葡萄糖神经酰胺合酶基因在多药耐药肿瘤细胞株K562/AO2中的表达及其与白血病多药耐药的关系

目的观察葡萄糖神经酰胺合酶(GCS)基因在人红白血病多药耐药细胞株K562/AO2的表达及其与肿瘤多药耐药性(MDR)的关系。方法运用Alamar BlueTM多功能细胞染色法证实K562/AO2的多药耐药性;采用RT-PCR技术检测K562/AO2及其亲本K562细胞株的GCS基因、MDR1基因、bcl-2基因、bax基因的表达水平及其差异。结果(1)阿霉素(ADR)对K562/AO2细胞和K562细胞的IC50分别为75μg/ml和0.65μg/ml,耐药指数为115;长春新碱(VCR)对K562/AO2细胞和K562细胞的IC50分别为8μg/ml和0.22μg/ml,耐药指数为36。(2)K562/AO2细胞GCS基因和MDR1基因的表达明显强于K562细胞;K562/AO2细胞bcl-2基因表达强于K562细胞,而bax基因表达弱于K562细胞。结论GCS基因可能在白血病多药耐药中起着重要的作用,而细胞凋亡基因的表达异常可能是它导致肿瘤多药耐药的主要分子病理机制之一。

热疗联合化疗对K562/AO2细胞体外作用的实验研究

本研究观察热疗联合阿霉素对耐药慢性髓系白血病细胞系K562/AO2体外增殖的抑制作用、诱导凋亡及对Bcl-2及P-gp表达的影响。以MTT法确定阿霉素的工作浓度进行化疗,以40、41和42℃体外加热K562/AO2。加热前及加热后48小时采用台盼蓝拒染法检测肿瘤细胞的存活率,MTT检测肿瘤细胞增殖的抑制作用,流式细胞术检测肿瘤细胞凋亡、Bcl-2及P-gp表达,观察热疗联合阿霉素的抗肿瘤效果。作用48小时的IC50值作为实验的工作浓度。结果表明:与单纯培养相比,40、41和42℃热疗60分钟对K562/AO2细胞有明显地抑制作用(p<0.01),并随温度增高而增强;热疗+化疗组在40、41和42℃时,K562/AO2增殖抑制明显(p<0.01),随着温度的增高而增强。热疗组、化疗组及热疗+化疗组的细胞凋亡率均较对照组显著升高,各组之间均有显著性差异(p<0.01);Bcl-2蛋白及P-gp的表达均下降,各组之间也有显著性差异(p<0.01)。结论:热疗联合阿霉素能增强对K562/AO2细胞的体外抑制作用,提高肿瘤细胞的凋亡率,下调Bcl-2及P-gp的表达。

苦瓜蛋白逆转K562/AO2细胞多药耐药性的研究

目的:研究非细胞毒性质量浓度苦瓜蛋白对耐阿霉素的人红白血病细胞株K562/AO2多药耐药性的逆转作用和促凋亡作用。方法:采用CCK-8法测定苦瓜蛋白的细胞毒性及其对K562/AO2细胞敏感性的影响,用流式细胞仪检测K562/AO2细胞经不同药物处理后细胞的凋亡情况。结果:苦瓜蛋白对K562/AO2细胞有一定的细胞毒作用,其非细胞毒性质量浓度为5μg/mL,非细胞毒性质量浓度苦瓜蛋白对K562/AO2细胞对阿霉素、长春新碱(VCR)和柔红霉素的耐药性都有部分逆转作用(分别为5.4、6.5和4.0倍);5μg/mL苦瓜蛋白联合VCR诱导K562/AO2细胞凋亡,凋亡率为(19.38±1.06)%,而对照组为(1.64±0.27)%,单一苦瓜蛋白组为(3.79±0.82)%,单一VCR组为(9.83±0.98)%。结论:苦瓜蛋白能部分逆转人红白血病K562/AO2细胞对阿霉素、VCR和柔红霉素的耐药,一定剂量的苦瓜蛋白与VCR联合应用可增加肿瘤细胞凋亡率。

白血病患儿骨髓间充质干细胞对K562/AO_2细胞增殖和凋亡的影响(英文)

背景:对白血病患儿在白血病细胞获得耐药、抗凋亡特性的过程中机制的研究目前甚少,多数研究集中在正常骨髓间充质干细胞和已建系的基质细胞,而未重视患儿骨髓间充质干细胞与白血病细胞之间的相互作用。目的:课题创新性提出白血病患儿骨髓间充质干细胞可能对白血病细胞株K562/AO2生长增殖及凋亡产生影响的理论假设。设计、时间及地点:细胞学体外实验,于2007-12/2008-08在广州医学院第一附属医院儿科实验室完成。材料:骨髓间充质干细胞来源于广州医学院第一附属医院住院的30例白血病患儿,其中急性淋巴细胞白血病患儿22例,急性粒细胞白血病8例,患儿家属对实验均签署知情同意书。K562/AO2细胞株由天津血液病研究所提供。方法:Ficoll密度梯度法分离培养白血病患儿骨髓间充质干细胞。设立2组:K562/AO2细胞组单独悬浮培养处于对数生长期的K562/AO2细胞;K562/AO2细胞+骨髓间充质干细胞共培养组在骨髓间充质干细胞贴壁呈融合状态时,加入1×108L-1处于对数生长期的K562/AO2细胞,24h后去除未黏附的K562/AO2细胞。主要观察指标:白血病患儿骨髓间充质干细胞对K562/AO2细胞生长的影响,AnnexinV-FITC法检测阿霉素对K562/AO2细胞凋亡的影响,流式细胞仪测定不同条件培养下的K562/AO2细胞周期,Taqman-MGB探针实时荧光定量PCR检测不同条件培养下耐药基因mdr1的表达。结果:与单独悬浮培养的K562/AO2细胞比较,K562/AO2细胞+骨髓间充质干细胞共培养组的K562/AO2细胞生长较为缓慢,无明显的对数生长期;早期凋亡细胞数明显减少(P<0.05);处于G0～G1期的K562/AO2细胞明显增多,S期细胞减少;K562/AO2细胞mdr1耐药基因的表达无明显差异(P>0.05)。结论:体外细胞学实验结局证实,白血病患儿骨髓间充质干细胞诱导的K562/AO2细胞耐药与mdr1基因无关,而是通过黏附作用改变K562/AO2细胞周期,进而逃避药物的促凋亡作用。

普乐林对K562、K562/AO2的增殖抑制和耐药逆转作用

目的研究黄酮类化合物普乐林(Puerarin)对K562和K562/AO2细胞增殖抑制、药物增敏、耐药逆转的作用。方法台盼蓝拒染试验、MTT实验检测Puerarin对K562、K562/AO2的抑制作用;MTT实验检测阿霉素单独和与Puerarin合用对K562、K562/AO2的半数抑制浓度。结果3.2μmol/L的Puerarin即对K562、K562/AO2有生长抑制作用,其最大抑制浓度为25.0μmol/L,Puerarin对两种细胞的抑制差异无统计学意义(P>0.05);阿霉素对K562细胞的IC50为0.131μg/mL,对K562/AO2的IC50为7.542μg/mL,耐药倍数为57.14倍;Puerarin加大了阿霉素对K562的杀伤敏感性(最大增敏倍数1.42),同时能部分逆转K562/AO2对阿霉素的耐药性(最大相对逆转效率91%)。结论Puerarin对K562、K562/AO2细胞的增殖抑制作用有限;但Puerarin具有较明显逆转K562/AO2对阿霉素的耐药作用。

2-甲氧基雌二醇逆转K562/AO2细胞耐药及其机制的初步研究

目的研究2-甲氧基雌二醇(2-ME)对K562/AO2细胞耐药性逆转作用及其可能机制。方法利用不同浓度的2-ME作用于K562及K562/AO2细胞,MTT法检测细胞对阿霉素的耐药性,计算耐药倍数及逆转倍数;利用AnnexinV/PI双染色法检测K562/AO2细胞的凋亡效应。结果与K562细胞相比,K562/AO2细胞的耐药倍数为50倍;2-ME可显著降低阿霉素对K562/AO2细胞的IC50,逆转倍数为5.9倍。AnnexinV/PI双染色法检测显示,1、4、16μmol/L的2-ME处理K562/AO2细胞后细胞凋亡率分别为10.32%、21.56%和16.45%,而对照组凋亡率仅为6.68%。结论 2-ME能够逆转K562/AO2阿霉素耐药,其机制可能与诱导K562/AO2细胞凋亡有关。

伊马替尼对K562和K562/AO2细胞细胞色素P4503A亚家族多肽5基因转录、蛋白表达及活性的调控

目的:探讨伊马替尼(商品名:格列卫)对K562及其耐药细胞株K562/AO2细胞色素P4503A亚家族多肽5(CYP3A5)基因转录、蛋白表达及活性的调控。方法:采用实时聚合酶链反应(real-timePCR)、蛋白印迹(Westernblot)和高效液相色谱(HPLC)法检测CYP3A5基因转录、蛋白表达和活性水平。同时将CYP3A5重组质粒稳定转染有CYP3A5基础转录的K562细胞,噻唑蓝(MTT)法测定伊马替尼的半数抑制浓度(IC50)值,观察CYP3A5基因的过表达是否介导白血病细胞对伊马替尼敏感性的改变。结果:K562细胞经伊马替尼作用24h后CYP3A5mRNA转录增强,蛋白表达和活性均增加,与未加药细胞相比,差异有统计学意义(P<0.05、P<0.01、P<0.01);K562/AO2细胞经伊马替尼作用24h后,CYP3A5基因转录、蛋白表达和活性未见改变,经伊马替尼作用36h后,CYP3A5基因转录增强、蛋白表达和活性均增加,与未加药细胞相比,差异有统计学意义(P<0.01、P<0.01、P<0.05)。K562细胞稳定转染CYP3A5重组质粒后对伊马替尼表现出明显耐受(耐药倍数为1.318倍)。结论:伊马替尼可诱导K562及其耐药细胞株K562/AO2CYP3A5基因转录、蛋白表达和活性的增高。

NF-κB抑制剂PDTC逆转K562/AO_2细胞耐药性及其机制的研究

为研究NF-κB的异常活化在K562/AO2细胞耐药机制中的作用,采用非细胞毒剂量抗氧化剂吡咯烷二硫代氨基甲酸盐(PDTC)抑制K562/AO2细胞NF-κB表达,用MTT法检测K562/AO2细胞对药物敏感性的变化,RT-PCR、流式细胞术分别检测K562、K562/AO2细胞mdr-1 mRNA、P-gp表达水平以及不同浓度PDTC作用一定时间对其影响。结果显示:①阿霉素(ADM)诱导耐药的K562/AO2细胞对ADM的耐药性是K562细胞的59倍;非细胞毒剂量PDTC预作用后,ADM对K562/AO2细胞的IC50显著降低,相对逆转耐药效率为93.03%,强于经典耐药逆转剂维拉帕米(Ver);②K562/AO2细胞NF-κB表达水平高于K562细胞(p<0.01);3组非细胞毒剂量PDTC作用后K562/AO2细胞NF-κB表达均受抑制;0.2μmol/LPDTC作用24小时抑制效应最强,K562/AO2细胞NF-κB表达降至接近K562细胞水平(p>0.05);③K562/AO2细胞mdr-1 mRNA、P-gp表达均高于K562细胞(p<0.01);3组非细胞毒剂量PDTC作用K562/AO2细胞48小时后,其mdr-1 mRNA、P-gp表达明显减少。结论:抑制NF-κB异常活化可部分逆转K562/AO2细胞耐药性,其机制与mdr-1 mRNA及其编码的P-gp表达减少有关。

环孢素A联合苯基棕榈酰胺吗啡丙醇对K562/AO2细胞GCS基因表达的影响及对逆转多药耐药

目的研究环孢素A(CsA)和苯基棕榈酰胺吗啡丙醇(PPMP)联合应用对人白血病多药耐药细胞株K562/AO2的葡萄糖神经酰胺合酶(GCS)基因表达的影响及对白血病多药耐药的逆转作用,探索逆转白血病细胞耐药的策略。方法应用Alamar BlueTM多功能细胞染色法测定阿霉素(ADR)对K562和K562/AO2细胞的半数抑制浓度(IC50)及判断CsA的非细胞毒性剂量;采用RT-PCR法检测GCS基因和mdr1基因的mRNA表达。结果CsA浓度低于4.5μg/ml对K562/AO2细胞无细胞毒性。ADR对K562和K562/AO2细胞的IC50分别为(0.84±0.04)μg/ml和(89.24±1.27)μg/ml;当1μg/ml CsA和25μmol/L PPMP单用或联合作用于K562/AO2细胞时,ADR的IC50分别为(7.81±0.74)(、17.49±0.53)(、2.82±0.07)μg/ml;而低浓度CsA(0.01μg/ml)和PPMP(10μmol/l)联合作用时IC50为(16.08±1.25)μg/ml。CsA联合PPMP可明显降低GCS基因的mRNA表达,低浓度CsA和PPMP联用也有此作用。结论CsA联合PPMP可通过抑制K562/AO2细胞的GCS基因mRNA表达有效逆转其耐药,低浓度CsA联合PPMP在逆转其耐药的同时降低了细胞毒性。

甲孕酮联合苦参碱对耐药细胞株K562/AO2多药耐药逆转作用的研究

目的应用甲孕酮(MPA)联合苦参碱(MAT)逆转人白血病细胞株K562/AO2对阿霉素的耐药性,观察联合用药逆转耐药的疗效。方法用MTT法检测MPA与MAT的细胞毒性,荧光分光光度法检测各组细胞内药物(ADM)浓度的改变,流式细胞仪测定细胞凋亡的情况,流式细胞术检测细胞的p-gp表达情况。结果(1)确定了甲孕酮及苦参碱对K562/AO2细胞的非细胞毒性剂量和低细胞毒性剂量,确定了非细胞毒性剂量的两药联合应用后未出现毒性叠加。(2)在与ADM合用时,K562/AO2+甲孕酮及K562/AO2+苦参碱组,细胞凋亡百分率均高于K562/AO2耐药组(P<0.05,P<0.01),但均低于K562/AO2+甲孕酮+苦参碱组(P<0.01,P<0.05)。(3)与K562比较,K562/AO2细胞中P-gP呈高表达;与K562/AO2耐药组比较,K562/AO2十苦参碱组及K562/AO2+甲孕酮组P-gp表达量降低(P<0.01),但当两者联合应用时作用大于两者单独作用。(4)与ADM组比较苦参碱、甲孕酮均能提高K562/AO2细胞内ADM浓度,P均<0.01,两者联合应用时作用大于两者单独作用。结论非细胞毒性剂量的甲孕酮和苦参碱均可部分逆转有多药耐药表型的细胞株K562/AO2对阿霉素的耐药性,二者联合应用效果优于单独应用,具有协同作用,同时可以增强化疗药物对耐药肿瘤细胞的增值凋亡率。K562/AO2细胞中P-gP的过度表达,可能是引起其产生MDR的主要原因。

PDTC逆转K562/AO_2细胞多药耐药性机制研究

目的研究核因子κB(NF-κB)抑制剂吡咯烷二硫代氨基甲酸盐(PDTC)逆转K562/AO2细胞耐药效应及其机制。方法采用MTT比色法分别检测K562/AO2细胞的耐药性、PDTC对K562/AO2细胞增殖的影响以及非细胞毒剂量PDTC、维拉帕米(Ver)预作用后K562/AO2细胞药物敏感性的变化,采用免疫细胞组织化学法、RT-PCR检测K562、K562/AO2细胞NF-κB、mdr-1 mRNA表达水平以及PDTC作用一定时间对其影响。结果①K562/AO2细胞对阿霉素(ADM)的耐药性是K562细胞的59倍;非细胞毒剂量PDTC预作用后,ADM对K562/AO2细胞的半数抑制浓度(IC50)显著降低,相对逆转耐药效率为93.03%,强于经典耐药逆转剂Ver的作用81.07%(P<0.01);②K562/AO2细胞NF-κB表达水平高于K562细胞(P<0.01);PDTC可有效抑制K562/AO2细胞NF-κB表达,伴随mdr-1 mRNA表达减少,呈时间依赖性。结论抑制NF-κB异常活化可部分逆转K562/AO细胞耐药性,其机制与mdr-1 mRNA转录表达减少有关。

Arsenic Trioxide Inhibits Proliferation in K562 Cells by Changing Cell Cycle and Survivin Expression

To study the mechanisms involved in the inhibition of chronic myeloid leukemic cells (K562) proliferation induced by arsenic trioxide (As 2O 3) and to explore the potential role of Survivin, an inhibitor of apoptosis protein, in the regulation of As 2O 3 induced cell apoptosis, K562 cells were cultured with As 2O 3 of different concentrations. Cells were collected for proliferation analysis by MTT assay. Cell cycle distribution and cell apoptosis were analyzed by flow cytometry. Expression of Survivin protein and mRNA were detected by flow cytometry and RT-PCR, respectively. Our results showed that As 2O 3 (2-10 μmol/L) inhibited K562 cells growth effectively, but it did not induce cells apoptosis significantly. The percentage of K562 cells at G 2/M phase increased in proportion to As 2O 3 concentrations, and the expression of Survivin mRNA and content of Survivin protein was up-regulated accordingly. It is concluded that As 2O 3 inhibited K562 cells growth by inducing cell cycle arrest mainly at G 2/M phase. Over-expression of Survivin gene and protein might be one of the possible mechanisms contributing to K562 cells' resistance to As 2O 3-induced apoptosis.

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.

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.

甲孕酮对K562/AO2细胞及P-gp、Bcl-2耐药蛋白表达的影响

目的探讨甲孕酮对白血病K562/AO2细胞凋亡率及P-gp、Bcl-2耐药蛋白表达的影响。方法以MTT法检测肿瘤细胞增殖的抑制率,流式细胞术检测肿瘤细胞凋亡、P-gp及Bcl-2表达。结果甲孕酮能够提高K562/AO2细胞的凋亡,能够下调K562/AO2细胞P-gp、Bcl-2的表达。结论甲孕酮能提高K562/AO2细胞化疗敏感性,促进其凋亡,对K562/AO2细胞有一定的逆转耐药作用。

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.

氨基葡萄糖硫酸盐诱导K562细胞凋亡的实验研究

目的 探讨氨基葡萄糖硫酸盐(GS)对慢性髓系白血病K 5 62细胞凋亡诱导作用和分子机理。方法 采用台盼蓝拒染法测定细胞生长曲线来观察GS对K5 62细胞的生长抑制作用;取对数生长期K 5 62细胞,在0 .5 ,1.0 ,5 .0mmol/LGS不同浓度作用48h后,利用细胞计数、电镜、吖啶橙/溴化乙啶(AO/EB)染色、DNA梯状电泳、流式细胞仪等方法来观察GS对K 5 62细胞的抑制效应和促凋亡作用。并用Westernblot检测活化的caspase 3和bcl- 2基因的表达。结果 0 .5 ,1.0 ,5 .0mmol/LGS对K 5 62细胞的生长有抑制作用,并呈时间和剂量依赖性(P <0 .0 1)。采用光镜、电镜和AO /EB染色法发现5mmol/LGS作用K 5 62细胞后,出现典型的凋亡形态学改变。AnnexinV染色后流式细胞仪能检测到早期凋亡细胞,细胞周期显示:G1期细胞比例增高,S期比例减低,并有凋亡峰。有明显的梯状DNA。同时GS诱导K 5 62细胞凋亡后出现活化的Caspase 3 ,而Bcl- 2蛋白表达减弱,甚至消失。结论 GS能诱导白血病K- 5 62细胞凋亡,该过程伴有Caspase- 3的活化和Bcl- 2蛋白表达降低。

PURGING OF BONE MARROWS CONTAMINATED WITH MYELOID LEUKEMIC CELLS BY INTERLEUKIN-2 AND LYMPHOKINE-ACTIVATED KILLER CELLS

The capability of recombinant human interleukin-2 ( rhIL-2) and lymphokine-activated killer (LAK) cells in the purging of normal human bone marrows contaminated with human myeloid leukemic cell lines was evaluated. Mixtures of normal human bone marrow mononuclear cells ( BMC) and K562 cells or HL-60 cells (at the BMCK562 ratio of 200:1, 100:1 or 20:1) were incubated with IL-2 with or without LAK cells at the BMC:LAK ratio of 1:1 for one or three days. The nubmers of residual K562 cells, BFU-E and CFU-GM were examined by clonogenic assays. In 200:1 mixture groups without LAK cells, the number of K562 colonies reduced by 50% with no loss of BFU-E and CFU-GM in one-day cultures, and no K562 colonies formed in three-day cultures with about 20% loss of BFU-E and CFU-GM. If the BMC.K562 ratios were 100:1 or 20:1 in the mktures, the leukemic cells could not be eliminated. When the mixtures were incubated with IL-2 and LAK cells, no leukemic cell colonies were detected in the 20:1 group following one-day

Caspase-3和Bcl-2在白血病细胞株凋亡过程中的表达及其与多药耐药的关系

目的研究Caspase-3在阿霉素(ADR)诱导的K562和K562/AO2细胞株凋亡过程中对Bcl-2蛋白表达的调控,探讨两者相互作用在白血病多药耐药中的分子机制。方法原位细胞凋亡检测法观察凋亡细胞的形态学改变;流式细胞仪测定凋亡率及Bcl-2蛋白的表达;酶显色活性分析法测定Caspase-3的活性。结果①K562细胞株的凋亡率对ADR呈时间、剂量依赖关系,K562/AO2细胞株则无此依赖关系。②未加Caspase-3抑制剂的K562细胞株Bcl-2阳性表达率和Caspase-3活性对ADR呈时间、剂量依赖关系;加入抑制剂的则无此关系,但作用48 h后Bcl-2阳性表达率下降,Caspase-3活性上升。无论加入Caspase-3抑制剂与否,K562/AO2细胞株的Caspase-3活性和Bcl-2阳性表达率均无变化。结论Caspase-3的变化能引起Bcl-2蛋白表达水平的变化,二者与凋亡关系密切,并在多药耐药中发挥重要作用。

急性淋巴细胞白血病患儿骨髓间充质干细胞对K562和K562/AO_2细胞耐药的影响

目的研究急性淋巴细胞白血病(ALL)患儿骨髓间充质干细胞(MSCs)对K562和K562/AO2细胞药物耐受性的影响,并探讨其机制。方法从白血病患儿骨髓中分离、培养并鉴定MSCs;建立K562和K562/AO2细胞株与MSCs共培养体系,观察MSCs对2种细胞生长的影响;Annexin V-FITC检测一定浓度的多柔比星对2种细胞凋亡的影响;流式细胞仪测定不同培养条件下的2种细胞周期;反转录PCR分析K562和K562/AO2细胞株的黏附培养组Bcl-2和Bax基因表达;实时荧光定量PCR检测2种细胞mdr1基因转录水平。结果与单独培养的K562和K562/AO2细胞相比,与MSCs黏附共培养的白血病细胞生长较为缓慢,未见明显的对数生长期;黏附共培养的白血病细胞,G0～G1期细胞增多,S期细胞减少;K562和K562/AO2细胞株的黏附培养组Bcl-2基因表达强于悬浮组,此2组Bax基因表达均无显著差异,K562/AO2细胞Bcl-2基因相对表达要强于K562细胞株;白血病细胞单独悬浮培养组、黏附共培养组细胞mdr1基因转录水平比较差异无统计学意义(P>0.05)。结论白血病患儿MSCs能抑制白血病细胞株K562和K562/AO2生长,改变细胞周期而逃避药物的促凋亡作用,K562/AO2对多柔比星产生耐药性可能与黏附共培养后Bcl-2基因表达增强有关,而与其本身含有的mdr1基因无关。