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BACKGROUND: Cancer stem cells are a chemotherapy-resistant population capable of self-renewal and of regenerating the bulk tumor,thereby causing relapse and patient death. Ewing's sarcoma,the second most common form of bone tumor in adolescents and young adults,follows a clinical pattern consistent with the Cancer Stem Cell model - remission is easily achieved,even for patients with metastatic disease,but relapse remains frequent and is usually fatal. METHODOLOGY/PRINCIPAL FINDINGS: We have isolated a subpopulation of Ewing's sarcoma cells,from both human cell lines and human xenografts grown in immune deficient mice,which express high aldehyde dehydrogenase (ALDH(high)) activity and are enriched for clonogenicity,sphere-formation,and tumor initiation. The ALDH(high) cells are resistant to chemotherapy in vitro,but this can be overcome by the ATP binding cassette transport protein inhibitor,verapamil. Importantly,these cells are not resistant to YK-4-279,a small molecule inhibitor of EWS-FLI1 that is selectively toxic to Ewing's sarcoma cells both in vitro and in vivo. CONCLUSIONS/SIGNIFICANCE: Ewing's sarcoma contains an ALDH(high) stem-like population of chemotherapy-resistant cells that retain sensitivity to EWS-FLI1 inhibition. Inhibiting the EWS-FLI1 oncoprotein may prove to be an effective means of improving patient outcomes by targeting Ewing's sarcoma stem cells that survive standard chemotherapy. View Publication

The resistance of glioma cells to a number of antitumor agents and the highly invasive nature of glioma cells that escape the primary tumor mass are key impediments to the eradication of tumors in glioma patients. In this study,we evaluated the therapeutic efficacy of a novel PI3-kinase/mTOR inhibitor,PI-103,in established glioma lines and primary CD133(+) glioma-initiating cells and explored the potential of combining PI-103 with stem cell-delivered secretable tumor necrosis factor apoptosis-inducing ligand (S-TRAIL) both in vitro and in orthotopic mouse models of gliomas. We show that PI-103 inhibits proliferation and invasion,causes G(0)-G(1) arrest in cell cycle,and results in significant attenuation of orthotopic tumor growth in vivo. Establishing cocultures of neural stem cells (NSC) and glioma cells,we show that PI-103 augments the response of glioma cells to stem cell-delivered S-TRAIL. Using bimodal optical imaging,we show that when different regimens of systemic PI-103 delivery are combined with NSC-derived S-TRAIL,a significant reduction in tumor volumes is observed compared with PI-103 treatment alone. To our knowledge,this is the first study that reveals the antitumor effect of PI-103 in intracranial gliomas. Our findings offer a preclinical rationale for application of mechanism-based systemically delivered antiproliferative agents and novel stem cell-based proapoptotic therapies to improve treatment of malignant gliomas. View Publication

The expression of an enzyme,GnT-V,that catalyzes a specific posttranslational modification of a family of glycoproteins,namely a branched N-glycan,is transcriptionally up-regulated during breast carcinoma oncogenesis. To determine the molecular basis of how early events in breast carcinoma formation are regulated by GnT-V,we studied both the early stages of mammary tumor formation by using 3D cell culture and a her-2 transgenic mouse mammary tumor model. Overexpression of GnT-V in MCF-10A mammary epithelial cells in 3D culture disrupted acinar morphogenesis with impaired hollow lumen formation,an early characteristic of mammary neoplastic transformation. The disrupted acinar morphogenesis of mammary tumor cells in 3D culture caused by her-2 expression was reversed in tumors that lacked GnT-V expression. Moreover,her-2-induced mammary tumor onset was significantly delayed in the GnT-V null tumors,evidence that the lack of the posttranslational modification catalyzed by GnT-V attenuated tumor formation. Inhibited activation of both PKB and ERK signaling pathways was observed in GnT-V null tumor cells. The proportion of tumor-initiating cells (TICs) in the mammary tumors from GnT-V null mice was significantly reduced compared with controls,and GnT-V null TICs displayed a reduced ability to form secondary tumors in NOD/SCID mice. These results demonstrate that GnT-V expression and its branched glycan products effectively modulate her-2-mediated signaling pathways that,in turn,regulate the relative proportion of tumor initiating cells and the latency of her-2-driven tumor onset. View Publication

BACKGROUND AIMS: Previous studies have demonstrated that the combination of granulocyte-colony-stimulating factor (G-CSF) + plerixafor is more efficient in mobilizing CD34(+) hematopoietic stem cells (HSC) into the peripheral blood than G-CSF alone. In this study we analyzed the impact of adding plerixafor to G-CSF upon the mobilization of different HSC subsets. METHODS: We characterized the immunophenotype of HSC subsets isolated from the peripheral blood of eight patients with multiple myeloma (MM) before and after treatment with plerixafor. All patients were supposed to collect stem cells prior to high-dose chemotherapy and consecutive autologous stem cell transplantation,and therefore received front-line mobilization with 4 days of G-CSF followed by a single dose of plerixafor. Samples of peripheral blood were analyzed comparatively by flow cytometry directly before and 12 h after administration of plerixafor. RESULTS: The number of aldehyde dehydrogenase (ALDH)(bright) and CD34(+) cells was significantly higher after plerixafor treatment (1.2-5.0 and 1.5-6.0 times; both P textless 0.01) and an enrichment of the very primitive CD34(+) CD38(-) and ALDH(bright) CD34(+) CD38(-) HSC subsets was detectable. Additionally,two distinct ALDH(+) subsets could be clearly distinguished. The small ALDH(high) subset showed a higher number of CD34(+) CD38(-) cells in contrast to the total ALDH(bright) subpopulation and probably represented a very primitive subpopulation of HSC. CONCLUSIONS: A combined staining of ALDH,CD34 and CD38 might represent a powerful tool for the identification of a very rare and primitive hematopoietic stem cell subset. The addition of plerixafor mobilized not only more CD34(+) cells but was also able to increase the proportion of more primitive stem cell subsets. View Publication

Cancer stem cells (CSC) are rare drug-resistant cancer cell subsets proposed to be responsible for the maintenance and recurrence of cancer and metastasis. Telomerase is constitutively active in both bulk tumor cell and CSC populations but has only limited expression in normal tissues. Thus,inhibition of telomerase has been shown to be a viable approach in controlling cancer growth in nonclinical studies and is currently in phase II clinical trials. In this study,we investigated the effects of imetelstat (GRN163L),a potent telomerase inhibitor,on both the bulk cancer cells and putative CSCs. When breast and pancreatic cancer cell lines were treated with imetelstat in vitro,telomerase activity in the bulk tumor cells and CSC subpopulations were inhibited. Additionally,imetelstat treatment reduced the CSC fractions present in the breast and pancreatic cell lines. In vitro treatment with imetelstat,but not control oligonucleotides,also reduced the proliferation and self-renewal potential of MCF7 mammospheres and resulted in cell death after textless4 weeks of treatment. In vitro treatment of PANC1 cells showed reduced tumor engraftment in nude mice,concomitant with a reduction in the CSC levels. Differences between telomerase activity expression levels or telomere length of CSCs and bulk tumor cells in these cell lines did not correlate with the increased sensitivity of CSCs to imetelstat,suggesting a mechanism of action independent of telomere shortening for the effects of imetelstat on the CSC subpopulations. Our results suggest that imetelstat-mediated depletion of CSCs may offer an alternative mechanism by which telomerase inhibition may be exploited for cancer therapy. View Publication

Head and neck squamous cell carcinoma (HNSCC) is a prevalent cancer worldwide. Signal transducers and activators of transcription 3 (STAT3) signaling is reported to promote tumor malignancy and recurrence in HNSCC. Cucurbitacins,triterpenoid derivatives,are strong STAT3 inhibitors with anticancer properties. Recent studies have shown aldehyde dehydrogenase 1 (ALDH1) to be a marker of cancer stem cells (CSC) in HNSCC. The aim of this study was to investigate the therapeutic effect of cucurbitacin I in HNSCC-derived CSCs. Using immunohistochemical analysis,we firstly showed that CD44,ALDH1,and phosphorylated STAT3 (p-STAT3) were higher in high-grade HNSCCs,and that triple positivity for CD44/ALDH1/p-STAT3 indicated a worse prognosis for HNSCC patients. Secondly,CD44(+)ALDH1(+) cells isolated from seven HNSCC patients showed greater tumorigenicity,radioresistance,and high expression of stemness (Bmi-1/Oct-4/Nanog) and epithelial-mesenchymal-transitional (Snail/Twist) genes as p-STAT3 level increased. Furthermore,we found that cucurbitacin I (JSI-124) can effectively inhibit the expression of p-STAT3 and capacities for tumorigenicity,sphere formation,and radioresistance in HNSCC-CD44(+)ALDH1(+). Notably,150 nmol/L cucurbitacin I effectively blocked STAT3 signaling and downstream survivin and Bcl-2 expression,and it induced apoptosis in HNSCC-CD44(+)ALDH1(+). Moreover,microarray data indicated that 100 nmol/L cucurbitacin I facilitated CD44(+)ALDH1(+) cells to differentiate into CD44�?�ALDH1�?� and enhanced the radiosensitivity of HNSCC-CD44(+)ALDH1(+). Xenotransplant experiments revealed that cucurbitacin I combined with radiotherapy significantly suppressed tumorigenesis and lung metastasis and further improved the survival rate in HNSCC-CD44(+)ALDH1(+)-transplanted immunocompromised mice. Taken together,our data show that cucurbitacin I,STAT3 inhibitor,reduces radioresistant,distant-metastatic,and CSC-like properties of HNSCC-CD44(+)ALDH1(+) cells. The potential of cucurbitacin I as a radiosensitizer should be verified in future anti-CSC therapy. View Publication

A relatively rare aldehyde dehydrogenase 1 (ALDH1)-positive stem cell-like" subpopulation of tumor cells has the unique ability to initiate and perpetuate tumor growth; moreover� View Publication

BACKGROUND: Cancer stem cells (CSCs) are believed to be responsible for breast cancer formation and recurrence; therefore,therapeutic strategies targeting CSCs must be developed. One approach may be targeting signaling pathways,like Notch,that are involved in stem cell self-renewal and survival. MATERIALS AND METHODS: Breast cancer stem-like cells derived from cell lines and patient samples were examined for Notch expression and activation. The effect of Notch inhibition on sphere formation,proliferation,and colony formation was determined. RESULTS: Breast cancer stem-like cells consistently expressed elevated Notch activation compared with bulk tumor cells. Blockade of Notch signaling using pharmacologic and genomic approaches prevented sphere formation,proliferation,and/or colony formation in soft agar. Interestingly,a gamma-secretase inhibitor,MRK003,induced apoptosis in these cells. CONCLUSION: Our findings support a crucial role for Notch signaling in maintenance of breast cancer stem-like cells,and suggest Notch inhibition may have clinical benefits in targeting CSCs. View Publication

The longevity of organisms is maintained by stem cells. If an organism loses the ability to maintain a balance between quiescence and differentiation in the stem/progenitor cell compartment due to aging and/or stress,this may result in death or age-associated diseases,including cancer. Ewing sarcoma is the most lethal bone tumor in young patients and arises from primitive stem cells. Here,we demonstrated that endogenous Ewing sarcoma gene (Ews) is indispensable for stem cell quiescence,and that the ablation of Ews promotes the early onset of senescence in hematopoietic stem progenitor cells. The phenotypic and functional changes in Ews-deficient stem cells were accompanied by an increase in senescence-associated β-galactosidase staining and a marked induction of p16(INK4a) compared with wild-type counterparts. With its relevance to cancer and possibly aging,EWS is likely to play a significant role in maintaining the functional capacity of stem cells and may provide further insight into the complexity of Ewing sarcoma in the context of stem cells. View Publication

Cancer stem cells (CSCs) have been identified in a growing number of malignancies and are functionally defined by their ability to undergo self-renewal and produce differentiated progeny. These properties allow CSCs to recapitulate the original tumor when injected into immunocompromised mice. CSCs within an epithelial malignancy were first described in breast cancer and found to display specific cell surface antigen expression (CD44+CD24(low/�?�)). Since then,CSCs have been identified in an increasing number of other human malignancies using CD44 and CD24 as well as a number of other surface antigens. Physiologic properties,including aldehyde dehydrogenase (ALDH) activity,have also been used to isolate CSCs from malignant tissues. Recently,we and others identified CSCs from pancreatic adenocarcinoma based on ALDH activity and the expression of the cell surface antigens CD44 and CD24,and CD133. These highly tumorigenic populations may or may not be overlapping and display other functions. We found that ALDH+ and CD44+CD24+ pancreatic CSCs are similarly tumorigenic,but ALDH+ cells are relatively more invasive. In this protocol we describe a method to isolate viable pancreatic CSCs from low-passage human xenografts. Xenografted tumors are harvested from mice and made into a single-cell suspension. Tissue debris and dead cells are separated from live cells and then stained using antibodies against CD44 and CD24 and using the ALDEFLUOR reagent,a fluorescent substrate of ALDH. CSCs are then isolated by fluorescence activated cell sorting. Isolated CSCs can then be used for analytical or functional assays requiring viable cells. View Publication