Proteomics Study of Benzene Metabolite Hydroquinone Induced Hematotoxicity in K562 Cells

Objective Hydroquinone(HQ),one of the phenolic metabolites of benzene,is widely recognized as an important participant in benzene-induced hematotoxicity.However,there are few relevant proteomics in HQ-induced hematotoxicity and the mechanism hasn’t been fully understood yet.Methods In this study,we treated K562 cells with 40μmol/L HQ for 72 h,examined and validated protein expression changes by Label-free proteomic analysis and Parallel reaction monitoring(PRM),and performed bioinformatics analysis to identify interaction networks.Results One hundred and eighty-seven upregulated differentially expressed proteins(DEPs)and 279 downregulated DEPs were identified in HQ-exposed K562 cells,which were involved in neutrophilmediated immunity,blood microparticle,and other GO terms,as well as the lysosome,metabolic,cell cycle,and cellular senescence-related pathways.Focusing on the 23 DEGs and 5 DEPs in erythroid differentiation-related pathways,we constructed the network of protein interactions and determined 6 DEPs(STAT1,STAT3,CASP3,KIT,STAT5B,and VEGFA)as main hub proteins with the most interactions,among which STATs made a central impact and may be potential biomarkers of HQ-induced hematotoxicity.Conclusion Our work reinforced the use of proteomics and bioinformatic approaches to advance knowledge on molecular mechanisms of HQ-induced hematotoxicity at the protein level and provide a valuable basis for further clarification.

Effect on Proliferation and Erythroid Differentiation of K562 Cells by IER3IP1-Knockdown

Objective： To investigate the effect on erythroid differentiation and proliferation of K562 cells by IER3IP1-knockdown with RNA interference targeting at IER3IP1 gene. Methods： The shRNA eukaryotic expression vectors targeting at IER3IP1 gene were designed and constructed. Inhibitory effect was detected by semiquantitative RT-PCR. The impacts on K562 cells by RNAi were studied by MTT assay, benzidine staining, light microscope and electron microscopy observation, cell cycles analysis, colony formation assay and RT-PCR. The expressions of erythroid differentiation correlated genes Gfi-lB, GPA and 7-globin were studied after being exposed to 0.2μmol/L imatinib for two days. Results： The shRNA eukaryotic expression vectors were successfully constructed. The expression of IER3IP1 gene was significantly inhibited with an inhibition efficiency of 76% （P〈0.01）. Compared with the control groups, bcr/abl mRNA level was increased in K562/shRNA-IER3IP1 group （P〈0.01）. The proliferation ability was enhanced （P〈0.01） and the proportion of cells at G0/G1 phase decreased but S phase increased （P〈0.05） in K562/shRNA-IER3IP1 group. Under electron microscopy, the amount of euchromatin increased but heterochromatin decreased. There were structural abnomalities in endocytoplasmic reticulum and clusters of vesicular. The percentage of benzidine staining positive cells and mRNA expression levels of Gfi-1B, GPA and γ-globin were all decreased after being exposed to 0.2 μmol/L STI571 for two days in K562/shRNA-IER3IP1 group （P〈0.01）. Conclusion： IER3IP1-knockdown can hinder the erythroid differentiation and elevate the proliferation level of K562 cells. IER3IP1 may play a role in erythroid differentiation and proliferation of K562 cells.

Effect of Hydroxyapatitc Nanoparticles on K562 Cells in vitro

Stable and single-dispersed hydroxyapatite （HAP） nanoparticles were synthesized with ultrasonic-assisted method. HAP nanoparticles were characterized by dynamic light scattering, XRD （X-ray diffraction） and TEM （Transmission Electron Microscopy）. The effect of HAP nanoparticles on the K562 human myelogenous leukemia cell line was investigated by MTT assay and cell count test, and the mechanism was studied through the changes of cell cycle and ultrastructure. The results showed that HAP nanoparticles inhibited the proliferation of K562 cells dramatically in vitro. HAP nanoparticles entered the cytoplasm of K562 cells and the cells were arrested at G/M phase, thus, the cells died directly.

Lethal Effect of Benzene Nitrogen Mustard Glucoside Derivate on K562 Cells

A new synthesized benzene nitrogen mustard was converted into glycosyl donor-trichloroacetimidate that was glycosylated with p-nitrophenol（glycosyl donors） to form β-lactosyl p-nitrobenzene under the protection of acetyl in a stereoselective manner, was prepared and evaluated for its cytotoxicity towards cultured K562 cell line. Methylthiazoy tetrazolium（MTT） assay, transmission electron microscopy（TEM）, flow cytometry（FCM） and immunohistochemistry were utilized to explore the mechanisms of how the compound arrests the growth of HCT-T cells. This new synthesed benzene nitrogen mustard glucoside derivate（BNMGD） presented a lower toxicity to normal cells, but is significantly more toxic to K562 cells compared with nitrogen mustard, meanwhile it can induce the apoptosis of K562 cells. These results indicate that the new synthesized BNMGD can inhibit the growth of K562 cells and induce the apoptosis, and its cytotoxicity towards cultured K562 cell line is much more effective than that of nitrogen mustard.

Zeylenone promotes apoptosis of chronic myelogenous leukemia-derived K562 cells by a mechanism involving Jak2 and src kinase

OBJECTIVE The present study was designed to investigate anticancer effect of zeylenone(Zey)on K562 cells derived from chronic myelogenous leukemia(CML)both in vitro and in vivo,followed by exploring the underlying mechanisms.METHODS Initially,the effects of Zey on cel viability,proliferation,and apoptosis were measured in K562 cells by MTT,soft agar assay,AO/EB staining,hoechst 33258 staining and flow cytometric analysis after they were treated with Zey for indicated time,the involving signaling pathways were then investigated by JC-1,real-time quantitative polymerase chain reaction(RT-q PCR),Western blotting and immunofluorescence analysis.Furthermore,the in vivo anti-tumoractivity of Zey was assessed with nude xenografts and the involving mechanism was confirmed by immunohistochemical(IHC)and histopathological analysis.RESULTS We identified that Zey dose-dependently decreased cell viability,colony formation and expression of Proliferating Cell Nuclear Antigen(PCNA),and significantly induced K562 cell apoptosis via regulating Bcl-2 family members,decreasing mitochondrial transmembrane potential,and activating caspase-3,caspase-9,and caspase-8(P<0.05 or P<0.01).Further study revealed that Zey significantly inhibited phosphorylation of Jak2 and Src and downregulated their downstream proteins,including stat3,PI3K/AKT/m TOR,and ERK1/2 signaling pathways(P<0.05 or P<0.01).Zey also suppressed tumor growth with low toxicity in mouse xenograft model of K562cells through decreasing expression of Jak2 and Src.CONCLUSION Our data demonstrated that Zey substantially suppressed K562 cells both in vitro and in vivo through Jak2 and Src pathways.These findings suggest the potential of Zey as an effective anticancer agent in CML treatment.

Suppression of Amino Acid Transporter LAT3 Expression on Proliferation of K562 Cells

The activity of the mTOR pathway is frequently increased in acute myeloid leukemia, and is tightly related with cellular proliferation. Leucine is tightly linked to the mTOR pathway and can acti- vate it, thereby stimulating cellular proliferation. LAT3 is a major transporter for leucine, and suppres- sion of its expression can reduce cell proliferation. Here, we show that suppression of LAT3 expression can reduce proliferation of the acute leukemia cell line, K562. We investigated the mRNA and protein expression of LAT3 in several leukemia cell lines and normal peripheral blood mononuclear cells （PBMNCs） using RT-PCR and Western blotting. We also evaluated cell viability using a methyl thia- zolyl tetrazolium （MTT） assay after blocking LAT3 expression with either shRNA targeted to LAT3 or a small molecular inhibitor BCH （2-aminobicyclo-（2,2,1）-heptane-2-carboxylic acid）. LAT3 mRNA and protein expression was detected in leukemia cell lines, but not in normal PBMNCs. Using K562 cells, it was found that cellular proliferation and mTOR pathway activity were significantly reduced when LAT3 was blocked with either shRNA or BCH. Our results suggest that leukemia cell proliferation can be sig- nificantly suppressed by blocking LAT3. This finding may lead to a new strategy to develop clinical therapy for the treatment of acute myeloid leukemia.

INDEPENDENT AND SYNERGIC INHIBITION OF DIPYRIDAMOLE AND RADIATION ON K562-AND K562/ADM CELL LINES IN VITRO

It is first demonstrated that dipyridamole (DP) and radiation were capable of significantly inhibiting, independently and synerglcally, clonogenlc growth in the two kinds of K562 cell lines, adriamycin (ADM) -sensitive and ADM- resistant. DP or radiation alone Increased clonogenlc Inhibition rate (CIR) in the two kinds of cell lines in a dose- dependent fashion. DP potentiated radiosensitivity and radiation increased inhibition of DP in the two kinds of cell lines. K562/ ADM cell lines were higher sensitive to DP. radiation and combination of them than K562 cell lines (P<0. 01). There was stronger synergic inhibition of clonogenlc growth in the two kinds of cell lines when pretreated with DP than when posttreated with DP (P<0. 01).

Expression of Histone H2AX Phosphorylation and Its Potential to Modulate Adriamycin Resistance in K562/A02 Cell Line

DNA repair processes play a role in the development of drug resistance which represents a huge obstacle to leukemia chemotherapy. Histone H2AX phosphorylation （ser139） （γH2AX） occurs rapidly at the onset of DNA double strand break （DSB） and is critical to the regulation of DSB repair. If DNA repair is successful, cells exposed to anti-neoplastic drugs will keep entering the cycle and develop resistance to the drugs. In this study, we investigated whether γH2AX can be used as an indicator of tumor chemosensitivity and a potential target for enhancing chemotherapy. K562 and multi-drug resistant cell line K562/A02 were exposed to adriamycin （ADR） and γH2AX formed. Flow cytometry revealed that percentage of cells expressing γH2AX was increased in a dose-dependent manner and the percentage of K562/A02 cells was lower than that of K562 cells when treated with the same concentration of ADR. In order to test the potential of γH2AX to reverse drug resistance, K562/A02 cells were treated with PI3K inhibitor LY294002. It was found that LY249002 decreased ADR-induced γH2AX expression and increased the sensitivity of K562/A02 cells to ADR. Additionally, the single-cell gel electrophoresis assay and the Western blotting showed that LY249002 enhanced DSBs and decreased the expression of repair factor BRCA1. These results illustrate chemosensitivity can partly be measured by detecting γH2AX and drug resistance can be reversed by inhibiting γH2AX.

Reversion of Multidrug-Resistance by Proteasome Inhibitor Bortezomib in K562/DNR Cell Line

Objective：To observe the reversion of multi-drug resistance by proteasome inhibitor bortezomib in K562/DNR cell line and to analyze the possible mechanism of reversion of multidrug-resistance.Methods：MTT method was used to determine the drug resistance of K562/DNR cells and the cellular toxicity of bortezomib.K562/DNR cells were cultured for 12 hours,24 hours and 36 hours with 100 μg/ml DNR only or plus 4 μg/L bortezomib.The expressions of NF-κB,IκB and P-gp of K562/DNR were detected with Western blot method,the activity of NF-κB was tested by ELISA method and the apoptosis rate was observed in each group respectively.Results：The IC50 of DNR on cells of K562/S and K562/DNR groups were 1.16 μg/ml and 50.43 μg/mL,respectively.The drug-resistant fold was 43.47.The IC10 of PS-341 on Cell strain K562/DNR was 4 μg/L.Therefore,4 μg/L was selected as the concentration for PS-341 to reverse drug-resistance in this study.DNR induced down-regulation of IκB expression,up-regulation of NF-κB and P-gp expression.After treatment with PS-341,a proteasome inhibitor,the IκB degradation was inhibited,IκB expression increased,NF-κB and P-gp expression decreased in a time dependent manner.Compared to DNR group,the NF-κB p65 activity of DNR＋PS-341 group was decreased.Compared to corresponding DNR group,DNR induced apoptosis rate increases after addition of PS-341 in a time dependent manner.Conclusion：Proteasome inhibitor bortezomib can convert the leukemia cell drug resistance.The mechanism may be that bortezomib decreases the degradation of IκB and the expression of NF-κB and P-gp,therefore induces the apoptosis of multi-drug resistant cells.

Study of the mechanism on the apoptosis induced in Human leukemia cell line K562 by the combination of indole-3-acetic acid and horseradish peroxidase

Objective To investigate the mechanisms of apoptosis induced in Human leukemia cell line K562 by the combination of indole-3-acetic acid and horseradish peroxidase.Methods Human leukemia cell line K562 were exposed to indole-3-acetic acid(IAA) at 20,40,60,80 or 100mol/L and horseradish peroxidase(HRP) at 1.2g/mL for varying times.MTT assay was applied to detect the cell proliferation.Flow cytometry was performed to detect the arrest of cell cycle.Terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling(TUNEL) assay was used to measure apoptosis.2,7-dichlorofluorescin diacetate(DCFH-DA) uptake was measured to determine free radical by confocal microscope.Content of malondiadehyde(MDA) and activity of superoxide dismutase(SOD) were measured by biochemical methods.Results IAA/HRP initiated growth inhibition of K562 cells in a dose-and time-dependent manner.Flow cytometry revealed that cell cycle arrested at G_1/G_0 after 24 hours treatment.After 72 hours treatment,apoptotic rate of 100 mol/L IAA group increased to 43.9%,which was 5 times that of control(P<0.01).Content of MDA and activity of SOD increased respectively in treatments compared with control.Meanwhile,IAA/HRP stimulated the formation of free radical,which was increased by IAA concentration-dependently.Conclusion The combination of IAA and HRP can inhibit the growth of Human leukemia cell line K562 in vitro by inducing apoptosis which is associated with the increase of free radical.The combination of IAA and HRP might be a promising chemopreventive and chemotherapeutic agent against human leukemia.

EFFECT OF BcL-2 ANTISENSE DRUG WITH DIFFERENT STRUCTURE ON THE BIOLOGICAL FUNCTION OF K562 CELLS

Objective: To study the differences and similarities of the antisense drugs with different structures on the biological functions of K562 cells. Methods: Cytotoxic effects were measured by use of a cell viability assay. Flow cytometric analysis and agarose gel electrophoresis of DNA fragmentation were also performed. The expression level of protein was assayed by immunofluorescence using fluoresce isothiocyanate label. Results: PNA targeting the coding region of the Bcl-2 messenger RNA could effectively inhibit K562 cell viability, down-regulate the synthesis of the Bcl-2 protein and increase cell apoptosis. By 72 h after the Bcl-2 antisense PNA treatment, K562 cells showed more reduction in the level of Bcl-2 protein compared with cells treated with the antisense ODN. After treatment with 10 μmol/L of Bcl-2 antisense PNA or antisense ODN for 72 h, apoptotic rates of K562 cells were 13.15±1.13 and 11.72±1.12, respectively. Furthermore, there was significant difference in the percentage of apoptotic cells between antisense PNA group and antisense ODN group. Conclusion: The results suggest that antisense PNA targeting the coding region of Bcl-2 mRNA has better antisense effects than the antisense oligonucleotides on inducing apoptosis of K562 cells. Key words Bcl-2 - Antisense peptide nucleic acid - Antisense oligonucleotide - K562 cells - Apoptosis CLC number Q255 Foundation item: This work was supported by the Key Foundation of Science & Technology Program of Guangzhou (No.2001-Z-037-01), and the Nature Science Key Foundation of Guangdong Province (No. 021195).Biography: LEI Xiao-yong(1970–), male, associate professor, doctor of medicine, Institute of Pharmacy and Pharmacology, Nanhua University, majors in tumor pharmacology.

Anti-cancer Effects of Deguelin on Human Leukemia K562 and K562/ADM Cells In Vitro

In order to investigate the anti-cancer effects of deguelin and on K562 and K562/ADM cells in vitro and the underlying molecular mechanism and compare the cytotoxicity of deguelin on K562, K562/ADM cells and human peripheral blood mononuclear cells （PBMCs）. The effects of deguelin on cell proliferation were assessed by MTT assay. Apoptosis were detected by Annexin V/PI double-labeled cytometry. The effects of deguelin on the cell cycle were studied by a propidium iodide method. Our study showed that deguelin inhibited the proliferation of K562 cell and K562/ADM cell in a time- and dose-dependent manner and had minimal effects on normal human peripheral blood mononuclear cells. The ratio of IC50 value of deguelin of 24 h on K562/ADM cells to K562 cells was only 1.27, which was significantly lower than the ratio of IC50 value of ADM （higher than 20）. Deguelin could induce apoptosis of K562 cells and K562/ADM cells. K562 cells were arrested at G2/M phase while K562/ADM cells were arrested at G0/G~ phase. Our results suggested that deguelin was a novel anti-leukemia agents with high efficacy and low toxicity and it is also a promising agent for reversing drug resistance.

The Difference of Sensitivity between BXPC-3 and K562 Cells by Treatments with Combination of Indole-3-acetic Acid and Horseradish Peroxidase

The difference of sensitivity to indole- 3-acetic acid （ IAA ） combined with horseradish peroxidase （HRP） in K562 and BXPC- 3 cells was investigated. The cell proliferation was determined by MTF assay. The cell cycle and apoptosis of K562 and BXPC-3 cells were examined by a fluorescence flow cytometer （FCM） and terminal deoxynacleotidyl transferase-mediated dUTP nick-end labeling （TUNEL） respectively. The experimental results show that IAA and HRP could inhibit BXPC- 3 cell proliferation greatly compared with K562 cell during the first 48 h . The cell cycle was arrested predominantly at G2/ M phase in K562 and BXPC- 3 cells. The cell apoptosis of K562 and BXPC- 3 was induced by IAA/ HRP. There was a significant difference between the two cell lines since BXPC-3 cells were more sensitive than K562 cells by treatments with combination of IAA and HRP.

Antitumor Effect of Betulinic Acid on Human Acute Leukemia K562 Cells in vitro

The effects of betulinic acid (BA), a pentacyclic lupane-type triterpene, on the cell viability, cell cycle and apoptosis in human leukemia K562 cells were investigated. The effects of BA on the growth of K562 cells were studied by MTT assay. Apoptosis was assayed through Annexin V/propidium iodide (PI) double-labeled cytometry. The effects of BA on the cell cycle of K562 cells were studied by a PI method. The expression of Bax and capase-3 was detected by using Western blot. The results showed that BA was cytotoxic to K562 cells with an IC50 of 21.26 μg/mL at 24 h. After treating K562 cells with 10 μg/mL BA for 72 h, the number of cells was reduced by 58%. BA induced apoptosis of K562 cells in a time-and dose-dependent manner. The proportion of cells in G0/G1 and G2/M phases was decreased and that in S phase was increased after K562 cells were treated with BA for 24 h. BA treatment also increased the expression of the pro-apoptotic proteins Bax and caspase-3. It suggested that BA could inhibit the proliferation of K562 cells through the induction of cell cycle arrest and apoptosis. The antitumor effects of BA were related with up-regulation of the expression of Bax and caspase-3 proteins. BA may qualify for the development of new therapies for leukemia.

Wortmannin Inhibits K562 Lukemic Cells by Regulating PI3k/Akt Channel In Vitro

The inhibitory effect ofwortmannin on leukemic cells and the possible mechanisms were examined. K562 cells were treated with wortmannin of various concentrations （3.125-100 nmol/L） for （0-72 h. MTT assay was used to evaluate the inhibitory effect of wortmannin on the growth of K562 cells. Cell apoptosis was detected by both Annexin-V FITC/PI double-labeled cytometry and transmission electron microscopy （TEM）. The expression of p-Akt, T-p-Akt, NF-kBp65 and IKK-κB was determined by Western blotting and reverse transcription-polymerase chain reaction （RT-PCR）. Our results showed that wortmannin obviously inhibited growth and induced apoptosis of K562 cells in vitro in a time- and dose-dependent manner. The IC50 value of wortmannin for 24 h was 25±0.14 nmol/L. Moreover, wortmannin induced K562 cells apoptosis in a dose-dependent manner. TEM revealed typical morphological changes of apoptosis in wortmannin-treated K562 cells, such as chromatin condensation, karyopyknosis, karyorhexis and apoptotic bodies. Additionally, several important intracellular protein kinases such as p-Akt, NF-κBp65 and IKK-κB experienced degradation of vari- ous degrees in a dose-dependent manner both at protein level and transcription level when cultured with wortmannin, but the expression of total Akt showed no change. It is concluded that wortmannin can inhibit the proliferation and induce apoptosis of K562 leukemia cells possibly by down-regulating the survival signaling pathways （PI3K/Akt and NF-κB channels）.

INDEPENDENT AND SYNERGIC INHIBITION OF VERAPAMIL AND ELECTRIC BEAM RADIATION ON CLONOGENIC GROWTH IN K562 AND K562／ADM CELL L

It was first reported here that verupamil(VP) and electric beam radiation(EBR) were capable of inhibiting,independently or synergically,clonogenic growth in two kinds of K562 cell lines, adriamycin(ADM)-sensitive and ADM-resistant(K562/S and K562/ADM).Results showed that clonogenic rate(CGR) decreased by 3%-99.9% in the prasence of dependent dose-ADM(3.8μg/ml) in K562/ADM cell lines,while treated with 0.5μM-6μM of VP.VP was capable of potentiating radiosensitivity in K562/S and K562/ADM cell lines,whether before or after exposure of them to electric beam radiation,and significantly reduced CGR in these kinds of cell lines(P<0.01).

Construction and characterization of hGM-CSF-expressing K-562 cell line

Objective The whole process of vaccine preparation is time-consuming and technically challenging. Here the hGM-CSF-engineered K-562 cell line was constructed to simplify tumor vaccine preparation process. Methods The eukaryocyte expressing plasmid pcDNA3.1/GM-CSF was first constructed and its accuracy was verified through sequencing. The pcDNA3.1/GM-CSF was transfected into COS-7 cells to verify GM-CSF expression and cytokine activity using TF-1 cell line. Then the plasmid was transfected into K-562 cell line using liposome method, and was selected under G-418 and sub-cloned by limiting dilution. GM-CSF product from the monoclone GM-CSF-K-562 cell lines was quantified using ELISA method. Results We successfully constructed the hGM-CSF eukaryocyte expressing plasmid and hGM-CSF expressing K-562 cell line. Conclusion The construction of K-562/GM-CSF line will simplify the preparation of tumor vaccine, thus facilitating the application of tumor vaccination therapy in clinical application.

雄黄诱导K_(562)细胞凋亡的研究

目的检测雄黄诱导Ｋ５６２细胞的能力。方法应用形态学观察、ＤＮＡ电泳和流式细胞仪（ＦＣＭ）检测细胞凋亡。利用ＦＣＭ分析细胞周期并测定Ｋ５６２细胞线粒体膜ＡＰＯ２．７蛋白表达。结果雄黄可以诱导Ｋ５６２细胞产生凋亡现象，并导致Ｓ期细胞降低。

莪术油诱导K-562细胞凋亡分子机制的实验研究

目的探讨莪术油(OCW)诱导慢性粒细胞白血病(CML)细胞株K-562凋亡及可能的分子机制。方法以不同浓度OCW(0,2.5,5,10和20 mg/mL)处理K-562细胞24 h后,光镜下观察形态学改变;CCK-8法检测细胞增殖抑制率;Hoechest33258荧光染色及FITC-AnnexinⅤ/PI双染法检测细胞凋亡率;半定量RT-PCR及Western blot方法检测bcr/abl、bcl-2、p53、Fas/FasL表达的变化。结果OCW明显抑制K-562细胞增殖,诱导细胞凋亡,与浓度呈正相关;各组药物干预后Fas/FasL基因在mRNA和蛋白水平呈浓度依赖性上调,而bcr/abl、bcl-2、p53基因表达无明显变化。结论不同浓度OCW能有效诱导K-562细胞凋亡,其作用可能通过Fas/FasL途径而实现的,与bcr/abl、bcl-2、p53基因无明显相关。

青黛复方对K-562细胞Bcr/Abl融合基因及p210蛋白表达的影响

目的探讨青黛复方对K-562细胞调亡、Bcr/Abl融合基因及p210蛋白的影响。方法以不同浓度青黛复方(0、2.5、5、7.5、10和20mg/ml)处理K-562细胞24h后,采用半定量RT-PCR技术检测各组Bcr/Abl融合基因的表达,Western blot技术检测p210Bcr/Abl蛋白表达,流式细胞术检测细胞凋亡率。结果随药物作用浓度升高,K-562细胞凋亡率呈浓度依赖性增加;Bcr/Abl在mRNA和蛋白水平均呈浓度依赖性下调,尤以10mg/ml和20mg/ml处理组更为显著。结论青黛复方能部分抑制K-562细胞Bcr/Abl的表达并呈浓度依赖关系,其对慢性髓细胞性白血病(CML)的疗效可能是通过促进细胞凋亡而实现的。