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Cancer stem cells (CSCs) have been associated with metastasis and therapeutic resistance and can be generated via epithelial mesenchymal transition (EMT). Some studies suggest that the hormone melatonin acts in CSCs and may participate in the inhibition of the EMT. The objectives of this study were to evaluate the formation of mammospheres from the canine and human breast cancer cell lines,CMT-U229 and MCF-7,and the effects of melatonin treatment on the modulation of stem cell and EMT molecular markers: OCT4,E-cadherin,N-cadherin and vimentin,as well as on cell viability and invasiveness of the cells from mammospheres. The CMT-U229 and MCF-7 cell lines were subjected to three-dimensional culture in special medium for stem cells. The phenotype of mammospheres was first evaluated by flow cytometry (CD44+/CD24low/- marking). Cell viability was measured by MTT colorimetric assay and the expression of the proteins OCT4,E-cadherin,N-cadherin and vimentin was evaluated by immunofluorescence and quantified by optical densitometry. The analysis of cell migration and invasion was performed in Boyden Chamber. Flow cytometry proved the stem cell phenotype with CD44+/CD24low/- positive marking for both cell lines. Cell viability of CMT-U229 and MCF-7 cells was reduced after treatment with 1mM melatonin for 24 h (Ptextless0.05). Immunofluorescence staining showed increased E-cadherin expression (Ptextless0.05) and decreased expression of OCT4,N-cadherin and vimentin (Ptextless0.05) in both cell lines after treatment with 1 mM melatonin for 24 hours. Moreover,treatment with melatonin was able to reduce cell migration and invasion in both cell lines when compared to control group (Ptextless0.05). Our results demonstrate that melatonin shows an inhibitory role in the viability and invasiveness of breast cancer mammospheres as well as in modulating the expression of proteins related to EMT in breast CSCs,suggesting its potential anti-metastatic role in canine and human breast cancer cell lines. View Publication

Effector T cells and fibroblasts are major components in the tumor microenvironment. The means through which these cellular interactions affect chemoresistance is unclear. Here,we show that fibroblasts diminish nuclear accumulation of platinum in ovarian cancer cells,resulting in resistance to platinum-based chemotherapy. We demonstrate that glutathione and cysteine released by fibroblasts contribute to this resistance. CD8(+) T cells abolish the resistance by altering glutathione and cystine metabolism in fibroblasts. CD8(+) T-cell-derived interferon (IFN)γ controls fibroblast glutathione and cysteine through upregulation of gamma-glutamyltransferases and transcriptional repression of system xc(-) cystine and glutamate antiporter via the JAK/STAT1 pathway. The presence of stromal fibroblasts and CD8(+) T cells is negatively and positively associated with ovarian cancer patient survival,respectively. Thus,our work uncovers a mode of action for effector T cells: they abrogate stromal-mediated chemoresistance. Capitalizing upon the interplay between chemotherapy and immunotherapy holds high potential for cancer treatment. View Publication

The bcr-abl oncogene,present in 95% of patients with chronic myelogenous leukemia (CML),has been implicated as the cause of this disease. A compound,designed to inhibit the Abl protein tyrosine kinase,was evaluated for its effects on cells containing the Bcr-Abl fusion protein. Cellular proliferation and tumor formation by Bcr-Abl-expressing cells were specifically inhibited by this compound. In colony-forming assays of peripheral blood or bone marrow from patients with CML,there was a 92-98% decrease in the number of bcr-abl colonies formed but no inhibition of normal colony formation. This compound may be useful in the treatment of bcr-abl-positive leukemias. View Publication

There is increasing evidence that breast cancers contain tumor-initiating cells with stem cell properties. The importance of estrogen in the development of the mammary gland and in breast cancer is well known,but the influence of estrogen on the stem cell population has not been assessed. We show that estrogen reduces the proportion of stem cells in the normal human mammary gland and in breast cancer cells. The embryonic stem cell genes NANOG,OCT4,and SOX2 are expressed in normal breast stem cells and at higher levels in breast tumor cells and their expression decreases upon differentiation. Overexpression of each stem cell gene reduces estrogen receptor (ER) expression,and increases the number of stem cells and their capacity for invasion,properties associated with tumorigenesis and poor prognosis. These results indicate that estrogen reduces the size of the human breast stem cell pool and may provide an explanation for the better prognosis of ER-positive tumors. View Publication

Internal tandem duplications (ITDs) of the FMS-like tyrosine kinase 3 (FLT3) receptor tyrosine kinase are found in approximately 30% of patients with acute myelogenous leukemia (AML) and are associated with a poor prognosis. FLT3 ITD mutations result in constitutive kinase activation and are thought to be pathogenetically relevant,implicating FLT3 as a plausible therapeutic target. MLN518 (formerly CT53518) is a small molecule inhibitor of the FLT3,KIT,and platelet-derived growth-factor receptor (PDGFR) tyrosine kinases with significant activity in murine models of FLT3 ITD-positive leukemia. Given the importance of FLT3 and KIT for normal hematopoietic progenitor cells,we analyzed the effect of MLN518 on murine hematopoiesis under steady-state conditions,after chemotherapy-induced myelosuppression,and during bone marrow transplantation. In these assays,we show that MLN518 has mild toxicity toward normal hematopoiesis at concentrations that are effective in treating FLT3 ITD-positive leukemia in mice. We also demonstrate that MLN518 preferentially inhibits the growth of blast colonies from FLT3 ITD-positive compared with ITD-negative patients with AML,at concentrations that do not significantly affect colony formation by normal human progenitor cells. In analogy to imatinib mesylate in BCR-ABL-positive acute leukemia,MLN518-induced remissions may not be durable. Our studies provide the basis for integrating this compound into chemotherapy and transplantation protocols. View Publication

STI571 is a 2-phenylalaminopyrimidine derivative that inhibits c-abl,Bcr-Abl,and platelet-derived growth factor receptor tyrosine kinases. Recently,inhibition of stem cell factor (SCF)-induced c-kit phosphorylation and cell proliferation by STI571 was reported in the human myeloid cell line MO7e. Because approximately 70% of acute myelogenous leukemia (AML) cases are c-kit positive,we evaluated in vitro effects of STI571 on c-kit-positive cell lines and primary AML blast cells. At concentrations textgreater5 microM,the drug marginally inhibited SCF-independent proliferation of cell lines and most of AML blasts. Treatment of AML cells with cytarabine and STI571 showed synergistic effect at low concentrations. Western blotting analysis documented a distinct band of M(r) 145,000 specific for c-kit in cell lines and in AML samples. There was no correlation between the level of the c-kit expression evaluated by Western blotting and percentage of c-kit-positive blasts as measured by flow cytometry. Neither in cell lines nor in primary AML cells,c-kit autophosphorylation was detectable under standard growth conditions. SCF-induced phosphorylation of c-kit in MO7e cells was inhibited by STI571. In a c-kit-positive AML-4 cell line,as well as in AML samples,c-kit phosphorylation was not induced by SCF exposure,suggesting that in these cases,the receptor could not be functionally activated. In conclusion,with the exception of MO7e,SCF did not induce phosphorylation of c-kit,and cell proliferation was not modulated in the presence of STI571. We did not detect any SCF-independent c-kit phosphorylation in our experimental systems. Consequently,STI571 exerted only a limited inhibitory effect on the cell growth. View Publication

Anaplastic thyroid cancers (ATC) are aggressive tumors,which exhibit cell cycle misregulations leading to uncontrolled cellular proliferation and genomic instability. They fail to respond to chemotherapeutic agents and radiation therapy,and most patients die within a few months of diagnosis. In the present study,we evaluated the in vitro effects on ATC cells of VX-680,an inhibitor of the Aurora serine/threonine kinases involved in the regulation of multiple aspects of chromosome segregation and cytokinesis. The effects of VX-680 on proliferation,apoptosis,soft agar colony formation,cell cycle,and ploidy were tested on the ATC-derived cell lines CAL-62,8305C,8505C,and BHT-101. Treatment of the different ATC cells with VX-680 inhibited proliferation in a time- and dose-dependent manner,with the IC50 between 25 and 150 nM. The VX-680 significantly impaired the ability of the different cell lines to form colonies in soft agar. Analysis of caspase-3 activity showed that VX-680 induced apoptosis in the different cell lines. CAL-62 cells exposed for 12 h to VX-680 showed an accumulation of cells with textgreater or =4N DNA content. Time-lapse analysis demonstrated that VX-680-treated CAL-62 cells exit metaphase without dividing. Moreover,histone H3 phosphorylation was abrogated following VX-680 treatment. In conclusion,our data demonstrated that VX-680 is effective in reducing cell growth of different ATC-derived cell lines and warrant further investigation to exploit its potential therapeutic value for ATC treatment. View Publication

We report that TG101348,a selective small-molecule inhibitor of JAK2 with an in vitro IC50 of approximately 3 nM,shows therapeutic efficacy in a murine model of myeloproliferative disease induced by the JAK2V617F mutation. In treated animals,there was a statistically significant reduction in hematocrit and leukocyte count,a dose-dependent reduction/elimination of extramedullary hematopoiesis,and,at least in some instances,evidence for attenuation of myelofibrosis. There were no apparent toxicities and no effect on T cell number. In vivo responses were correlated with surrogate endpoints,including reduction/elimination of JAK2V617F disease burden assessed by quantitative genomic PCR,suppression of endogenous erythroid colony formation,and in vivo inhibition of JAK-STAT signal transduction as assessed by flow cytometric measurement of phosphorylated Stat5. View Publication

Up to now,no lentiviral vector (LV) tool existed to govern efficient and stable gene delivery into quiescent B lymphocytes,which hampers its application in gene therapy and immunotherapy areas. Here,we report that LVs incorporating measles virus (MV) glycoproteins,H and F,on their surface allowed transduction of 50% of quiescent B cells,which are not permissive to VSVG-LV transduction. This high transduction level correlated with B-cell SLAM expression and was not at cost of cell-cycle entry or B-cell activation. Moreover,the naive and memory phenotypes of transduced resting B cells were maintained. Importantly,H/F-LVs represent the first tool permitting stable transduction of leukemic cancer cells,B-cell chronic lymphocytic leukemia cells,blocked in G(0)/G(1) early phase of the cell cycle. Thus,H/F-LV transduction overcomes the limitations of current LVs by making B cell-based gene therapy and immunotherapy applications feasible. These new LVs will facilitate antibody production and the study of gene functions in these healthy and cancer immune cells. View Publication

Reprogramming blood cells to induced pluripotent stem cells (iPSCs) provides a novel tool for modeling blood diseases in vitro. However,the well-known limitations of current reprogramming technologies include low efficiency,slow kinetics,and transgene integration and residual expression. In the present study,we have demonstrated that iPSCs free of transgene and vector sequences could be generated from human BM and CB mononuclear cells using non-integrating episomal vectors. The reprogramming described here is up to 100 times more efficient,occurs 1-3 weeks faster compared with the reprogramming of fibroblasts,and does not require isolation of progenitors or multiple rounds of transfection. Blood-derived iPSC lines lacked rearrangements of IGH and TCR,indicating that their origin is non-B- or non-T-lymphoid cells. When cocultured on OP9,blood-derived iPSCs could be differentiated back to the blood cells,albeit with lower efficiency compared to fibroblast-derived iPSCs. We also generated transgene-free iPSCs from the BM of a patient with chronic myeloid leukemia (CML). CML iPSCs showed a unique complex chromosomal translocation identified in marrow sample while displaying typical embryonic stem cell phenotype and pluripotent differentiation potential. This approach provides an opportunity to explore banked normal and diseased CB and BM samples without the limitations associated with virus-based methods. View Publication

There are a number of leukemogenic protein-tyrosine kinases (PTKs) associated with leukemic transformation. Although each is linked with a specific disease their functional activity poses the question whether they have a degree of commonality in their effects upon target cells. Exon array analysis of the effects of six leukemogenic PTKs (BCR/ABL,TEL/PDGFRbeta,FIP1/PDGFRalpha,D816V KIT,NPM/ALK,and FLT3ITD) revealed few common effects on the transcriptome. It is apparent,however,that proteome changes are not directly governed by transcriptome changes. Therefore,we assessed and used a new generation of iTRAQ tagging,enabling eight-channel relative quantification discovery proteomics,to analyze the effects of these six leukemogenic PTKs. Again these were found to have disparate effects on the proteome with few common targets. BCR/ABL had the greatest effect on the proteome and had more effects in common with FIP1/PDGFRalpha. The proteomic effects of the four type III receptor kinases were relatively remotely related. The only protein commonly affected was eosinophil-associated ribonuclease 7. Five of six PTKs affected the motility-related proteins CAPG and vimentin,although this did not correspond to changes in motility. However,correlation of the proteomics data with that from the exon microarray not only showed poor levels of correlation between transcript and protein levels but also revealed alternative patterns of regulation of the CAPG protein by different oncogenes,illustrating the utility of such a combined approach. View Publication

BACKGROUND: Over-expression of aldehyde dehydrogenase and other stem cell markers is characteristic of cells with tumorigenic potential in NOD/SCID mice. Most of these studies have focused on metastatic cells in bone marrow and on solid tumors. There are no studies on correlation of marker expression with ALDH1 expression in cells from human peripheral blood apheresis (HPC-A) samples. METHODS: HPC-A samples from 44 patients were incubated with Aldefluor with or without the presence of aldehyde dehydrogenase inhibitor DEAB. Cells with high aldehyde dehydrogenase expression (ALDH1(bright)) were analyzed for stem/progenitor markers CD34,CD90,CD117,and CD133. Electronic volume measured by Coulter principal in a Quanta flow analyzer was correlated with ALDH1 and marker expression. RESULTS: In ALDH1(bright)/SSC(low) cells,0.13% of the cells had CD34(+) expression and three distinct populations were seen. Expression of CD90 was dim and the frequency of ALDH1(bright)/SSC(low)/CD90(dim) cells amongst the nonlineage depleted samples was 0.04%. CD117(dim-bright) expression was seen in 0.17% of the samples. Three distinct populations of cells with CD133 expression were seen in ALDH1(bright)/SSC(low) nonlineage depleted cells with a frequency of 0.28%. The ALDH1(bright)/CD90(dim) cells had the smallest mean electronic volume of 264.9 microm(3) when compared with cells with CD34(bright) expression (270.2 microm(3)) and ALDH1(dim)/CD90(dim) cells (223 microm(3)). CONCLUSIONS: ALDH1(bright)/SSC(low) cells show heterogeneity in expression of the four stem cell markers studied. The CD90 cells in both the ALDH1(bright) and ALDH1(dim) populations had the smallest mean electronic volume when compared with similar cells with CD117 expression. View Publication