搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

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

One of the key consequences of exposure of human cells to genotoxic agents is the activation of DNA damage responses (DDR). While the mechanisms underpinning DDR in fully differentiated somatic human cells have been studied extensively,molecular signaling events and pathways involved in DDR in pluripotent human embryonic stem cells (hESC) remain largely unexplored. We studied changes in the human genome-wide transcriptome of H9 hESC line following exposures to 1Gy of gamma-radiation at 2h and 16h post-irradiation. Quantitative real-time PCR was performed to verify the expression data for a subset of genes. In parallel,the cell growth,DDR kinetics,and expression of pluripotency markers in irradiated hESC were monitored. The changes in gene expression in hESC after exposure to ionizing radiation (IR) are substantially different from those observed in somatic human cell lines. Gene expression patterns at 2h post-IR showed almost an exclusively p53-dependent,predominantly pro-apoptotic,signature with a total of only 30 up-regulated genes. In contrast,the gene expression patterns at 16h post-IR showed 354 differentially expressed genes,mostly involved in pro-survival pathways,such as increased expression of metallothioneins,ubiquitin cycle,and general metabolism signaling. Cell growth data paralleled trends in gene expression changes. DDR in hESC followed the kinetics reported for human somatic differentiated cells. The expression of pluripotency markers characteristic of undifferentiated hESC was not affected by exposure to IR during the time course of our analysis. Our data on dynamics of transcriptome response of irradiated hESCs may provide a valuable tool to screen for markers of IR exposure of human cells in their most naive state; thus unmasking the key elements of DDR; at the same time,avoiding the complexity of interpreting distinct cell type-dependent genotoxic stress responses of terminally differentiated cells. View Publication

UNLABELLED Epigenetic mechanisms play critical roles in stem cell biology by maintaining pluripotency of stem cells and promoting differentiation of more mature derivatives. If similar mechanisms are relevant for the cancer stem cell (CSC) model,then epigenetic modulation might enrich the CSC population,thereby facilitating CSC isolation and rigorous evaluation. To test this hypothesis,primary human cancer cells and liver cancer cell lines were treated with zebularine (ZEB),a potent DNA methyltransferase-1 inhibitor,and putative CSCs were isolated using the side population (SP) approach. The CSC properties of ZEB-treated and untreated subpopulations were tested using standard in vitro and in vivo assays. Whole transcriptome profiling of isolated CSCs was performed to generate CSC signatures. Clinical relevance of the CSC signatures was evaluated in diverse primary human cancers. Epigenetic modulation increased frequency of cells with CSC properties in the SP fraction isolated from human cancer cells as judged by self-renewal,superior tumor-initiating capacity in serial transplantations,and direct cell tracking experiments. Integrative transcriptome analysis revealed common traits enriched for stemness-associated genes,although each individual CSC gene expression signature exhibited activation of different oncogenic pathways (e.g.,EGFR,SRC,and MYC). The common CSC signature was associated with malignant progression,which is enriched in poorly differentiated tumors,and was highly predictive of prognosis in liver and other cancers. CONCLUSION Epigenetic modulation may provide a tool for prospective isolation and in-depth analysis of CSC. The liver CSC gene signatures are defined by a pernicious interaction of unique oncogene-specific and common stemness traits. These data should facilitate the identifications of therapeutic tools targeting both unique and common features of CSCs. View Publication

Cancer stem cells (CSCs) or tumor initiating cells (TICs) make up only a small fraction of total tumor cell population,but recent evidence suggests that they are responsible for tumor initiation and the maintenance of tumor growth. Whether CSCs/TICs originate from normal stem cells or result from the dedifferentiation of terminally differentiated cells remains unknown. Here we provide evidence that sustained expression of the proinflammatory protein tissue transglutaminase (TG2) confers stem cell like properties in non-transformed and transformed mammary epithelial cells. Sustained expression of TG2 was associated with increase in CD44(high)/CD24(low/-) subpopulation,increased ability of cells to form mammospheres,and acquisition of self-renewal ability. Mammospheres derived from TG2-transfected mammary epithelial cells (MCF10A) differentiated into complex secondary structures when grown in Matrigel cultures. Cells in these secondary structures differentiated into Muc1-positive (luminal marker) and integrin α6-positive (basal marker) cells in response to prolactin treatment. Highly aggressive MDA-231 and drug-resistant MCF-7/RT breast cancer cells,which express high basal levels of TG2,shared many traits with TG2-transfected MCF10A stem cells but unlike MCF10A-derived stem cells they failed to form the secondary structures and to differentiate into Muc1-positive luminal cells when grown in Matrigel culture. Downregulation of TG2 attenuated stem cell properties in both non-transformed and transformed mammary epithelial cells. Taken together,these results suggested a new function for TG2 and revealed a novel mechanism responsible for promoting the stem cell characteristics in adult mammary epithelial cells. View Publication

BACKGROUND: Although both the alkylating agent temozolomide (TMZ) and oncolytic viruses hold promise for treating glioblastoma,which remains uniformly lethal,the effectiveness of combining the two treatments and the mechanism of their interaction on cancer stem cells are unknown. METHODS: We investigated the efficacy of combining TMZ and the oncolytic herpes simplex virus (oHSV) G47Δ in killing glioblastoma stem cells (GSCs),using Chou-Talalay combination index analysis,immunocytochemistry and fluorescence microscopy,and neutral comet assay. The role of treatment-induced DNA double-strand breaks,activation of DNA damage responses,and virus replication in the cytotoxic interaction between G47Δ and TMZ was examined with a panel of pharmacological inhibitors and short-hairpin RNA (shRNA)-mediated knockdown of DNA repair pathways. Comparisons of cell survival and virus replication were performed using a two-sided t test (unpaired). The survival of athymic mice (n = 6-8 mice per group) bearing GSC-derived glioblastoma tumors treated with the combination of G47Δ and TMZ was analyzed by the Kaplan-Meier method and evaluated with a two-sided log-rank test. RESULTS: The combination of G47Δ and TMZ acted synergistically in killing GSCs but not neurons,with associated robust induction of DNA damage. Pharmacological and shRNA-mediated knockdown studies suggested that activated ataxia telangiectasia mutated (ATM) is a crucial mediator of synergy. Activated ATM relocalized to HSV DNA replication compartments where it likely enhanced oHSV replication and could not participate in repairing TMZ-induced DNA damage. Sensitivity to TMZ and synergy with G47Δ decreased with O(6)-methylguanine-DNA-methyltransferase (MGMT) expression and MSH6 knockdown. Combined G47Δ and TMZ treatment extended survival of mice bearing GSC-derived intracranial tumors,achieving long-term remission in four of eight mice (median survival = 228 days; G47Δ alone vs G47Δ + TMZ,hazard ratio of survival = 7.1,95% confidence interval = 1.9 to 26.1,P = .003) at TMZ doses attainable in patients. CONCLUSIONS: The combination of G47Δ and TMZ acts synergistically in killing GSCs through oHSV-mediated manipulation of DNA damage responses. This strategy is highly efficacious in representative preclinical models and warrants clinical translation. View Publication

Cancer stem cells (CSC) are resistant to radiation and chemotherapy and play a significant role in cancer recurrence and metastatic disease. It is therefore important to identify alternative strategies,such as immunotherapies that can be used to control this refractory population. A CD44(+)CD24(-/low) subpopulation of cells within the B6 PyMT-MMTV transgenic mouse-derived AT-3 mammary carcinoma cell line was identified,which had CSC-like characteristics,including pluripotency and a resistance to chemo- and radiotherapy. Therefore,unlike xenograph models that require immunocompromised settings,this novel system may provide a means to study immune-mediated responses against CSC-like cells. The immunobiology of the AT-3 CSC-like cell population was studied by their surface molecule expression profile and their sensitivity to specified cell death pathways. Comparable levels of Rae-1,CD155,CD54 and higher levels of Fas and DR5 were expressed on the AT-3 CSC-like cells compared to non-CSC-like tumor cells. Expression correlated with an in vitro sensitivity to cell death by NK cells or through the ligation of the death receptors (Fas or DR5),by their ligands or anti-Fas and anti-DR5 mAbs. Indeed,compared to the rest of the AT-3 tumor cells,the CD44(+)CD24(-/low) subpopulation of cells were more sensitive to both Fas- and TRAIL-mediated cell death pathways. Therefore,despite the refractory nature of CSC to other conventional therapies,these CSC-like cells were not inherently resistant to specified forms of immune-mediated cell death. These results encourage the continued investigation into immunotherapeutic strategies as a means of controlling breast CSC,particularly through their cell death pathways. View Publication

Aberrant reactivation of Gli signaling has been described in a wide variety of human cancers and rapamycin can down-regulate Gli pathway in some solid tumors. In this study,we attempt to define the cytotoxic effect of Gli inhibitor on AML cells. And the regulation action of rapamycin on Gli in AML cells also has been assessed. Gli inhibitor GANT61 caused growth arrest and apoptosis in AML cells. Rapamycin decreased not only the Gli protein and mRNA expressions but also expression of the Gli-luciferase reporter in AML cells. Synergism effect between GANT61 and rapamycin was found in Kasumi-1,HL-60 and U937 cell lines. The results suggest that aberrant Gli activation is a feature of some myeloid leukemic cells and Gli activiation can be down-regulated by rapamycin. View Publication

Solid tumor cells have an altered metabolism that can protect them from cytotoxic lymphocytes. The anti-diabetic drug metformin modifies tumor cell metabolism and several clinical trials are testing its effectiveness for the treatment of solid cancers. The use of metformin in hematologic cancers has received much less attention,although allogeneic cytotoxic lymphocytes are very effective against these tumors. We show here that metformin induces expression of Natural Killer G2-D (NKG2D) ligands (NKG2DL) and intercellular adhesion molecule-1 (ICAM-1),a ligand of the lymphocyte function-associated antigen 1 (LFA-1). This leads to enhance sensitivity to cytotoxic lymphocytes. Overexpression of anti-apoptotic Bcl-2 family members decrease both metformin effects. The sensitization to activated cytotoxic lymphocytes is mainly mediated by the increase on ICAM-1 levels,which favors cytotoxic lymphocytes binding to tumor cells. Finally,metformin decreases the growth of human hematological tumor cells in xenograft models,mainly in presence of monoclonal antibodies that recognize tumor antigens. Our results suggest that metformin could improve cytotoxic lymphocyte-mediated therapy. View Publication

Oncolytic viruses have been emerging as a promising therapeutic option for cancer patients,including lung cancer. Orf virus (ORFV),a DNA parapoxvirus,can infect its natural ungulate hosts and transmit into humans. Moreover,the ORFV has advantages of low toxicity,high targeted,self-amplification and can induce potent Th1-like immunity. This study explored the therapeutic potential of ORFV infection for human lung cancer therapy and investigated the molecular mechanisms. We used a previously described ORFV NA1/11 strain and tested the oncolysis of ORFV NA1/11 in two lines of lung cancer cells in vitro and in vivo. Treatment of both cell lines with ORFV NA1/11 resulted in a decrease in cell viability by inducing cell cycle arrest in G2/M phase,suppressing cyclin B1 expression and increasing their apoptosis in a caspase-dependent manner. The ORFV NA1/11-infected lung cancer cells were highly immunogenic. Evidently,ORFV NA1/11 infection of lung cancer cells induced oncolysis of tumor cells to release danger-associated molecular patterns,and promoted dendritic cell maturation,and CD8 T cell infiltration in the tumors by enhancing CXCL16 secretion. These findings may help to understand the molecular mechanisms of ORFV oncolysis and aid in the development of novel therapies for lung cancer. View Publication

Interactions with Ag-specific T cells drive B cell activation and fate choices that ultimately determine the quality of high-affinity Ab responses. As such,these interactions,and especially the long-lived interactions that occur before germinal center formation,may be important checkpoints to regulate undesirable responses. Using mouse model Ag systems,we directly observed interactions between T and B cells responding to the self-antigen myelin oligodendrocyte glycoprotein (MOG) and found that they are of lower quality compared with interactions between cells responding to the model foreign Ag nitrophenyl-haptenated OVA. This was associated with reduced expression of molecules that facilitate these interactions on the B cells,but not on T cells. B cell expression of these molecules was not dictated by the T cell partner,nor could the relative lack of expression on MOG-specific (MOG-sp.) B cells be reversed by a multivalent Ag. Instead,MOG-sp. B cells were inherently less responsive to BCR stimulation than MOG-non-sp. cells. However,the phenotype of MOG-sp. B cells was not consistent with previous descriptions of autoimmune B cells that had been tolerized via regular exposure to systemically expressed self-antigen. This suggests that alternate anergy pathways may exist to limit B cell responses to tissue-restricted self-antigens. View Publication