Rat limbal epithelial side population cells exhibit a distinct expression of stem cell markers that are lacking in side population cells from the central cornea

The side population (SP) phenotype is shared by stem cells in various tissues and species. Here we demonstrate SP cells with Hoechst dye efflux were surprisingly collected from the epithelia of both the rat limbus and central cornea, unlike in human and rabbit eyes. Our results show that rat limbal SP cells have a significantly higher expression of the stem cell markers ABCG2, nestin, and notch 1, compared to central corneal SP cells. Immunohistochemistry also revealed that ABCG2 and the epithelial stem/progenitor cell marker p63 were expressed only in basal limbal epithelial cells. These results demonstrate that ABCG2 expression is closely linked to the stem cell phenotype of SP cells.     

Dynamic ABCG2 expression in human embryonic stem cells provides the basis for stress response

ABCG2 is a plasma membrane multidrug transporter with an established role in the cancer drug-resistance phenotype. This protein is expressed in a variety of tissues, including several types of stem cell. Although ABCG2 is not essential for life, knock-out mice were found to be hypersensitive to xenobiotics and had reduced levels of the side population of hematopoietic stem cells. Previously we have shown that ABCG2 is present in human embryonic stem cell (hESC) lines, with a heterogeneous expression pattern. In this study we examined this heterogeneity, and investigated whether it is related to stress responses in hESCs. We did not find any difference between expression of pluripotency markers in ABCG2-positive and negative hESCs; however, ABCG2-expressing cells had a higher growth rate after cell separation. We found that some harmful conditions (physical stress, drugs, and UV light exposure) are tolerated much better in the presence of ABCG2 protein. This property can be explained by the transporter function which eliminates potential toxic metabolites accumulated during stress conditions. In contrast, mild oxidative stress in hESCs caused rapid internalization of ABCG2, indicating that some environmental factors may induce removal of this transporter from the plasma membrane. On the basis of these results we suggest that a dynamic balance of ABCG2 expression at the population level has the advantage of enabling prompt response to changes in the cellular environment. Such actively maintained heterogeneity might be of evolutionary benefit in protecting special cell types, including pluripotent stem cells.     

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.     

The hypoxic microenvironment maintains glioblastoma stem cells and promotes reprogramming towards a cancer stem cell phenotype

Glioblastomas are highly lethal cancers that contain cellular hierarchies with self-renewing cancer stem cells that can propagate tumors in secondary transplant assays. The potential significance of cancer stem cells in cancer biology has been demonstrated by studies showing contributions to therapeutic resistance, angiogenesis, and tumor dispersal. We recently reported that physiologic oxygen levels differentially induce hypoxia inducible factor-2α (HIF2α) levels in cancer stem cells. HIF1α functioned in proliferation and survival of all cancer cells but also was activated in normal neural progenitors suggesting a potentially restricted therapeutic index while HIF2α was essential in only in cancer stem cells and was not expressed by normal neural progenitors demonstrating HIF2α is a cancer stem cell specific target. We now extend these studies to examine the role of hypoxia in regulating tumor cell plasticity. We find that hypoxia promotes the self-renewal capability of the stem and non-stem population as well as promoting a more stem-like phenotype in the non-stem population with increased neurosphere formation as well as upregulation of important stem cell factors, such as OCT4, NANOG, and c-MYC. The importance of HIF2α was further supported as forced expression of non-degradable HIF2α induced a cancer stem cell marker and augmented the tumorigenic potential of the non-stem population. This novel finding may indicate a specific role of HIF2α in promoting glioma tumorigenesis. The unexpected plasticity of the non-stem glioma population and the stem-like phenotype emphasizes the importance of developing therapeutic strategies targeting the microenvironmental influence on the tumor in addition to cancer stem cells.     

Side Population in Human Non-Muscle Invasive Bladder Cancer Enriches for Cancer Stem Cells That Are Maintained by MAPK Signalling

Side population (SP) and ABC transporter expression enrich for stem cells in numerous tissues. We explored if this phenotype characterised human bladder cancer stem cells (CSCs) and attempted to identify regulatory mechanisms. Focusing on non-muscle invasive bladder cancer (NMIBC), multiple human cell lines were used to characterise SP and ABC transporter expression. In vitro and in vivo phenotypic and functional assessments of CSC behaviour were undertaken. Expression of putative CSC marker ABCG2 was assessed in clinical NMIBC samples (n = 148), and a role for MAPK signalling, a central mechanism of bladder tumourigenesis, was investigated. Results showed that the ABCG2 transporter was predominantly expressed and was up-regulated in the SP fraction by 3-fold (ABCG2^hi) relative to the non-SP (NSP) fraction (ABCG2^low). ABCG2^hi SP cells displayed enrichment of stem cell markers (Nanog, Notch1 and SOX2) and a three-fold increase in colony forming efficiency (CFE) in comparison to ABCG2^low NSP cells. In vivo, ABCG2^hi SP cells enriched for tumour growth compared with ABCG2^low NSP cells, consistent with CSCs. pERK was constitutively active in ABCG2^hi SP cells and MEK inhibition also inhibited the ABCG2^hi SP phenotype and significantly suppressed CFE. Furthermore, on examining clinical NMIBC samples, ABCG2 expression correlated with increased recurrence and decreased progression free survival. Additionally, pERK expression also correlated with decreased progression free survival, whilst a positive correlation was further demonstrated between ABCG2 and pERK expression. In conclusion, we confirm ABCG2^hi SP enriches for CSCs in human NMIBC and MAPK/ERK pathway is a suitable therapeutic target.     

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.     

CXCR6, a newly defined biomarker of tissue-specific stem cell asymmetric self-renewal, identifies more aggressive human melanoma cancer stem cells

Background

A fundamental problem in cancer research is identifying the cell type that is capable of sustaining neoplastic growth and its origin from normal tissue cells. Recent investigations of a variety of tumor types have shown that phenotypically identifiable and isolable subfractions of cells possess the tumor-forming ability. In the present paper, using two lineage-related human melanoma cell lines, primary melanoma line IGR39 and its metastatic derivative line IGR37, two main observations are reported. The first one is the first phenotypic evidence to support the origin of melanoma cancer stem cells (CSCs) from mutated tissue-specific stem cells; and the second one is the identification of a more aggressive subpopulation of CSCs in melanoma that are CXCR6+.

Methods/Findings

We defined CXCR6 as a new biomarker for tissue-specific stem cell asymmetric self-renewal. Thus, the relationship between melanoma formation and ABCG2 and CXCR6 expression was investigated. Consistent with their non-metastatic character, unsorted IGR39 cells formed significantly smaller tumors than unsorted IGR37 cells. In addition, ABCG2+ cells produced tumors that had a 2-fold greater mass than tumors produced by unsorted cells or ABCG2- cells. CXCR6+ cells produced more aggressive tumors. CXCR6 identifies a more discrete subpopulation of cultured human melanoma cells with a more aggressive MCSC phenotype than cells selected on the basis of the ABCG2+ phenotype alone.

Conclusions/Significance

The association of a more aggressive tumor phenotype with asymmetric self-renewal phenotype reveals a previously unrecognized aspect of tumor cell physiology. Namely, the retention of some tissue-specific stem cell attributes, like the ability to asymmetrically self-renew, impacts the natural history of human tumor development. Knowledge of this new aspect of tumor development and progression may provide new targets for cancer prevention and treatment.     

Steroidogenic enzymes and stem cell markers are upregulated during androgen deprivation in prostate cancer

Considerable levels of testosterone and dihydrotestosterone (DHT) are found in prostate cancer (PCa) tissue after androgen deprivation therapy. Treatment of surviving cancer-initiating cells and the ability to metabolize steroids from precursors may be the keystones for the appearance of recurrent tumors. To study this hypothesis, we assessed the expression of several steroidogenic enzymes and stem cell markers in clinical PCa samples and cell cultures during androgen depletion. Gene expression profiles were determined by microarray or qRT-PCR. In addition, we measured cell viability and analyzed stem cell marker expression in DuCaP cells by immunocytochemistry. Seventy patient samples from different stages of PCa, and the PCa cell line DuCaP were included in this study. The androgen receptor (AR) and enzymes (AKR1C3, HSD17B2, HSD17B3, UGT2B15 and UGT2B17 ) that are involved in the metabolism of adrenal steroids were upregulated in castration resistant prostate cancer (CRPC). In vitro, some DuCaP cells survived androgen depletion, and eventually gave rise to a culture adapted to these conditions. During and after this transition, most of the steroidogenic enzymes were upregulated. These cells also are enriched with stem/progenitor cell markers cytokeratin 5 (CK5) and ATP-binding cassette sub-family G member 2 (ABCG2). Similarly, putative stem/progenitor cell markers CK5, c-Kit, nestin, CD44, c-met, ALDH1A1, α2-integrin, CD133, ABCG2, CXCR4 and POU5F1 were upregulated in clinical CRPC. The upregulation of steroidogenic enzymes and stem cell markers in recurrent tumors suggests that cancer initiating cells can expand by adaptation to their T/DHT deprived environment. Therapies targeting the metabolism of adrenal steroids by the tumor may prove effective in preventing tumor regrowth.     

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。     

Identification and expansion of human osteosarcoma‐cancer‐stem cells by long‐term 3‐aminobenzamide treatment

A novel cancer stem‐like cell line (3AB‐OS), expressing a number of pluripotent stem cell markers, was irreversibly selected from human osteosarcoma MG‐63 cells by long‐term treatment (100 days) with 3‐aminobenzamide (3AB). 3AB‐OS cells are a heterogeneous and stable cell population composed by three types of fibroblastoid cells, spindle‐shaped, polygonal‐shaped, and rounded‐shaped. With respect to MG‐63 cells, 3AB‐OS cells are extremely smaller, possess a much greater capacity to form spheres, a stronger self‐renewal ability and much higher levels of cell cycle markers which account for G1‐S/G2‐M phases progression. Differently from MG‐63 cells, 3AB‐OS cells can be reseeded unlimitedly without losing their proliferative potential. They show an ATP‐binding cassette transporter ABCG2‐dependent phenotype with high drug efflux capacity, and a strong positivity for CD133, marker for pluripotent stem cells, which are almost unmeasurable in MG‐63 cells. 3AB‐OS cells are much less committed to osteogenic and adipogenic differentiation than MG‐63 cells and highly express genes required for maintaining stem cell state (Oct3/4, hTERT, nucleostemin, Nanog) and for inhibiting apoptosis (HIF‐1α, FLIP‐L, Bcl‐2, XIAP, IAPs, and survivin). 3AB‐OS may be a novel tumor cell line useful for investigating the mechanisms by which stem cells enrichment may be induced in a tumor cell line. The identification of a subpopulation of cancer stem cells that drives tumorigenesis and chemoresistance in osteosarcoma may lead to prognosis and optimal therapy determination. Expression patterns of stem cell markers, especially CD133 and ABCG2, may indicate the undifferentiated state of osteosarcoma tumors, and may correlate with unfavorable prognosis in the clinical setting. J. Cell. Physiol. 219: 301–313, 2009. © 2009 Wiley‐Liss, Inc.     

Estrogen induces cell proliferation by promoting ABCG2-mediated efflux in endometrial cancer cells

Recently, it has reported that overeating of lipid-food has led to increase the amount of estrogen in vivo and the incidence of endometrial carcinomas. It is well-known that ATP-binding cassette transporter sub-family G2 (ABCG2) is highly expressed in cancer stem cells (CSCs). CSCs possess the ability for differentiation, tumorigenesis, stem cell self-renewal, and the efflux of anti-cancer drug and these abilities affect malignancy of cancer cells. However, little is known about the relationship between the expression of ABCG2 and malignancy of cancer cells. The present study aimed at understanding the regulatory mechanism underlying 17-β-estradiol (E₂)-induced cell proliferation under the control of ABCG2. E₂ increased cell viability with a peak at 1 μM and facilitated ABCG2 mRNA expression followed by the increase of ABCG2 expression level at plasma membrane. E₂-induced cell proliferation was inhibited by reserpine, an inhibitor of ABCG2, and the ABCG2 siRNA treatment. Thus, these results imply that ABCG2 plays an important role in the promotion of E₂-induced cell proliferation in Ishikawa cells.     

Characterization of a stem cell population in lung cancer A549 cells

We isolated a stem cell subpopulation from human lung cancer A549 cells using FACS/Hoechst 33342. This side population (SP), which comprised 24% of the total cell population, totally disappeared after treatment with the selective ABCG 2 inhibitor fumitremorgin C. In a repopulation study, isolated SP and non-SP cells were each able to generate a heterogeneous population of SP and non-SP cells, but this repopulation occurred more rapidly in SP cells than non-SP. An MTT assay and cell cycle distribution analysis reveal a similar profile between SP and non-SP groups. However, in the presence of doxorubicin (DOX) and methotrexate (MTX), SP cells showed significantly lower Annexin V staining when compared to non-SP cells. Taken together, these results demonstrate that SP cells have an active regeneration capacity and high anti-apoptotic activity compared with non-SP cells. Furthermore, our GeneChip^® data revealed a heightened mRNA expression of ABCG2 and ABCC2 in SP cells. Overall these data explain why the SP of A549 has a unique ability to resist DOX and MTX treatments. Therefore, we suggest that the expression of the ABCG2 transporter plays an important role in the multidrug resistance phenotype of A549 SP cells.     

Ocular surface epithelial and stem cell development

Phenotypic features and developmental events involved in the genesis of the limbo-corneal and conjunctival epithelia are described. Together, these two epithelia define the ocular surface. They derive from a small cohort of optic vesicle-induced PAX6+ head ectodermal cells that remain on the surface following lens vesicle formation by the main PAX6+ cell cohort. Both epithelia are stratified, and display wet, non-keratinizing phenotypes. The most significant spatial feature of the limbo-corneal epithelium is the segregation of its supporting stem and early precursor cells to the limbus, the outer vascularized rim separating the cornea from the conjunctiva. These stem cells express ABCG2, a xenobiotic transporter present in stem cells from other organs. ABCG2 transport activity excludes the DNA dye Hoechst 33342, allowing the isolation of the ocular stem cells by flow cytometry, as a unique cohort known as a side 'side population'. Limbal stem cells do not form gap junctions and exist as metabolically isolated entities. Tracking of expression changes in Cx43, the main gap junction protein expressed in both the pre-epithelial ectoderm and in the mature central corneal epithelium, indicates that a limbal stem cell phenotype starts developing very soon after lens vesicle invagination, in advance of the appearance of any recognizable anatomical sub-epithelial limbal feature. Differences in Cx43 expression also reveal the very early nature of the divergence in limbo-corneal and conjunctival lineages. The putative involvement of several early genes, including gradients of PAX6 and differences in expression patterns for members of the Id or msh gene expression regulators are reviewed.     

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．     

Cancer initiating cells or cancer stem cells in the gastrointestinal tract and liver

It has been suggested that cancer stem cells population within the solid tumor with indefinite proliferation potential drives the growth and metastasis of cancer. In literature, these malignant stem cells also named Cancer initiating cells. Cancer stem cells exhibit low rate of division and proliferation in their niche that help them to avoid chemotherapy and radiation. Epithelial cancers are believed to originate from transformation of tissue stem cells. Bone marrow-derived cells, which are frequently recruited to sites of tissue injury and inflammation, might also represent a potential source of malignancy in the gastrointestinal tract. Pancreatic cancer is one of most common cause of cancer-related death. Pancreatic cancer stem cells have been characterized recently through serial transplantation of human pancreatic cancer cells. The phenotype of Pancreatic cancer stem cells has been defined as CD24(+)CD44(+)CD326 (ESA)(+). CD133 antigen has been also suggested as a potential marker for cancer stem cell in gastrointestinal tract but recently there is also debate in this regard. More recently, other cancer stem cells in gastrointestinal tract, such as colon cancer stem cells, liver cancer stem cells, have been also characterized in their phenotype. These advances clearly will bring the new strategy in cancer treatment and control in the gastrointestinal tract. In this review, the author will discuss the current status and progress about cancer stem cell research in gastrointestinal tract and liver.     

Tex10 is upregulated and promotes cancer stem cell properties and chemoresistance in hepatocellular carcinoma

Testis expressed 10 (Tex10), a new core component of the pluripotency circuitry, has been reported to positively regulate embryonic stem cell (ESC) super-enhancers to promote ESC self-renewal; however, the expression and function of Tex10 in hepatocellular carcinoma (HCC) and liver cancer stem cells remains unclear. The present study was designed to investigate the expression patterns of Tex10 with immunohistochemistry, western blotting and RT-qPCR in samples from HCC patients and HCC cell lines. The results obtained show that Tex10 was highly expressed in HCC tissues, and elevated Tex10 protein levels positively correlate with the poorly differentiated carcinoma. Likewise, we found that Tex10 expression in the high-metastasis HCCLM3 potential cell line was higher than that in the low-metastasis HepG2 potential cell line, and Tex10 expression in liver cancer stem cells was also higher than that in adhered HCC cells. In addition, Tex10 knockdown decreased stem cell marker expression and drug resistance. Tex10 promoted cancer stemness through activation of the STAT3 signaling pathway. Taken together, our study demonstrates that Tex10 plays a potent carcinogenic role in HCC tumorigenesis by maintaining cancer stem cell properties through activation of the STAT3 signaling pathway and promoting chemo-resistance. Thus, targeting Tex10 may provide a novel and effective therapeutic strategy to suppress the tumorigenicity of advanced HCC.     

Generation of an ABCG2 transgenic line - A tool to study ABCG2 expression in mice

The ATP-binding cassette (ABC) transporter 2 (ABCG2) is expressed by stem cells in many organs and in stem cells of solid tumors. These cells are isolated based on the side population (SP) phenotype, a Hoechst 3342 dye efflux property believed to be conferred by ABCG2. Because of the limitations of this approach we generated transgenic mice that express Nuclear GFP (GFPn) coupled to the Puromycin-resistance gene, under the control of ABCG2 promoter/enhancer sequences. We show that ABCG2 is expressed in neural progenitors of the developing forebrain and spinal cord and in embryonic and adult endothelial cells of the brain. Using the neurosphere assay, we isolated tripotent ABCG2-expressing neural stem cells from embryonic mouse brain. This transgenic line is a powerful tool for studying the expression of ABCG2 in many tissues and for performing functional studies in different experimental settings.