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．     

一种新型干细胞--侧群细胞

侧群细胞(side population cell)是利用Hoechst染料和流式细胞术进行造血千／祖细胞分离时发现的一群特殊细胞,广泛分布于多种成体组织、胚胎和某些肿瘤细胞系中;它既具有类似千细胞的自我更新和多向分化潜能,还具有独特的表型标记和生物学特征,代表了一种新的千细胞类型。对侧群细胞的研究,不仅有助于人们增加对千细胞增殖、分化及其发育调控机制的理解,同时还提供了一种从不同组织中分离纯化和利用多能干细胞的新策略,为组织工程和细胞治疗提供新的千细胞材料来源。现就侧群细胞的组织分布、生物学特征、表型标记、信号转导机制及其与肿瘤发生相关性等方面的研究进展进行了综述,并对侧群细胞的进一步研究和应用作了展望。     

膜转运蛋白ABCA1的结构与功能

膜转运蛋白ABCA1可以将包括胆固醇、磷脂在内的多种物质由细胞内转运至胞外,发挥抗动脉硬化的功能,它的突变可以导致严重的HDL缺乏综合征。该就ABCA1的结构与功能关系,作用机制,调控等方面做一简要介绍。     

转运蛋白ABCG1/4 和ABCA1对脑胆固醇的调节作用

脑是富含胆固醇的器官,机体大约有25%的胆固醇集中在脑组织中.ATP结合盒超家族转运蛋白对脑组织中胆固醇的膜外转运和动态平衡起着重要的调节作用.研究发现,ATP结合盒超家族转运蛋白亚体ABCG1、ABCG4和ABCA1在成体脑组织中存在不同程度的表达,一种或多种亚体的缺失可以导致神经退行性病变.然而,ATP结合盒超家族转运蛋白亚体对脑发育过程中脑胆固醇动态变化的调节缺乏相关性的报道.在本研究中,从低胆固醇饮食喂养的C57BL/6J小鼠中获取出生后不同发育时期的脑组织,对ABCG1、ABCG4和ABCA1的mRNA与蛋白质表达水平进行测定,并对脑组织和血清中ATP结合盒超家族转运蛋白的表达水平与胆固醇水平的相关性进行研究.同时,使用ABCG1、ABCG4单一基因敲除鼠和ABCG1、ABCG4双基因敲除鼠,研究ATP结合盒超家族转运蛋白对与胆固醇合成的相关基因表达的影响以及对脑组织胆固醇代谢的调节作用.结果发现,ABCG1、ABCG4和ABCA1在机体多个器官中均有表达,但ABCG1和ABCG4在小鼠脑组织中表达量最高.在脑组织发育过程中,ABCG1和ABCG4mRNA水平呈现明显的表达时效性,小鼠于出生后42天达到峰值,而ABCA1 mRNA的表达水平无明显变化.血清和脑组织中中酯化型胆固醇水平呈双高峰分布,也于出生后42天达到最高.基因敲除鼠模型显示,单一敲除ABCG1或者ABCG4基因对脑组织胆固醇水平无明显影响,而ABCG1和ABCG4基因的同时缺失导致脑胆固醇水平显著升高,并明显降低胆固醇合成相关基因的表达水平.本研究表明,在脑发育成熟过程中,ATP结合盒超家族转运蛋白亚体ABCG1和ABCG4,而非ABCA1,以调节脑胆固醇的膜外转运;ABCG1和ABCG4互补调控脑胆固醇的动态平衡.     

人白血病细胞系KG-1a中肿瘤干细胞样亚群细胞的初步研究

探讨人白血病细胞系KG-1a中是否存在具有肿瘤干细胞样生物学特性的亚群细胞.瑞氏染色和吖啶橙染色分别观察白血病细胞系KG-1a细胞形态和RNA含量:流式细胞术检测细胞周期分布;免疫组化和流式细胞术检测KG-1a细胞CD34的表达;流式细胞术检测CD34 CD38-亚群细胞;烟酸己可碱Hoechst33342染色后用荧光显微镜观察KG-1a细胞中侧群(side population,SP)样细胞所占比例.结果显示,白血病细胞系KG-1a细胞核仁易见,形态原始;部分细胞RNA含量低,细胞处于G0/G1期的比例占15.5%.绝大多数细胞的胞浆和胞膜皆表达CD34抗原,KG-1a中CD34 细胞占96.3%,CD34 CD38-亚群细胞占7.02%;SP样细胞大致比例为7.60%.本研究表明.人白血病细胞系KG-1a中存在具有肿瘤干细胞样生物学特性的亚群细胞.     

乙肝病毒X蛋白通过激活NF-κB信号通路上调ABCG2的表达

目的：研究乙肝病毒X蛋白（HBx）通过核因子-κB（NF-κB）信号通路对半转运蛋白（ABCG2）的调节作用。方法：用特异性的NF-κB信号通路阻断剂PDTC阻断NF-κB信号通路,荧光双标激光扫描共聚焦显微镜观察L02细胞系转染HBx基因前后及PDTC加入前后NF-κB信号通路的激活、失活情况,同时用Real-time PCR和Western Blot技术检测转染前后及PDTC加入前后ABCG2在mRNA及蛋白水平的表达变化。结果：以L02细胞为参照,转染HBx基因后的L02-HBx细胞NF-κB信号通路被激活,ABCG2 mRNA和蛋白水平分别增加3.62±0.15和4.61±0.73倍,差异有统计学意义（P〈0.05）;PDTC作用24h后L02/HBx细胞NF-κB信号通路阻断,ABCG2 mRNA和蛋白表达分别为2.15±0.32倍和2.37±0.55倍,与未加入PDTC作用的L02-HBx细胞相比均有统计学意义（P〈0.05）。结论：NF-κB信号通路是HBx上调ABCG2表达的途径之一。     

乙肝病毒X 蛋白通过激活NF-κB 信号通路上调ABCG2 的表达

目的:研究乙肝病毒X蛋白(HBx)通过核因子-κB(NF-κB)信号通路对半转运蛋白(ABCG2)的调节作用。方法:用特异性的NF-κB信号通路阻断剂PDTC阻断NF-κB信号通路,荧光双标激光扫描共聚焦显微镜观察L02细胞系转染HBx基因前后及PDTC加入前后NF-κB信号通路的激活、失活情况,同时用Real-time PCR和Western Blot技术检测转染前后及PDTC加入前后ABCG2在mRNA及蛋白水平的表达变化。结果:以L02细胞为参照,转染HBx基因后的L02-HBx细胞NF-κB信号通路被激活,ABCG2 mRNA和蛋白水平分别增加3.62±0.15和4.61±0.73倍,差异有统计学意义(P<0.05);PDTC作用24h后L02/HBx细胞NF-κB信号通路阻断,ABCG2 mRNA和蛋白表达分别为2.15±0.32倍和2.37±0.55倍,与未加入PDTC作用的L02-HBx细胞相比均有统计学意义(P<0.05)。结论:NF-κB信号通路是HBx上调ABCG2表达的途径之一。     

锌转运蛋白8与1型和2型糖尿病的研究进展

ZnT8(zinc transporter,member8)是锌离子转运蛋白,主要定位于胰岛β细胞,能将胞浆锌离子转运至胰岛素储存/分泌性囊泡内,其转运功能降低会影响胰岛素合成、储存和分泌,能增加2型糖尿病(T2DM)的发病风险。ZnT8蛋白也可作为抗原引起β细胞自身免疫损伤,诱发1型糖尿病(T1DM)。ZnT8基因多态性是引起其锌离子转运功能和免疫原性变化的重要因素,与糖尿病的发生、发展密切相关。该文综述了ZnT8与T1DM和T2DM的研究进展,提示ZnT8可作为糖尿病防治的新药物靶点。     

植物Na+/H+逆向转运蛋白功能及调控的研究进展

Na+/H+逆向转运蛋白是一种调控Na+、H+跨膜转运的膜蛋白,对细胞内Na+的平衡和pH值的调控等活动具有重要作用。该文主要对近年来Na+/H+逆向转运蛋白功能及其调控的研究进展进行概述,着重讨论其在调控离子稳态平衡,液泡pH值大小与花色显现,以及在影响细胞,器官(叶片)发育,盐胁迫信号转导等方面的可能作用。     

植物Mg2+转运蛋白与相关基因及其功能的研究进展

镁离子是植物细胞中最丰富的二价阳离子.在植物的生长发育中起着重要的作用.对Mg2+独特的几何和化学性质,Mg2对植物细胞体内中动态平衡的影响,植物中Mg2+转运相关蛋白与相关基因及其功能的研究进展进行了综述.     

The ABC transporter Bcrp1/ABCG2 is expressed in a wide variety of stem cells and is a molecular determinant of the side-population phenotype

Stem cells from bone marrow, skeletal muscle and possibly other tissues can be identified by the 'side-population' (SP) phenotype. Although it has been assumed that expression of ABC transporters is responsible for this phenotype, the specific molecules involved have not been defined. Here we show that expression of the Bcrp1 (also known as Abcg2 murine/ABCG2 human) gene is a conserved feature of stem cells from a wide variety of sources. Bcrp1 mRNA was expressed at high levels in primitive murine hematopoietic stem cells, and was sharply downregulated with differentiation. Enforced expression of the ABCG2 cDNA directly conferred the SP phenotype to bone-marrow cells and caused a reduction in maturing progeny both in vitro and in transplantation-based assays. These results show that expression of the Bcrp1/ABCG2 gene is an important determinant of the SP phenotype, and that it might serve as a marker for stem cells from various sources.     

Akt signaling regulates side population cell phenotype via Bcrp1 translocation

Akt is an important regulator of cell survival, growth, and glucose metabolism in many cell types, but the role of this signaling molecule in hematopoietic stem cells is poorly defined. Side population (SP) cells are enriched for hematopoietic stem cell activity and are defined by their ability to efficiently efflux Hoechst 33342. Bone marrow from Akt1-null mice exhibited a reduced SP fraction. However, bone marrow cellularity, growth factor-responsive progenitor cultures, and engraftable stem cells were normal in these mice. Treatment of bone marrow with LY294002, an inhibitor of the Akt effector protein phosphatidylinositol 3-kinase, led to a reversible loss of the SP fraction. Bcrp1, which encodes the Hoechst dye transporter, was translocated from the membrane to the intracellular compartment under conditions that promote the SP-depleted state. Lentivirus-mediated overexpression of Akt1 in bone marrow markedly increased the SP fraction, whereas there was no effect on bone marrow from Bcrp(-/-) mice. These data suggest that Akt signaling modulates the SP cell phenotype by regulating the expression of Bcrp1.     

Human limbal epithelium contains side population cells expressing the ATP-binding cassette transporter ABCG2

Pemphigus vulgaris (PV) is an autoimmune disease characterized by binding of IgG autoantibodies to epidermal keratinocyte desmosomes. IgG autoantibodies obtained from a patient with mucocutaneous PV reacted with plakoglobin (Plkg) in addition to desmoglein-3 (Dsg3) and Dsg1. Immunofluorescence analysis confirmed that IgG autoantibodies, unlike antibodies from a healthy volunteer, caused disruption of cell-cell contacts in HaCaT keratinocytes. Moreover, apoptosis was enhanced in cells treated with autoantibodies compared to those treated with normal antibodies. The apoptotic process induced by IgG autoantibodies was characterized by caspase-3 activation, Bcl-2 depletion and Bax expression. The present report demonstrates that PV IgG autoantibodies promote apoptosis in HaCaT keratinocytes.     

Zebrafish kidney marrow contains ABCG2-dependent side population cells exhibiting hematopoietic stem cell properties

Zebrafish (Danio rerio) has emerged as a powerful genetic model for the study of vertebrate hematopoiesis. However, methods for detection and isolation of hematopoietic stem cells (HSCs) have not yet been reported. In mammals, the combination of Hoechst 33342 staining with flow cytometry can be used for separation of a bone marrow side population (SP), which is highly enriched for HSCs. We applied a similar procedure to hematopoietic kidney marrow cells from adult zebrafish, and identified a segregated cohort of SP cells, which demonstrate a set of features typical of stem cells. SP cells show extremely low scatter characteristics, and are small in size with a minimum of cytoplasm. Treatment of zebrafish kidney marrow cells with reserpine or fumitremorgin C, which inhibit the ABCG2 transporter responsible for Hoechst 33342 efflux, caused a clear reduction in the number of SP cells. Consistent with the quiescent state of HSCs, the SP cells are strongly resistant to the myelosuppressive agent 5-fluorouracil. In addition, SP cells specifically demonstrate higher expression of genes known to be markers of HSCs of mammals. Hence, our results show that the SP phenotype is conserved between mammals and teleosts, and the properties of the zebrafish SP cells indicate a significant enrichment for HSCs. These rapid flow cytometric methods for purification of HSCs from zebrafish may greatly facilitate genetic analysis of stem cells using the advantages of this vertebrate model.     

The ATP-binding cassette transporter ABCG2 (BCRP), a marker for side population stem cells, is expressed in human heart.

Efforts to improve severely impaired myocardial function include transplantation of autologous hematopoietic side population (SP) stem cells. The transmembrane ABC-type (ATP binding cassette) half-transporter ABCG2 (BCRP) serves as a marker protein for SP cell selection. We have recently shown that other ABC transport proteins such as ABCB1 and ABCC5 are differentially expressed in normal and diseased human heart. Here we investigated localization and individual ABCG2 expression in 15 ventricular (including 10 cardiomyopathic) and 51 auricular heart tissue samples using immunohistochemistry, confocal laser scanning fluorescence microscopy, and real-time RT-PCR. Individual genotypes were assigned using PCR-restriction fragment length polymorphism (RFLP) analysis and subsequently correlated to ABCG2 mRNA levels. ABCG2 was localized in endothelial cells of capillaries and arterioles of all samples. Ventricular samples from cardiomyopathic hearts exhibited significantly increased levels of ABCG2 mRNA (ABCG2/18S rRNA: 1.08 +/- 0.30 x 10(-7); p=0.028 (dilative cardiomyopathy) and 1.16 +/- 0.46 x 10(-7); p=0.009 (ischemic cardiomyopathy) compared with 0.44 +/- 0.26 x 10(-7) in nonfailing hearts). The individual haplotypes were not associated with altered mRNA expression. ABCG2 is variably expressed in endothelial cells of human heart, where it may function as a protective barrier against cardiotoxic drugs such as anthracyclines or mitoxantrone. ABCG2 expression is induced in dilative and ischemic cardiomyopathies.     

Molecular phenotype of airway side population cells

Lung epithelial-specific stem cells have been localized to discrete microenvironments throughout the adult conducting airway. Properties of these cells include pollutant resistance, multipotent differentiation, and infrequent proliferation. Goals of the present study were to use Hoechst 33342 efflux, a property of stem cells in other tissues, to purify and further characterize airway stem cells. Hoechst 33342 effluxing lung cells were identified as a verapamil-sensitive side population by flow cytometry. Lung side population cells were further subdivided on the basis of hematopoietic (CD45 positive) or nonhematopoietic (CD45 negative) origin. Nonhematopoietic side population cells were enriched for stem cell antigen-1 reactivity and expressed molecular markers specific to both airway and mesenchymal lineages. Analysis of the molecular phenotype of airway-derived side population cells indicates that they are similar to neuroepithelial body-associated variant Clara cells. Taken together, these data suggest that the nonhematopoietic side population isolated from lung is enriched for previously identified airway stem cells.     

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.     

The presence of a side population and its marker ABCG2 in human deciduous dental pulp cells

Stem cells have been identified using the DNA-binding dye Hoechst 33342 and flow cytometry (FCM) in various tissues known as the side population (SP). The present study shows, for the first time, the presence of side population cells in human deciduous dental pulp cells (DPCs). Flow cytometric identification revealed that 2% of human deciduous DPCs were SP cells and that this SP profile disappeared in the presence of verapamil. The SP marker ABCG2 protein was localized to DPCs in the cell membrane by immunofluorescence staining, and flow cytometric analysis demonstrated that 3.6% of DPCs were ABCG2-positive. Furthermore, quantitative real-time PCR proved that ABCG2 mRNA expression in DPCs isolated from human exfoliated deciduous teeth was higher than in DPCs from permanent teeth. Our findings demonstrate that DPCs from human exfoliated deciduous teeth contain a higher proportion of the SP phenotype than permanent teeth and that they may constitute a stem cell population.