共查询到19条相似文献,搜索用时 203 毫秒
1.
目的:研究K562/ADM、HL60/ADM的耐药性及CsA对其耐药的逆转作用。方法:MTT比色法检测细胞耐药性及CsA对细胞耐药性的影响,流式细胞仪检测Pgp、MRP的表达及细胞内柔红霉素(DNR)的浓度。结果:K562/ADM、HL60/ADM对DNR、ADM、VCR、Har、VP16、MIT交叉耐药,对Acla和Ara—C基本不耐药。K562/ADM细胞Pgp过度表达,HL60/ADM细胞的MRP过度表达。CsA使K562/ADM、HL60/ADM细胞内药物浓度增加,逆转了K562/ADM、HL60/ADM的耐药性,而对K562、HL60的耐药性基本无影响。结论:两种不同耐药机制的细胞株对8种常用化疗药物的耐药谱相似,对Acla基本不产生耐药性,故在防止和克服多药耐药的基础上,Acla可能取代DNR、ADM。环孢菌素A(CsA)对两种不同耐药机制的细胞株的耐药性均有逆转作用,主要是通过增加胞内药物浓度来达到逆转作用。 相似文献
2.
目的 观察干扰素(α-Interleron,α-IFN)和环孢霉素A(Cyclosporine A,CsA)对白血病K562/ADM细胞耐药性的协同逆转效应。方法 以多药耐药基因/P-糖蛋白(Muhidrug resistance gene/P-glycoprotein,mdrl/P-gp)超表达的K562/ADM细胞为靶细胞,MTT比色法检测药物的细胞毒效应;流式细胞仪检测细胞P-糖蛋白(P-glycoprotein,P-gp)表达水平;激光共聚焦显微镜观察细胞内阿霉素含量变化。结果 K562/ADM细胞对阿霉素呈高度耐药性,并与柔红霉素和鬼臼乙叉甙交叉耐药,但与CsA无交叉耐药。CsA和α-IFN单独或联合应用均对K562/ADM细胞的耐药性有较强的抑制效应。流式细胞仪和激光共聚焦显微镜分析发现α-IFN和CsA单独或联合均不能下调细胞mdrl/P-gp的表达,反而应激性地刺激耐药细胞P-gp的合成增加,但可抑制P-gp的功能、增加K562/ADM细胞内阿霉素的积聚。结论 α-IFN和CsA联合可协同逆转耐药白血病细胞的耐药性,其作用机制为抑制P-gp的功能而非下调mdrl/P-gp的表达水平。 相似文献
3.
P13-K抑制剂LY294002逆转P-gP介导的白血病和胃癌细胞耐药 总被引:1,自引:0,他引:1
背景与目的:磷脂酰肌醇3-激酶/蛋白激酶B[phosphatidylinositol-3-kinase(P13-K)/proteinkinaseB(Akt),P13-K/Aktl通路是调控细胞生存的重要信号转导通路之一。本研究旨在探讨P13-K抑制剂LY294002对P-gP过表达的人类白血病K562/DNR和胃癌SGC7901/ADR细胞多药耐药性的逆转作用。方法:将细胞分为单纯药物组和LY294002预处理组,单纯药物组分别以柔红霉素(daunorubicin,DNR)、阿霉素(adriamycin,ADR)、长春新碱(vincristine,VCR)和依托泊甙(etoposide,VP-16)处理,LY294002预处理组在加药前以LY294002进行预处理。用台盼蓝拒染法及MTT法检测药物敏感性及LY294002对细胞耐药性的影响。Westernblot检测K562/DNR和SGC7901/ADR细胞中P.gP及p-Akt的表达。流式细胞术检测细胞内药物浓度。结果:2.5μmol/LLY294002预处理显著降低DNR、ADR、VCR和VP-16对K562/DNR细胞的IC50,相对逆转效率分别为72.4%、64.9%、60.4%和52.8%。此外,LY294002部分逆转SGC7901/ADR对ADR的耐药性,相对逆转效率为31.0%。LY294002预处理可部分抑制p-Akt和P-gP的表达。随着处理时间的延长.K562/DNR、SGC7901/ADR细胞内DNR、ADR的蓄积效应有增强的趋势。结论:LY294002通过抑制P13-K/Akt信号转导通路,部分逆转P-gp介导的白血病和胃癌细胞的多药耐药。 相似文献
4.
目的:研究蛋白激酶C(PKC)在P-糖蛋白(Pgp)介导的人类白血病K562细胞多药耐药中的作用,方法:用苔盼蓝拒染法检测药物敏感性,用免疫组织化学法检测Pgp的表达,用流式细胞仪检测细胞内柔红霉素(DNR)积聚,用Takai法及Western blot法分别检测PKC活性和PKCα含量。结果:耐药株K562/D细胞对DNA及多种抗 药物显示多药耐药性,并存在Pgp过度表达,K562/D与敏感株K562/S细胞相比,PKC总活性无明显差异,但PKCα含量显著增高,PKC激活剂TPA增加K562/S和K562/D细胞的PKC活性,使PKC和PKCα由胞质向胞膜转位,K562/S和K562/D细胞的PKC活性及PKCα含量,增加K562/D细胞内DNA积聚。结论:PKCα在D562/D细胞中显著增高,上调PKC,使K562。D细胞内DNA积聚减小,下调PKC,使K562/D细胞内的DNA积聚增加,提示PKC可能通过调节Pgp的功能参与Pgp介导的多药耐药。 相似文献
5.
目的:研究小干扰RNA(small interfering RNA, siRNA)对多药耐药细胞K562/ADM耐药性的逆转效应.方法:以K562/ADM细胞为靶细胞,针对mdrl基因mRNA不同靶点设计合成4对siRNA分子,脂质体介导转染K562/ADM细胞,RT-PCR和实时荧光定量PCR检测mdrl基因mRNA的表达水平,流式细胞术(FCM)测定P-糖蛋白(P-gp)表达;MTT比色法检测K562/ADM细胞对多柔比星(ADM)、柔红霉素(DNR)和依托泊苷(Vp-16)的敏感性.结果:选择mdrl mRNA的4个靶点设计合成的siRNA中,针对333靶点的siRNA(si-mdrl/333)对mdrl基因的表达具有较好的沉默效果,RT-PCR和实时定量PCR检测,mdrl mRNA表达分别降低69%和63%;FCM检测P-gp的表达强度(MFI)降低约50%.si-mdrl/333可提高K562/ADM细胞对ADM、DNR和Vp-16的敏感性,耐药逆转倍数分别为3.45、1.70和2.91倍.结论:siRNA能特异性地阻抑白血病多药耐药细胞K562/ADM细胞mdrl基因的表达,逆转其对抗癌药物的耐受性. 相似文献
6.
目的:研究氯丙嗪对耐药细胞系K562/AO2多药耐药逆转作用。方法:应用免疫组化观察K562/AO2细胞系的耐药蛋白表达情况,用MTT法测定不同浓度的氯丙嗪对K562/AO2细胞系耐药逆转作用,用流式细胞术测定不同浓度的氯丙嗪与K562/AO2细胞作用后细胞内罗丹明的蓄积情况,用半定量RT—PCR法测定氯丙嗪对K562/AO2细胞多药耐药基因(mdr-1)mRNA表达的影响。结果:K562/AO2细胞不但P-gP表达阳性,而且肺耐药相关蛋白(lung resistanceelated protein.LRP)表达也阳性;氯丙嗪能增强多柔比星对K562/AO2细胞的杀伤作用(单用ADM组、氯丙嗪0.75μg/mL+ADM组、氯丙嗪1.5μg/mL+ADM组和氯丙嗪3μg/mL+ADM组对K562/AO2的抑制率分别为5.2%、25.9%、39.1%和74.8%);增加K562/AO2细胞内罗丹明的蓄积(对照组、氯丙嗪0.75μg/mL组、氯丙嗪1.5μg/mL组和氯丙嗪3μg/mL组细胞内的荧光强度的均值分别为1.87、10.28、48.75和65.63);对K562/AO2细胞mdr-1 mRNA表达无明显影响(对照组mdr-1和β-actin的面积比为0.41,氯丙嗪组为0.42)。结论:氯丙嗪对K562/AO2细胞的耐药有较强的逆转作用,并呈剂量依赖关系。 相似文献
7.
目的:研究马钱子碱(vauqueline)对人白血病K562/A02细胞多药耐药性的逆转作用。方法:采用噻唑蓝(MTT)法检测马钱子碱的细胞毒作用;采用半定量逆转录聚合酶链反应(RT-PCR)和免疫印迹(Western blot)分别检测非细胞毒浓度(IC10)的马钱子碱对K562/A02细胞MDR1 (multidrug resistance gene 1)、多药耐药相关蛋白(multidrug resistance-associated protein,MRP)、拓扑异构酶Ⅱ(topoisomeraseⅡ,TopoⅡ)、谷胱苷肽-S-转移酶(glutathione s-transferase,GST-π)mRNA及其蛋白表达的影响。结果:非细胞毒浓度(IC10)的马钱子碱作用后,K562/A02细胞中MDR1mRNA及P-gp表达降低(P<0.01)。而MRP、TopoⅡ、GST-π mRNA及其蛋白的表达无明显变化(P>0.05),同时马钱子碱能增加化疗药物在白血病细胞内的积累。结论:马钱子碱能部分逆转K562/A02细胞的耐药性,其作用机制可能与下调K562/A02细胞MDR1 mRNA的表达,导致细胞膜上P-gp的表达量减少,化疗药物从细胞内溢出减少有关。 相似文献
8.
丁酸钠诱导人慢性髓系白血病K562细胞肺耐药相关基因蛋白的表达 总被引:2,自引:0,他引:2
背景与目的:肺耐药相关蛋白(1ung resistance—related protein,LRP)的过度表达是急性白血病患者对化疗不敏感及提示不良预后的指征之一。本研究探讨丁酸钠(sodium butyrate,NaB)对人慢性髓系白血病K562细胞LRP表达的诱导作用,并初步探讨LRP对细胞内阿霉素(adriamycin,ADM)、柔红霉素(daunorubicin,DNR)浓度的影响。方法:以K562细胞为体外模型,采用半定量逆转录聚合酶链反应(RT—PCR)检测NaB作用前后K562细胞LRPmRNA的水平;采用流式细胞仪结合间接免疫荧光检测比较:NaB处理前后K562细胞LRP蛋白表达的变化。分别以流式细胞仪和荧光显微镜检测NaB处理前后:K562细胞内DNR的蓄积和细胞内ADM分布的变化。结果:经2mmol/L NaB处理后较之处理前:①K562细胞的LRP mRMA水平明显增加;②LRP蛋白表达由阴性转为阳性,阳性细胞百分率由1.65%,上升到35.8l%;③经NaB处理后K562细胞内DNR的蓄积明显减少,细胞内DNR平均荧光较处理前减少了68.36%;④ADM在细胞核内分布明显减少,在细胞浆内分布明显增多。结论:NaB可诱导K562细胞LRPm RNA水平和蛋白表达的增加,LRP表达可造成细胞内DNR蓄积减少和ADR由细胞核向细胞浆转移。 相似文献
9.
目的研究氯丙嗪对耐药细胞系K562/AO2多药耐药逆转作用.方法应用免疫组化观察K562/AO2细胞系的耐药蛋白表达情况,用MTT法测定不同浓度的氯丙嗪对K562/AO2细胞系耐药逆转作用,用流式细胞术测定不同浓度的氯丙嗪与K562/AO2细胞作用后细胞内罗丹明的蓄积情况,用半定量RT-PCR法测定氯丙嗪对K562/AO2细胞多药耐药基因(mdr-1)mRNA表达的影响.结果K562/AO2细胞不但P-gp表达阳性,而且肺耐药相关蛋白(lung
resistanceelatedprotein,LRP)表达也阳性;氯丙嗪能增强多柔比星对K562/AO2细胞的杀伤作用(单用ADM组、氯丙嗪0.75
μg/mL+ADM组、氯丙嗪1.5μg/m L+ADM组和氯丙嗪3μg/mL+ADM组对K562/AO2的抑制率分别为5.2%、25.9%、39.1%和74.8%)增加K562/AO2细胞内罗丹明的蓄积(对照组、氯丙嗪0.75
μg/mL组、氯丙嗪1.5 μg/mL组和氯丙嗪3μg/mL组细胞内的荧光强度的均值分别为1.87、10.28、48.75和65.63)对K562/AO2细胞mdr-1
mRNA表达无明显影响(对照组mdr-1和β-actin的面积比为0.41,氯丙嗪组为0.42).结论氯丙嗪对K562/AO2细胞的耐药有较强的逆转作用,并呈剂量依赖关系. 相似文献
10.
目的:探讨选择性环氧合酶-2(cyclooxygenase-2,COX-2)抑制剂NS-398对多药耐药细胞株K562/ADM细胞P-糖蛋白(P—glycoprotein,P—gP)表达的影响。方法:K562/ADM细胞经浓度分别为10μmol/L、20μmol/L、40μmol/L、80μmol/L、160μmol/L的NS-398处理,24h、48h、72h后用RT—PCR法检测MDRlmRNA的表达、用流式细胞仪检测mdr1蛋白表达。结果:随着Ns-398浓度的升高以及作用时间延长,MDR1 mRNA、P—gp表达降低,不同浓度的药物与测量时间之间存在着交互作用(P〈0.05)。结论:选择性环氧合酶-2抑制剂NS-398可抑制K562/ADM细胞的MDR1/P—gP表达。 相似文献
11.
RNAi对白血病细胞mdr-1基因和多药耐药表型的影响 总被引:3,自引:0,他引:3
目的:探讨RNA干扰技术(RNAi)对慢性粒细胞白血病急变细胞系K562/AO2细胞mdr1基因的抑制和耐药表型的逆转作用。方法:选择合成封闭mdr-1基因的小干扰序列(si-MDR1),以1个碱基突变的si-MDR1-mut为对照序列,在脂质体介导下转染至K562/AO2细胞系。RT-PCR和Western blot检测mdr1 mRNA及P-gp蛋白水平,流式细胞术分析细胞内柔红霉素(daunorubicin,DNR)积累量,并以四甲基唑蓝快速比色法(MTT)反映K562/AO2对阿霉素、长春新碱、足叶乙甙药物敏感性的变化。结果:实验证实该序列能高效封闭K562/AO2细胞内mdr-1基因表达,增加细胞内化疗药物DNR积累量,增强K562/AO2细胞对阿霉素、长春新碱、足叶乙甙的敏感性。结论:RNAi可以通过抑制mdr1基因表达,逆转K562/AO2细胞耐药表型。 相似文献
12.
Ying-chun LI Hui-han WANG Hong-yu PAN Ai-jun LIAO Wei YANG Zhuo-gang LIU Xiao-bin WANG 《中国肿瘤临床(英文版)》2010,7(4)
OBJECTIVE In this study, we applied multidrug resistant leukemia cell line expressing mdr1-mRNA to observe changes in mdr1-mRNA, the P-gp, cell cycle and apoptosis before and after bortezomib was used, in order to explore the mechanism of reversal of leukemia multidrug resistance by the proteasome inhibitor bortezomib.METHODS Flow cytometry (FCM) was used to detect the intracellular drug concentration, expression of P-gp, cell apoptosis and cell cycle status of K562/DNR cells before and a er treatment with different concentrations of bortezomib. Fluorescence quantitative PCR was applied to detect the mdr1-mRNA expression in K562/DNR and K562/S cells.RESULTS Bortezomib could increase the intracellular DNR content in K562/DNR cells, but showed no e. ect in K562/S cells.5-100 nmol/L bortezomib could significantly reduce the P-gp/mdr1-mRNA expression in K562/DNR cells in vitro, and showed a dose-dependent effect. There was a statistically significant di. erence (P < 0.05) between di. erent concentration groups and the control group. P-gp/mdr1-mRNA expression was negatively correlated with cell apoptosis (r = -0.912 and P < 0.01). After treatment with different concentrations of bortezomib for 24 h,K562/DNR cells in G2 + M phases were significantly increased,while cells in G0 + G1 phases and S phase were significantly decreased, accompanied by an increased apoptotic rate.CONCLUSION Bortezomib can induce G0 + G1 phase to G2 + M phase, and thereby enhance the chemosensitivity of leukemia, and may also reverse the multidrug resistance in leukemia mediated by P-gp overexpression encoded by mdr1 gene. This confi rms that bortezomib can reverse leukemia multidrug resistance at the levels of nucleic acid and protein molecules. 相似文献
13.
MDR1基因短发卡样RNA表达载体逆转K562/A02人白血病细胞多药耐药的研究 总被引:6,自引:1,他引:5
目的构建MDR1基因短发卡样RNA(shRNA)真核表达载体,观察对K562/A02人白血病细胞株MDR1基因的沉默作用以及对P-糖蛋白(P-gp)表达及功能的影响。方法以基因重组技术构建表达质粒,转染重组质粒pEGFP-C1/U6/MDR1-A和pEGFP-C1/U6/MDR1-B至K562/A02细胞株,通过半定量RT-PCR和蛋白质印迹法,检测MDR1基因表达及P-gp表达水平的变化;以MTT法检测阿霉素(ADM)对K562/A02细胞的半数抑制浓度(IC_(50));高效液相色谱(HPLC)法检测细胞内ADM含量。结果构建的2种重组质粒pEGFP-C1/U6/MDR1-A和pEGFP-C1/U6/MDR1-B均明显抑制K562/A02细胞株MDR1基因表达,抑制率最高为48.2%±2.5%;同时抑制P-gp蛋白的表达,抑制率最高为50.67%。对ADM药物敏感性的相对逆转效率分别为40.8%和62.4%;同时使K562/ A02细胞内ADM含量增加。结论shRNA表达载体可明显抑制K562/A02细胞MDR1 mRNA的转录和P-gp蛋白的表达,增加K562/A02细胞内ADM含量,恢复K562/A02细胞对化疗药物的敏感性,逆转MDR1基因编码蛋白P-gp介导的多药耐药。 相似文献
14.
目的 观察斑蝥酸钠(SCA)对多药耐药的白血病细胞(K562/AO2)细胞是否有逆转作用,并初步探讨其逆转机制.方法 应用 MTT测定多柔比星(阿霉素,ADM)对K562/AO2细胞的半数抑制浓度(IC50);应用逆转录聚合酶链式反应(RT-PCR)检测K562、K562/AO2细胞表达mdr1基因水平;用流式细胞术(FCM)检测其P-gp蛋白表达的水平.结果 MTT结果显示,无毒剂量的SCA与ADM联合应用比单纯加ADM(同等剂量)对K562/AO2细胞的IC50降低了1.51倍;耐药细胞(K562/AO2)经SCA处理后mdr1基因与P-gp蛋白表达均下降(P<0.05).结论 SCA对K562/AO2有一定的逆转作用,其机制可能与下调mdr1基因和P-gp蛋白表达有关. 相似文献
15.
Reversal of P-glycoprotein-mediated multidrug resistance with small interference RNA (siRNA) in leukemia cells 总被引:5,自引:0,他引:5
The multidrug resistance (MDR) mediated by P-glycoprotein (P-gp), the MDR1 gene product, is one of the major obstacles in leukemia treatment. The present study was designed to explore a MDR1-targeted small interfering RNA (si-MDR1) approach for reversal of P-gp-mediated MDR in the MDR human leukemia cell line k562/A02. It was found that si-MDR1 significantly inhibited MDR1 expression at both mRNA and protein levels. Depletion of MDR1 by si-MDR1 correlated with the increased sensitivity of the cells to cytotoxic agents and with the enhanced intracellular retention of daunorubicin (DNR). One base-pair mutated control (si-MDR1-Mut) lost the effect of si-MDR1 on both the degradation of mdr1 mRNA and the reduction of P-gp expression. These findings indicate that siRNA specifically and efficiently interferes with the expression of mdr1 and could be used as a molecularly defined therapeutic approach for MDR in the treatment of leukemia. 相似文献
16.
Yan Liu Ke-Ming Xie Guo-Qing Yang Xiao-Ming Bai Yuan-Ping Shi Hui-Jun Mu Wei-Zhen Qiao Bin Zhang Ping Xie 《Cancer chemotherapy and pharmacology》2010,66(3):433-439
We have previously shown that the expression of glucosylceramide synthase (GCS) gene in drug-resistant K562/AO2 human leukemia cell was higher than that in drug-sensitive K562 cell, and the sensitivity to adriamycin of K562/AO2 cell was enhanced by inhibiting GCS. It is concluded that the overexpression of GCS gene is one of the reasons which lead to multidrug resistance (MDR) of leukemia cell. Meanwhile, we also found that higher expression of Bcl-2 gene and protein were exhibited in K562/AO2 cell compared with K562 cell. Basing on this, we hypothesized that the high expression of GCS gene which results in MDR of leukemia cell is correlated with Bcl-2 signal transduction. In order to validate the hypothesis, the inhibition of GCS gene in K562/AO2 cell was observed by using chemical suppressor PPMP and siRNA targeted at GCS, and applying RT-PCR and flow cytometry, the expression levels of apoptosis-related gene Bcl-2 and Bax were analyzed before and after inhibiting GCS gene in K562/AO2 cell. The results demonstrated that the gene and protein of Bcl-2 in K562/AO2 cell were both down-regulated significantly after GCS gene being inhibited; however, the Bax mRNA expression had no apparent change in different groups. This suggested that GCS gene may contributed to MDR of human leukemia cell K562/AO2 by Bcl-2 signal transduction. 相似文献
17.
槲皮素恢复柔红霉素在白血病耐药细胞K562/ADM和HL-60/ADM中的分布 总被引:5,自引:1,他引:4
背景与目的:槲皮素是一种天然黄酮类中药成分,儿有多种生理活性,最近发现其有逆转白血病细胞耐药的作用,本研究旨在探讨槲皮素恢复柔红霉素在白血病耐药细胞的分布从而达到逆转耐药的机制:方法:通过MTT体外药敏法检测槲皮素对柔红霉素的增敏作用并确定逆转的浓度范围,作用于K562/ADM、HL-60/ADM细胞及相应敏感株K562和HL-60,借助激光共聚焦显微镜观察槲皮素怍用前后柔红霉素在亚细胞水平的分布变化:结果:20~40μmol/L槲皮素在体外能日月显提高柔红霉素对K562/ADM和HL-60/ADM的敏感性,恢复柔红霉素在亚细胞水平的分布,使其回归细胞核内,从而逆转多药耐药。结论:黄酬类中药槲皮素能够成为蒽环类药物治疗白血病中有效的化疗增敏剂。 相似文献
18.
目的 研究短发夹RNA(shRNA)对耐三氧化二砷(As2O3)的白血病K562/AS2细胞MRP1基因表达的抑制作用。方法 设计并合成3条针对MRP1基因的shRNA序列,在脂质体的介导下转染K562/AS2细胞;用荧光实时定量PCR分析MRP1 mRNA的表达水平;流式细胞术检测MRP1蛋白表达和细胞内柔红霉素蓄积量。结果 经MRP1 shRNA作用24 h后,K562/AS2细胞株中MRP1 mRNA和蛋白表达水平明显下降,最大下调幅度分别为(79.1±0.07)% 和(62.48±0.86)%(P<0.05),同时细胞内柔红霉素蓄积量显著增加(P<0.05)。结论 MRP1 shRNA可抑制As2O3耐药的白血病细胞株K562/AS2细胞MRP1基因的表达。 相似文献
19.
目的 研究短发夹RNA(shRNA)对耐三氧化二砷(As2O3)的白血病K562/AS2细胞MRPI基因表达的抑制作用.方法 设计并合成3条针对MRPI基因的shRNA序列,在脂质体的介导下转染K562/AS2细胞;用荧光实时定量PCR分析MRPI mRNA的表达水平;流式细胞术检测MRPI蛋白表达和细胞内柔红霉素蓄积量.结果 经MRPI shRNA作用24 h后,K562/AS2细胞株中MRPImRNA和蛋白表达水平明显下降,最大下调幅度分别为(79.1±0.07)%和(62.48±0.86)%(P<0.05),同时细胞内柔红霉素蓄积量显著增加(P<0.05).结论 MRPI shRNA可抑制As2O3耐药的白血病细胞株K562/AS2细胞MRPl基因的表达. 相似文献
