c-Myc通过调控ATP结合盒转运蛋白表达对CD133~+肠癌干细胞耐药性的影响

本文旨在探讨c-Myc通过调控ATP结合盒(ATP-binding cassette,ABC)转运蛋白表达对CD133~+肠癌干细胞耐药性的影响及机制。以人肠癌HT29细胞系为模型,通过流式细胞分选术获得CD133~+肠癌干细胞,以核心基因c-Myc为靶点设计小干扰RNA(siRNA),靶向抑制CD133~+细胞中c-Myc基因表达;免疫印迹法检测c-Myc沉默后ABC转运蛋白家族成员(ABCG2、MDR-1和ABCB5)表达水平变化;药敏实验检测肠癌干细胞对化疗药物(5-FU或/和奥沙利铂)的耐药性。结果显示,CD133~+细胞高表达核心基因c-Myc,si RNA显著抑制肠癌干细胞中c-Myc的表达水平;CD133~+肠癌干细胞对化疗药物(5-FU或/和奥沙利铂)具有耐药性;si RNA通过抑制c-Myc下调CD133~+肠癌干细胞ABC转运蛋白(ABCG2、MDR-1和ABCB5)的表达水平;靶向抑制c-Myc表达提高CD133~+肠癌干细胞对化疗药物的敏感性(P0.05)。以上结果表明,c-Myc通过调控ABC转运蛋白表达水平参与肿瘤干细胞的耐药机理,靶向抑制c-Myc能提高CD133~+肠癌干细胞对化疗药物的敏感性。     

EphA3促进胃癌细胞BGC823的增殖

目的:初步探索EphA3与胃癌细胞BGC823增殖的关系。方法:用T_4DNA连接酶将EphA3的全长cDNA片段连接到酶切后的慢病毒载体pCDH-EF1-MCS-T2A-Puro中制备慢病毒,感染胃癌BGC823细胞建立过表达EphA3细胞系,Western印迹检测目的蛋白的表达,CCK8细胞生长实验和裸鼠成瘤实验检测EphA3对BGC823细胞增殖的影响。结果:双酶切鉴定与基因测序表明过表达EphA3慢病毒载体构建成功;Western印迹表明建立了过表达EphA3的BGC823细胞系,高表达EphA3对BGC823细胞的增殖和成瘤后生长有明显的促进作用。结论:EphA3促进BGC823胃癌细胞增殖,为胃癌的靶向性治疗及个性化治疗提供了线索。     

B-RAF基因特异的siRNA干扰对胃癌BGC823细胞的影响

为探讨B-RAF基因特异的siRNA干扰对胃癌BGC823细胞的增殖和凋亡的影响, 设计并合成B-RAF小分子干扰RNA(B-RAF-siRNA)和阴性对照siRNA, 用TransMessenger介导转染胃癌BGC823细胞, RT-PCR分析检测胃癌BGC823细胞中B-RAF基因以及Bcl-2基因的表达; MTT检测胃癌BGC823细胞增殖情况; 流式细胞仪检测细胞凋亡情况, 并与对照组进行比较。TransMessenger能够有效介导B-RAF-siRNA和阴性对照siRNA转染胃癌BGC823细胞, TransMessenger介导的B-RAF-siRNA有效地抑制胃癌BGC823细胞B-RAF以及Bcl-2基因的表达, 与对照组相比, 抑制率达90.0%以上, 最高达100%; 同时明显抑制胃癌BGC823细胞增殖; 促进胃癌BGC823细胞的凋亡(P < 0.01)。B-RAF基因特异的siRNA干扰能有效地抑制胃癌BGC823细胞中B-RAF基因以及Bcl-2基因的表达, 同时促进胃癌细胞凋亡和抑制胃癌细胞增殖。     

蛋氨酸脑啡肽抑制人胃癌细胞BGC823增殖作用及免疫调节机制

采用不同浓度梯度的蛋氨酸脑啡肽(methionine enkephalin,MENK)体外作用于人胃癌细胞BGC823后,探讨对其增殖影响及其作用机制,为胃癌的免疫治疗提供理论依据。体外培养人胃癌细胞株BGC823,PCR检测阿片受体OGFr的表达;用不同浓度(0、1、2、3、4 mg/mL)的MENK体外作用于BGC823细胞24、48、72、96 h后,MTS检测MENK对其增殖影响;流式细胞术和Annexin V-FITC/PI双染法检测4 mg/mL MENK体外处理48、72 h后BGC823细胞凋亡变化。结果显示,人胃癌BGC823细胞有阿片受体OGFr的表达;MENK可抑制BGC823细胞增殖,且随着剂量的增加和时间的延长,其抑制作用逐渐增强(P0.05);4 mg/mL MENK48 h处理组与空白组相比细胞凋亡率增加,72 h处理组与48 h处理组结果一致(P0.05)。结果表明,MENK可抑制BGC823细胞增殖,具有显著的剂量依赖性和时间依赖性,且可通过诱导细胞凋亡抑制BGC823细胞的增殖。     

低氧模拟剂氯化钴对胃癌细胞BGC823中S100A4基因表达的影响

摘要: S100A4基因是肿瘤侵袭转移相关的重要基因, 该基因高表达与胃癌浸润、淋巴结转移及胃癌细胞体外侵袭力密切相关。为探讨S100A4基因高表达的机制, 文章应用低氧模拟剂氯化钴处理胃癌细胞BGC823, RT-PCR、免疫组化、免疫荧光及Western blotting方法分别检测BGC823细胞中S100A4 mRNA及蛋白表达情况。结果显示, 氯化钴处理胃癌BGC823细胞后, S100A4 mRNA及蛋白表达明显增加。提示低氧模拟剂氯化钴可促进胃癌细胞BGC823中S100A4 基因表达。     

胃癌SGC-7901细胞株侧群细胞分选及生物学特性的初步研究

目的:分选胃癌细胞株中的侧群(side population,SP)细胞并初步研究其相关生物学特性。方法:选择人胃癌细胞株SGC-7901,以荧光染料Hoechst 33342染色,维拉帕米拮抗对照,应用流式细胞仪检测并分选出SP细胞和nonSP细胞。CCK-8法观察两组细胞体外增殖活性;体外耐药实验检测两组细胞对化疗药物5-FU的耐药存活率;无血清培养基培养观察肿瘤球形成能力;荧光定量PCR检测干细胞相关基因Musashi-1和CD44在两组细胞中的表达差异;裸鼠体内成瘤实验观察两组细胞体内成瘤能力。 结果:胃癌细胞株SGC-7901中SP细胞的比例为2.8%,与nonSP细胞相比,SP细胞具有较强的体外增殖活性(P<0.05),对5-FU的耐药存活率明显高于nonSP细胞(P<0.05),在无血清培养基中能形成明显的肿瘤球,SP细胞中Musashi-1和CD44mRNA的相对表达量明显高于nonSP细胞(P<0.05),裸鼠体内成瘤实验表明,皮下注射2×10³ 个SP细胞就能形成肿瘤,而2×10⁴ 个nonSP细胞也不能形成肿瘤。 结论:胃癌细胞株SGC-7901中存在数量极少的SP细胞,SP细胞具有肿瘤干细胞的相关生物学特性。     

H.pylori-L型对胃癌BGC-823细胞侵袭力影响的研究

目的研究幽门螺杆菌L型(Helicobacter pyloriL-form,H.pylori-L型)感染对胃癌BGC-823细胞侵袭力影响,探讨H.pylori-L型在胃癌发展中的作用和可能机制。方法将胃癌BGC-823细胞与H.pylori-L型按1:50、1:200和1:500的不同比例共培养24 h,进行以下实验:(1)应用具有聚碳酸酯和重建基底膜的Transwell小室细胞侵袭模型,观察与H.pylori-L型作用后胃癌BGC-823细胞的侵袭能力;(2)应用Western-blotting实验测定胃癌BGC-823细胞OPN和MMP2蛋白表达量的变化。结果 (1)Transwell侵袭实验发现随着胃癌BGC-823细胞与H.pylo-ri-L型细菌的浓度比例增大,胃癌BGC-823细胞穿透重建基底膜的数量逐渐增多,穿透重建基底膜的胃癌细胞数量在不同实验组之间的差异有统计学意义(F=24.78,P0.01);(2)Western-blotting实验发现,随着胃癌BGC-823细胞与H.pylori-L型比例增大,胃癌BGC-823细胞中OPN和MMP2的表达量逐渐增加,呈细菌浓度依赖性。结论 H.pylori-L型感染增强胃癌细胞的侵袭能力,具有细菌浓度依赖效应,其机制可能与其上调了胃癌细胞OPN、MMP2表达有关。     

EM-3通过Stat3通路诱导鼻咽癌细胞凋亡和G_2/M期阻滞并降低SP细胞比例

目的:研究白花地胆草(Elephantopus mollis H.B.K)的乙醇提取物EM-3抗肿瘤作用分子机制。方法:MTT、克隆形成抑制和细胞划痕实验检测EM-3对鼻咽癌细胞增殖、迁移能力的影响;Annexin V-FITC/PI双染法检测细胞凋亡;PI单染检测细胞周期;超速流式分选细胞仪检测鼻咽癌CNE2-S18肿瘤干细胞样SP细胞(side population cell)比例;Western blotting检测细胞凋亡、周期、侵袭迁移及肿瘤干细胞相关蛋白表达变化。结果:MTT、克隆形成抑制和细胞划痕实验结果表明,EM-3可以显著抑制鼻咽癌细胞的增殖,随着药物浓度的增大,细胞克隆数逐渐减少,体积逐渐变小,而且能够显著抑制鼻咽癌细胞的迁移;流式细胞术结果表明随着药物浓度的增加,凋亡率逐渐增加,并且G_2/M期细胞比例逐渐增加;超速流式分选细胞仪结果表明,EM-3可以显著降低CNE2-S18肿瘤干细胞样SP细胞的比例;Western blotting结果表明,随着药物浓度的增加,x IAP、Bcl-2、Cyclin D1、MMP2(药物高浓度)、MMP9、p-Met、Oct4(药物高浓度)及Sox2蛋白表达减少,而Cyclin B1、Bax蛋白表达增多,并伴随Caspase-9、Caspase-3活化及多聚ADP核糖聚合酶PARP酶切失活。结论:EM-3通过抑制Stat3通路诱导鼻咽癌细胞发生凋亡,并诱导G_2/M期阻滞。此外,EM-3经MMPs途径抑制鼻咽癌细胞迁移,同时可以有效降低CNE2-S18肿瘤干细胞样SP细胞干性。     

生半夏、南星水提物对人胃癌BGC823 细胞的侵袭力及 HIF-1αmRNA 蛋白表达的影响

目的:观察生半夏、南星中药水提物对缺氧环境中人胃癌细胞株BGC823细胞HIF-1α蛋白表达和侵袭力的影响。方法:运用CoCl(2氯化钴)诱导BCG823细胞缺氧,使得细胞中HIF-1α蛋白表达升高.实验组加入生半夏、南星水提物对细胞进行预处理,然后在进行缺氧诱导。通过甲基噻唑基四唑法(MTT)检测细胞活性,使用Transwell检测细胞侵袭能力变化,RT-PCR、Western blotting分别检测HIF-1α mRNA及蛋白含量及变化。结果:生半夏、南星水提物能抑制人胃癌BGC823细胞的增殖;生半夏、南星水提物均能抑制缺氧诱导胃癌细胞的侵袭力,并且能降低HIF-1α mRNA及蛋白表达。结论:生半夏、南星水提物可抑制人胃癌BGC823细胞的增殖,抑制人胃癌BGC823细胞侵袭力,可能通过降低HIF-1α蛋白表达有关。     

肝再生磷酸酶-2的最新研究进展

肝再生磷酸酶-2(phosphatase of regenerating liver-2,PRL-2)是蛋白酪氨酸磷酸酶家族的成员。作为一种蛋白磷酸酶,PRL家族因其成员PRL-3在肿瘤组织中的特异性高表达而备受人们关注。在近几年的研究中,人们逐渐把目光转向了在正常人体各个组织中均高表达的PRL-2分子,现综述了PRL-2的生物学功能及其在肿瘤相关研究中的最新进展。     

Glycolysis inhibition inactivates ABC transporters to restore drug sensitivity in malignant cells

Cancer cells eventually acquire drug resistance largely via the aberrant expression of ATP-binding cassette (ABC) transporters, ATP-dependent efflux pumps. Because cancer cells produce ATP mostly through glycolysis, in the present study we explored the effects of inhibiting glycolysis on the ABC transporter function and drug sensitivity of malignant cells. Inhibition of glycolysis by 3-bromopyruvate (3BrPA) suppressed ATP production in malignant cells, and restored the retention of daunorubicin or mitoxantrone in ABC transporter-expressing, RPMI8226 (ABCG2), KG-1 (ABCB1) and HepG2 cells (ABCB1 and ABCG2). Interestingly, although side population (SP) cells isolated from RPMI8226 cells exhibited higher levels of glycolysis with an increased expression of genes involved in the glycolytic pathway, 3BrPA abolished Hoechst 33342 exclusion in SP cells. 3BrPA also disrupted clonogenic capacity in malignant cell lines including RPMI8226, KG-1, and HepG2. Furthermore, 3BrPA restored cytotoxic effects of daunorubicin and doxorubicin on KG-1 and RPMI8226 cells, and markedly suppressed subcutaneous tumor growth in combination with doxorubicin in RPMI8226-implanted mice. These results collectively suggest that the inhibition of glycolysis is able to overcome drug resistance in ABC transporter-expressing malignant cells through the inactivation of ABC transporters and impairment of SP cells with enhanced glycolysis as well as clonogenic cells.     

半分子转运蛋白ABCG2的肿瘤多药耐药性研究及其应用

肿瘤常对临床上传统使用的多种化学治疗显示其内源性或获得性的药物耐受性即多药耐药性(multidrug resistance,MDR)．这种多药耐药性主要是由一类称为ABC(ATP-binding cassette)转运体蛋白超家族的跨膜蛋白引起的,它们结合并利用水解ATP提供的能量来转运药物,导致肿瘤细胞呈现抗药性．半分子转运蛋白ABCG2是近年来才发现的可归于ABC转运体大家族中的一个新成员,在肠、肝、胎盘和血脑屏障等部位大量表达,与全分子转运蛋白如P-gp (P-glycoprotein)和多药耐药蛋白(multi-drug resistance protein,MRP)相似,可以主动地把具有不同化学结构和作用于细胞内不同靶位点的化疗药物泵出胞外,从而引起肿瘤对多种抗癌药物(包括最新开发的药物)产生抗性．最近的一些十分有趣的研究还表明,ABCG2可能与干细胞分化状态和保护干细胞发育过程中免受周围环境的影响有关,而且还发现,它在侧群骨髓和神经干细胞内大量存在,因此,ABCG2可能在基因治疗中作为选择性的蛋白质标记正受到研究者们的极大关注．同时,ABCG2的单核苷酸多态性影响其结合并转运不同的底物/药物．鉴于ABCG2在肿瘤抗药性研究中的重要性以及它的一些新功能的初步研究表明,对ABCG2的生物学功能和作用机理以及在医学实践中的应用研究必将受到更大的关注．主要阐述了半分子ABC转运蛋白ABCG2的发现、重要的生化特性和生理功能及其相关的新研究进展和问题．     

Veliparib overcomes multidrug resistance in liver cancer cells

Overexpression of ATP-binding cassette (ABC) transporter is one of the most important factors taking responsibility for the progress of multidrug resistance (MDR) in multiple cancers. In this study, we investigated that veliparib, a PARP inhibitor which is in clinical development, could overcome ABCB1-mediated MDR in liver cancer cells. Veliparib could significantly enhance the cytotoxic effects of a series of conventional chemotherapeutic drugs in ABCB1-overexpression liver cancer cells. Mechanism study showed that veliparib could significantly enhance the accumulation of doxorubicin in ABCB1-overexpression liver cancer cells, without down-regulating the expression level of ABCB1. Finally, veliparib could significantly inhibit the ATPase activity of ABCB1 transporter. This study could provide information that combine veliparib with other chemotherapeutic drugs may benefit liver cancer patients.     

Autophagy inhibition suppresses the tumorigenic potential of cancer stem cell enriched side population in bladder cancer

The mechanisms that underlie tumor formation and progression have not been elucidated in detail in cancer biology. Recently, the identification of a tumor cell subset defined as cancer stem cells (CSCs), which is enriched for tumor initiating capacity, has engendered new perspectives towards selective targeting of tumors. In this study, we isolated the side population (SP) cells which share characteristics of CSCs from bladder cancer cell lines, T24 and UM-UC-3 by fluorescence activated cell sorting. The cells were cultured in serum free medium and expression profile of stem cell like markers (SOX-2, NANOG, KLF-4 and OCT-4), drug resistant genes (ABCG2 and MDR1) and spheroid forming capability were examined in SP, non-side population (NSP) and bulk T24 and UM-UC-3 cells. We observed that SP cells possessed a higher mRNA expression of SOX-2, NANOG, KLF-4, OCT-4, ABCG2, and MDR1 as well as a higher spheroid forming ability as compared to other bulk cells or NSP cells. The SP cells had low ROS levels and high GSH/GSSG ratio which may contribute to radio-resistance. The SP cells also showed substantial resistance to gemcitabine, mitomycin and cisplatin compared with the NSP counterpart. A high autophagic flux was observed in the SP cells. Both pharmacological and siRNA mediated inhibition of autophagy potentiated the chemotherapeutic effects of gemcitabine, mitomycin and cisplatin in these cells. We concluded that the ABCG2 expressing SP cells show autophagy associated cell survival and may be a potent target for developing more effective treatment in bladder carcinoma to enhance patient survival.     

Salinomycin overcomes ABC transporter-mediated multidrug and apoptosis resistance in human leukemia stem cell-like KG-1a cells

Leukemia stem cells are known to exhibit multidrug resistance by expression of ATP-binding cassette (ABC) transporters which constitute transmembrane proteins capable of exporting a wide variety of chemotherapeutic drugs from the cytosol. We show here that human promyeloblastic leukemia KG-1a cells exposed to the histone deacetylase inhibitor phenylbutyrate resemble many characteristics of leukemia stem cells, including expression of functional ABC transporters such as P-glycoprotein, BCRP and MRP8. Consequently, KG-1a cells display resistance to the induction of apoptosis by various chemotherapeutic drugs. Resistance to apoptosis induction by chemotherapeutic drugs can be reversed by cyclosporine A, which effectively inhibits the activity of P-glycoprotein and BCRP, thus demonstrating ABC transporter-mediated drug resistance in KG-1a cells. However, KG-1a are highly sensitive to apoptosis induction by salinomycin, a polyether ionophore antibiotic that has recently been shown to kill human breast cancer stem cell-like cells and to induce apoptosis in human cancer cells displaying multiple mechanisms of drug and apoptosis resistance. Whereas KG-1a cells can be adapted to proliferate in the presence of apoptosis-inducing concentrations of bortezomib and doxorubicin, salinomycin does not permit long-term adaptation of the cells to apoptosis-inducing concentrations. Thus, salinomycin should be regarded as a novel and effective agent for the elimination of leukemia stem cells and other tumor cells exhibiting ABC transporter-mediated multidrug resistance.     

High level functional expression of the ABCG2 multidrug transporter in undifferentiated human embryonic stem cells

Expression of multidrug resistance ABC transporters has been suggested as a functional marker and chemoprotective element in early human progenitor cell types. In this study we examined the expression and function of the key multidrug-ABC transporters, ABCB1, ABCC1 and ABCG2 in two human embryonic stem (HuES) cell lines. We detected a high level ABCG2 expression in the undifferentiated HuES cells, while the expression of this protein significantly decreased during early cell differentiation. ABCG2 in HuES cells provided protection against mitoxantrone toxicity, with a drug-stimulated overexpression of the transporter. No significant expression of ABCB1/ABCC1 was found either in the undifferentiated or partially differentiated HuES cells. Examination of the ABCG2 mRNA in HuES cells indicated the use of selected promoter sites and a truncated 3' untranslated region, suggesting a functionally distinct regulation of this transporter in undifferentiated stem cells. The selective expression of the ABCG2 multidrug transporter indicates that ABCG2 can be applied as a marker for undifferentiated HuES cells. Moreover, protection of embryonic stem cells against xenobiotics and endobiotics may depend on ABCG2 expression and regulation.     

ABC transporters coordinately expressed during lignification of Arabidopsis stems include a set of ABCBs associated with auxin transport

The primary inflorescence stem of Arabidopsis thaliana is rich in lignified cell walls, in both vascular bundles and interfascicular fibres. Previous gene expression studies demonstrated a correlation between expression of phenylpropanoid biosynthetic genes and a subset of genes encoding ATP-binding cassette (ABC) transporters, especially in the ABCB/multi-drug resistance/P-glycoprotein (ABCB/MDR/PGP) and ABCG/pleiotropic drug resistance (ABCG/PDR) subfamilies. The objective of this study was to characterize these ABC transporters in terms of their gene expression and their function in development of lignified cells. Based on in silico analyses, four ABC transporters were selected for detailed investigation: ABCB11/MDR8, ABCB14/MDR12, ABCB15/MDR13, and ABCG33/PDR5. Promoter::glucuronidase reporter assays for each gene indicated that promoters of ABCB11, ABCB14, ABCB15, and ABCG33 transporters are active in the vascular tissues of primary stem, and in some cases in interfascicular tissues as well. Homozygous T-DNA insertion mutant lines showed no apparent irregular xylem phenotype or alterations in interfascicular fibre lignification or morphology in comparison with wild type. However, in abcb14-1 mutants, stem vascular morphology was slightly disorganized, with decreased phloem area in the vascular bundle and decreased xylem vessel lumen diameter. In addition, abcb14-1 mutants showed both decreased polar auxin transport through whole stems and altered auxin distribution in the procambium. It is proposed that both ABCB14 and ABCB15 promote auxin transport since inflorescence stems in both mutants showed a reduction in polar auxin transport, which was not observed for any of the ABCG subfamily mutants tested. In the case of ABCB14, the reduction in auxin transport is correlated with a mild disruption of vascular development in the inflorescence stem.     

乳腺癌耐药蛋白的研究进展

乳腺癌耐药相关蛋白(BCRP/ABCG2)是新近发现的ATP结合盒(Adenosine triphosphate-binding cassette,ABC)膜转运蛋白超家族成员。它作为细胞膜上的药物排出泵,可以将一系列细胞毒药物转运至胞外从而介导肿瘤细胞多药耐药。在很多血液肿瘤和实体瘤中均检测到ABCG2表达。ABCG2在肿瘤的多药耐药上发挥重要作用。本文对ABCG2的发现、基因表达特征、与造血干细胞分化的关系、转运底物及其耐药逆转和临床意义等方面的研究进展进行综述。