47例原发性乳腺癌多药耐药MDR1基因表达及其临床意义

[目的]探讨原发性乳腺癌多药耐药MDR1基因的表达及其临床意义.[方法]采用荧光定量RT-PCR法检测47例乳腺癌组织及15例正常对照(包括5例乳腺纤维腺瘤、10例癌旁组织)MDR1基因的表达.[结果]乳腺癌MDR1基因表达阳性率为46.8%,与病人年龄、肿瘤大小、淋巴结转移与否、ER、PR状况、绝经与否无关.对照组中无MDR1基因表达.[结论]乳腺癌MDR1基因的表达可作为乳腺癌化疗耐药的评价指标,能否作为判断预后的独立指标尚需进一步研究.     

建立一种新的多药耐药的诱导方法

目的建立裸鼠原位肝癌耐药模型。方法培养肝癌细胞系HepG2,建立裸鼠的皮下肿瘤,形成“供瘤鼠”。开腹直视下将瘤块种植于裸鼠的肝包膜下建立原位肝癌模型,通过表阿霉素间歇腹腔化疗,建立裸鼠原位肝癌耐药模型。用体检、B超、CT、剖腹探查监测肝内瘤块生长情况。用逆转录聚和酶链反应(RT-PCR)和免疫组织化学方法检测肿瘤耐药基因mdrl-mRNA和p-gp蛋白的表达。结果(1)模型建立无手术死亡(0/25),种植成瘤率为88%(22/25),补种3例全部成功,耐药诱导成功率为80%(16/20);(2)诱导组mdrl-mRNA和P-gp蛋白的表达均明显高于对照组,分别约是对照组的23倍和13倍。结论成功地建立了与临床肝癌相似的裸鼠原位肝癌耐药模型,为进一步研究肝癌多药耐药基因的诊断和逆转提供了良好的动物平台。     

Bacterial ghosts (BGs)—Advanced antigen and drug delivery system

Bacterial ghosts (BGs) are empty bacterial envelopes of Gram-negative bacteria produced by controlled expression of cloned gene E, forming a lysis tunnel structure within the envelope of the living bacteria. BGs are devoid of cytoplasmic content and possess all bacterial bio-adhesive surface properties in their original state while not posing any infectious threat. BGs are ideally suited as an advanced drug delivery system (ADDS) for toxic substances in tumor therapy. The inner space of BGs can be loaded with either single components or combinations of peptides, drugs or DNA which provides an opportunity to design new types of (polyvalent) drug delivery vehicles. Uptake of BGs loaded with Doxorubicin (Dox) by CaCo2 cells led to effective Dox release from endo-lysosomal compartments and accumulation in the nucleus. Viability and proliferative capacity of the cells were significantly decreased (2–3 orders of magnitude) after internalization of Dox loaded BGs as compared to cells incubated with free Dox. The same effect was observed with leukemia cells. Melanoma cells also revealed a high capability to internalize BGs. These results indicate that BGs are able to target a range of types of cancer. BGs have also been investigated as DNA delivery vectors. Studies show DNA loaded BGs are efficiently phagocytosed and internalized by both professional APCs and tumor cells with up to 82% of cells expressing the plasmid-encoded reporter gene. Our studies with BGs as an ADDS system contribute (i) to optimize drug delivery for the treatment of cancer; (ii) define specific conditions for selection and preparation of BG formulations; (iii) and provide a background for the clinical application of BGs in cancer therapy.     

肺癌患者FLK-1、LRP和MDR1的表达与临床研究

目的:探讨血管内皮生长因子受体 (Flk 1),肺耐药蛋白 (LRP)基因以及多药耐药基因 (MDR1)蛋白与肺癌患者临床及病理指标的关系。方法:用免疫组化技术(ABC法)对原发性肺癌组织中三种基因的表达进行检测。结果: 70例肺癌中,非小细胞肺癌MDR1阳性率 49. 2% (29 /59),明显高于小细胞肺癌 (SCLC) 18. 2% (2 /11)(P<0. 05);非小细胞肺癌LRP阳性率 69. 5% (41 /59),明显高于小细胞肺癌 27. 3% (3 /11) (P<0. 05)。腺癌中MDR1与LRP的表达明显高于鳞癌(P<0. 05)。LRP与Flk 1在NSCLCs中共同表达 49. 2% (29 /59),LRP的表达与肺癌的组织学分级相关,MDR1和LRP的表达与肺癌的组织学类型有关,Flk 1与TNM分期相关,均有统计学意义(P<0. 05)。Flk 1 LRP均阳性、FLK 1 LRP MDR1均阳性、中药治疗、复发与患者的生存率有关(P<0. 05)。结论:FLK 1、LRP和MDR1基因蛋白产物的检测对肺癌患者的诊治和预后评估有积极意义。     

Fas和mdr-1在急性白血病的表达及其相关性研究

本研究应用流式细胞仪 (FCM)直接免疫荧光法和半定量RT PCR方法分别测定 5 9例初发急性白血病(AL)患者治疗前及完全缓解 (completeremission ,CR)后骨髓Fas和mdr 1mRNA表达情况 ,旨在探讨Fas和mdr 1在AL的表达及二者在多药耐药 (multidrugresistance ,MDR)中的相关性。结果显示 :Fas在初发AML阳性表达率比ALL高 ,两表达率间有差异 (P <0 .0 5 ) ,mdr 1在AML和ALL阳性表达率间无差异 (P >0 .0 5 ) ,Fas 与mdr 1 有负相关性 (r =- 0 .2 82 ,P <0 .0 5 ) ;经单因素及多因素COX分析 ,Fas和mdr 1独立于其他参数 ,更具判断预后价值 ;在Fas 与Fas-的AML和AL ,CR率均有显著性差异 (P <0 .0 1) ,在mdr 1 、mdr 1-的AML和AL中的CR率有显著性差异 (P <0 .0 1) ;经Logrank检验 ,Fas 与Fas-组CR率及中数缓解时间有显著性差异 (χ2 =7.35 ,P =0 .0 0 6 7) ,mdr 1 与mdr 1-组CR率及中数缓解时间有显著性差异 (χ2 =10 .71,P =0 .0 0 11)。结论 :Fas、mdr 1与疗效高度相关 ;Fas阳性表达可能是AL预后良好因素 ;mdr 1为疗效差、预后不良的重要因素。     

P-glycoprotein (P-gp) function in T cells: implications for organ transplantation

P-glycoprotein (P-gp), a member of the adenosine triphosphate (ATP)-binding cassette (ABC) family of transporter molecules, is responsible for maintaining low intracellular concentrations of a variety of extracellular compounds and xenobiotics, and for transport of various intracellular molecules. Many drugs are P-gp substrates and intracellular concentrations of these agents may be critical for drug action. Experience in oncology indicates that repeated exposure to P-gp substrate cytotoxic drugs leads to the selection of drug-resistant tumor cells that overexpress P-gp. Since immunosuppressive agents such as cyclosporine, tacrolimus, sirolimus and corticosteroids are substrates for P-gp and since T-cells also express P-gp, it is conceivable that an analogous mechanism exits for therapy-resistant graft rejection. As will be discussed in this article, P-gp may interfere with the response to immunosuppressive therapy through several distinct mechanisms, and as such may represent an attractive therapeutic target.     

CYP3A5 and ABCB1 Polymorphisms and Tacrolimus Pharmacokinetics in Renal Transplant Candidates: Guidelines from an Experimental Study

Genetic polymorphisms in biotransformation enzyme CYP3A5 (6986G > A, CYP3A5*3; 14690A > G, CYP3A5*6) and drug transporter ABCB1 (1236C > T; 2677G > T/A; 3435C > T) are known to influence tacrolimus (Tac) dose requirements and trough blood levels in stable transplant patients. In a group of 19 volunteers selected with relevant genotypes among a list of 221 adult renal transplant candidates, we evaluated whether consideration of CYP3A5 and ABCB1 genetic polymorphisms could explain the interindividual variability in Tac pharmacokinetics after the first administration of a standard dose (0.1 mg/kg body weight twice a day). Lower area under the time versus blood concentration curves (AUC) or lower trough concentrations were observed among CYP3A5 expressors (n = 9) than among nonexpressors (n = 10) using two different analytical methods for Tac determination (liquid chromatography with tandem mass spectrometry (LC-MS/MS) and immunoassay). The median AUC(0-infinity) was 2.6- and 2.1-fold higher in nonexpressors for LC-MS/MS and immunologic methods, respectively. No difference was observed in Tac pharmacokinetic parameters in relation to ABCB1 polymorphisms. In conclusion, our study confirms the very significant effect of CYP3A5 polymorphism early after the first administration of Tac. It also provides a strong argument for a doubling of the loading dose in patients early identified a priori on the transplantation list as possessing at least one CYP3A5*1 allele.     

肾移植患者的多药耐药基因外显子26基因型与术后他克莫司用量的关系

目的研究肾移植患者的多药耐药基因(MDR1)外显子26(exon26)的基因型与术后他克莫司(FK506)用量的关系。方法回顾106例肾移植术后常规使用FK506患者的临床资料。肾移植患者MDR1 exon26基因分型的方法为:提取患者的DNA,采用聚合酶链反应(PCR)扩增MDR1基因,检测限制性内切酶片段的多态性(RFLP)。根据MDR1 exon26基因分型将患者分为CC、CT和TT 3组。检测各组患者肾移植后第3、6和12个月的FK506血药浓度,比较各组患者FK506血药浓度／FK506用量(μg·L-1／mg·kg-1·d-1)的比值及术后1个月内的急性排斥反应发生率。结果受者经MDR1 exon26基因分型示:CC型32例(30．2％),TT型30例(28．3％),CT型44例(41．5％)。CC型患者FK506血药浓度／FK506用量的比值明显低于CT型和TT型(P<0．01),而CT型患者又低于TT型(P<0．05)。CC型患者的排斥反应发生率明显高于CT和TT型(P<0．05),CT与TT型比较,差异无统计学意义(P>0．05)。结论MDR1 exon26 CC型的患者与CT或TT型比较,需服用更高剂量的FK506才能取得与CT或TT型相似的血药浓度。因此,了解患者的MDR1 exon26基因型有利于指导患者肾移植术后个体化用药。     

人乳腺癌MDR1基因稳定沉默细胞的筛选及其生物学特性

目的筛选MDR1沉默的人乳腺癌细胞并比较其生物学特性。方法采用BLOCK-iT Lentiviral RNAi Expres-sion System生产表达MDR1基因shRNA的慢病毒载体,转导敏感人乳腺癌细胞MCF-7和耐阿霉素人乳腺癌细胞MCF-7/ADM,杀稻瘟菌素(blasticidin)筛选获得MDR1稳定沉默细胞MCF-7/RNAi和MCF-7/ADM/RNAi。定量RT-PCR检测MDR1mRNA表达,流式细胞术检测P-GP蛋白表达和功能,MTT法检测药物敏感性。结果经10 mg/L blasticidin筛选12 d获得MCF-7/RNAi和MCF-7/ADM/RNAi细胞。MCF-7、MCF-7/RNAi、MCF-7/ADM和MCF-7/ADM/RNAi细胞的MDR1mRNA相对表达水平分别为1、0.13、17.14和2.01;P-GP表达分别为(1.5±0.3)%、(1.2±0.2)%、(89.4±3.6)%和(16.3±1.9)%;细胞内Rh123的潴留分别为(92.4±3.1)%、(90.6±4.0)%、(13.6±1.6)%、(72.4±2.8)%;IC50值分别为0.90、0.92、19.61和4.04 mg/L。结论应用慢病毒载体稳定沉默MDR1基因可有效逆转人乳腺癌细胞耐药性。