). Crystal structure analysis suggests that Bcr_30–63 is the core of the Bcr–Abl oligomerization interface for aberrant kinase activity; however, the precise role of other residues of Bcr_1–72 excluding Bcr_30–63 have not been evaluated. In this study, Bcr_30–63 was named OD2 and other residues of Bcr_1–72 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.     

人白血病细胞系P2X7受体的表达及其介导的细胞内钙浓度变化

采用半定量RT-PCR和流式细胞术,在基因和蛋白水平研究了白血病细胞系U937、HL60和Ramos细胞P2X7受体的表达。荧光染料Fura-2／AM负载后,用荧光分光光度计测定P2X7受体激动剂三磷酸腺苷(adenosine 5′-triphosphate,ATP)和苯甲酰苯甲酸ATP(2′,3′-O-(4-benzoyl)benzoyl-ATP,BzATP)刺激前后细胞内钙离子浓度的变化,以确认其功能。结果表明：U937和HL60细胞系表达P2X7受体的mRNA和蛋白,Ramos不表达;在激动剂的刺激下,可引发U937和HL60细胞胞内钙浓度的显著升高,但对Ramos没有作用。当去除胞外钙离子时,ATP和BzATP刺激均不能引起U937和HL60细胞胞内钙离子浓度的升高。提示U937和HL60细胞表达P2X7受体的基因和功能蛋白,Ramos细胞则不表达该受体。