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

BACKGROUND Rhodiola crenulata is a Tibetan mountainous plant,commonly used in Eastern alternative medicine. Many phytochemicals possess estrogenic activity,a critical regulator of proliferation in mammary epithelial cells. We have previously characterized anti-cancer properties of R. crenulata in aggressive triple negative breast cancer cells,lacking the expression of estrogen receptor. Currently,it is unknown whether R. crenulata exerts estrogenic effects and as such consumption may be a concern for women with estrogen receptor positive breast cancer that use Rhodiola sp. to relieve mild to moderate depression. PURPOSE In this study,we wished to determine whether a hydroalcoholic fraction of the R. crenulata root extract exhibits estrogenic activity in estrogen receptor positive (ER+) breast cancer cells in vitro and whether it affects normal mammary epithelial ER target gene expression in vivo. METHODS ER transcriptional activity was analyzed in MCF7 cells expressing an ERE reporter construct and confirmed via qPCR of endogenous ER target genes. We also monitored cellular proliferation over time. Additionally,to assess stem-like properties in MCF7 cells,we performed a tumorsphere formation assay under anchorage independent conditions. We examined whether R. crenulata treatment reduced $$-catenin levels via Western blotting and measured $$-catenin transcriptional activity by a reporter assay. To examine the effects of R. crenulata on normal mammary epithelial cells,we performed immunohistochemical staining of ER and PR in the mammary glands of mice fed R. crenulata for 12 weeks. RESULTS We show an initial activation of ER transcriptional activity by dual reporter assay,qPCR and proliferation of MCF7 ER+ cells in response to 24 h of R. crenulata treatment. However,upon longer treatment basal and R. crenulata induced transcriptional activity was suppressed. There was a decrease in cell doubling times and a decrease in tumorsphere formation. In association with these changes,ER$$ transcript levels were decreased and active $$-catenin levels were reduced in the cells treated for 2 weeks. Finally,we show no change in estrogen targets in normal mammary cells in vivo. CONCLUSION These data suggest that the R. crenulata extract contains components with estrogenic activity. However,R. crenulata treatment could still be protective in ER+ breast cancer cells,as longer treatment reduced the transcriptional activity of $$-catenin and ER responses leading to reduced proliferation and tumorsphere formation. Furthermore,administration of 20 mg/kg/day R. crenulata to mice did not have an observable effect on mammary epithelial ER$$ target gene expression in vivo. View Publication

Human amniotic fluid cells (AFCs) are routinely obtained for prenatal diagnostics procedures. Recently,it has been illustrated that these cells may also serve as a valuable model system to study developmental processes and for application in regenerative therapies. Cellular reprogramming is a means of assigning greater value to primary AFCs by inducing self-renewal and pluripotency and,thus,bypassing senescence. Here,we report the generation and characterization of human amniotic fluid-derived induced pluripotent stem cells (AFiPSCs) and demonstrate their ability to differentiate into the trophoblast lineage after stimulation with BMP2/BMP4. We further carried out comparative transcriptome analyses of primary human AFCs,AFiPSCs,fibroblast-derived iPSCs (FiPSCs) and embryonic stem cells (ESCs). This revealed that the expression of key senescence-associated genes are down-regulated upon the induction of pluripotency in primary AFCs (AFiPSCs). By defining distinct and overlapping gene expression patterns and deriving the LARGE (Lost,Acquired and Retained Gene Expression) Principle of Cellular Reprogramming,we could further highlight that AFiPSCs,FiPSCs and ESCs share a core self-renewal gene regulatory network driven by OCT4,SOX2 and NANOG. Nevertheless,these cell types are marked by distinct gene expression signatures. For example,expression of the transcription factors,SIX6,EGR2,PKNOX2,HOXD4,HOXD10,DLX5 and RAXL1,known to regulate developmental processes,are retained in AFiPSCs and FiPSCs. Surprisingly,expression of the self-renewal-associated gene PRDM14 or the developmental processes-regulating genes WNT3A and GSC are restricted to ESCs. Implications of this,with respect to the stability of the undifferentiated state and long-term differentiation potential of iPSCs,warrant further studies. View Publication

Embryonic stem cells (ESC) have two main characteristics: they can be indefinitely propagated in vitro in an undifferentiated state and they are pluripotent,thus having the potential to differentiate into multiple lineages. Such properties make ESCs extremely attractive for cell based therapy and regenerative treatment applications. However for its full potential to be realized the cells have to be differentiated into mature and functional phenotypes,which is a daunting task. A promising approach in inducing cellular differentiation is to closely mimic the path of organogenesis in the in vitro setting. Pancreatic development is known to occur in specific stages,starting with endoderm,which can develop into several organs,including liver and pancreas. Endoderm induction can be achieved by modulation of the nodal pathway through addition of Activin A in combination with several growth factors. Definitive endoderm cells then undergo pancreatic commitment by inhibition of sonic hedgehog inhibition,which can be achieved in vitro by addition of cyclopamine. Pancreatic maturation is mediated by several parallel events including inhibition of notch signaling; aggregation of pancreatic progenitors into 3-dimentional clusters; induction of vascularization; to name a few. By far the most successful in vitro maturation of ESC derived pancreatic progenitor cells have been achieved through inhibition of notch signaling by DAPT supplementation. Although successful,this results in low yield of the mature phenotype with reduced functionality. A less studied area is the effect of endothelial cell signaling in pancreatic maturation,which is increasingly being appreciated as an important contributing factor in in-vivo pancreatic islet maturation. The current study explores such effect of endothelial cell signaling in maturation of human ESC derived pancreatic progenitor cells into insulin producing islet-like cells. We report a multi-stage directed differentiation protocol where the human ESCs are first induced towards endoderm by Activin A along with inhibition of PI3K pathway. Pancreatic specification of endoderm cells is achieved by inhibition of sonic hedgehog signaling by Cyclopamine along with retinoid induction by addition of Retinoic Acid. The final stage of maturation is induced by endothelial cell signaling achieved by a co-culture configuration. While several endothelial cells have been tested in the co-culture,herein we present our data with rat heart microvascular endothelial Cells (RHMVEC),primarily for the ease of analysis. View Publication

Tumor suppressor p53 is frequently mutated or inactivated in colorectal cancer. In contrast,p53 family member p73 is rarely mutated in colorectal cancer and p73 activation elicits p53-like tumor suppression. Colorectal cancer stem cells (CRCSC) comprise a rare self-renewing subpopulation that contributes to tumor maintenance and chemoresistance. p53 restoration is known to target CRCSCs,but p73 restoration in CRCSCs has not been examined. In this study,we investigated the effects of the small-molecule prodigiosin,which restores the p53 pathway in tumor cells via p73 activation,on CRCSCs in vitro and in vivo Prodigiosin prevented colonosphere formation independent of p53 status and reduced the viability of self-renewing,5-fluorouracil-resistant Aldefluor positive [Aldefluor(+)] CRCSCs in vitro Furthermore,prodigiosin inhibited the growth of xenograft tumors initiated with Aldefluor+ cells without toxic effects and limited the tumorigenic potential of these cells. Consistently,prodigiosin induced activation of a p53-responsive luciferase reporter in colonospheres,Aldefluor(+) cells,and tumor xenografts. Mechanistic studies revealed that prodigiosin increased the levels of p73 and reduced levels of the oncogenic N-terminally truncated isoform $$Np73 in Aldefluor(+) cells. Accordingly,p73 knockdown or $$Np73 overexpression suppressed prodigiosin-mediated inhibition of colonosphere formation. Moreover,prodigiosin increased levels of the transcription factor c-Jun,a regulator of p73 and $$Np73,in both the cytoplasm and nucleus. c-Jun knockdown attenuated prodigiosin-mediated p53-reporter activation,$$Np73 downregulation,p73 activation,and cell death. Collectively,our findings highlight the previously uncharacterized use of p73-activating therapeutics to target CRCSCs. Cancer Res; 76(7); 1989-99. textcopyright2016 AACR. View Publication

It is now widely accepted that hippocampal neurogenesis underpins critical cognitive functions,such as learning and memory. To assess the behavioral importance of adult-born neurons,we developed a novel knock-in mouse model that allowed us to specifically and reversibly ablate hippocampal neurons at an immature stage. In these mice,the diphtheria toxin receptor (DTR) is expressed under control of the doublecortin (DCX) promoter,which allows for specific ablation of immature DCX-expressing neurons after administration of diphtheria toxin while leaving the neural precursor pool intact. Using a spatially challenging behavioral test (a modified version of the active place avoidance test),we present direct evidence that immature DCX-expressing neurons are required for successful acquisition of spatial learning,as well as reversal learning,but are not necessary for the retrieval of stored long-term memories. Importantly,the observed learning deficits were rescued as newly generated immature neurons repopulated the granule cell layer upon termination of the toxin treatment. Repeat (or cyclic) depletion of immature neurons reinstated behavioral deficits if the mice were challenged with a novel task. Together,these findings highlight the potential of stimulating neurogenesis as a means to enhance learning. View Publication

Ectopic expression of the transcription factors Oct4,Sox2,c-Myc,and Klf4 in fibroblasts generates induced pluripotent stem (iPS) cells. Little is known about the nature and sequence of molecular events accompanying nuclear reprogramming. Using doxycycline-inducible vectors,we have shown that exogenous factors are required for about 10 days,after which cells enter a self-sustaining pluripotent state. We have identified markers that define cell populations prior to and during this transition period. While downregulation of Thy1 and subsequent upregulation of SSEA-1 occur at early time points,reactivation of endogenous Oct4,Sox2,telomerase,and the silent X chromosome mark late events in the reprogramming process. Cell sorting with these markers allows for a significant enrichment of cells with the potential to become iPS cells. Our results suggest that factor-induced reprogramming is a gradual process with defined intermediate cell populations that contain the majority of cells poised to become iPS cells. View Publication

Blood of both humans and mice contains 2 main monocyte subsets. Here,we investigated the extent of their similarity using a microarray approach. Approximately 270 genes in humans and 550 genes in mice were differentially expressed between subsets by 2-fold or more. More than 130 of these gene expression differences were conserved between mouse and human monocyte subsets. We confirmed numerous of these differences at the cell surface protein level. Despite overall conservation,some molecules were conversely expressed between the 2 species' subsets,including CD36,CD9,and TREM-1. Other differences included a prominent peroxisome proliferator-activated receptor gamma (PPARgamma) signature in mouse monocytes,which is absent in humans,and strikingly opposed patterns of receptors involved in uptake of apoptotic cells and other phagocytic cargo between human and mouse monocyte subsets. Thus,whereas human and mouse monocyte subsets are far more broadly conserved than currently recognized,important differences between the species deserve consideration when models of human disease are studied in mice. View Publication

Human amniotic membrane is a standard substratum used to culture limbal epithelial stem cells for transplantation to patients with limbal stem cell deficiency. Various methods were developed to decellularize amniotic membrane,because denuded membrane is poorly immunogenic and better supports repopulation by dissociated limbal epithelial cells. Amniotic membrane denuding usually involves treatment with EDTA and/or proteolytic enzymes; in many cases additional mechanical scraping is required. Although ensuring limbal cell proliferation,these methods are not standardized,require relatively long treatment times and can result in membrane damage. We propose to use 0.5 M NaOH to reliably remove amniotic cells from the membrane. This method was used before to lyse cells for DNA isolation and radioactivity counting. Gently rubbing a cotton swab soaked in NaOH over the epithelial side of amniotic membrane leads to nearly complete and easy removal of adherent cells in less than a minute. The denuded membrane is subsequently washed in a neutral buffer. Cell removal was more thorough and uniform than with EDTA,or EDTA plus mechanical scraping with an electric toothbrush,or n-heptanol plus EDTA treatment. NaOH-denuded amniotic membrane did not show any perforations compared with mechanical or thermolysin denuding,and showed excellent preservation of immunoreactivity for major basement membrane components including laminin α2,γ1-γ3 chains,α1/α2 and α6 type IV collagen chains,fibronectin,nidogen-2,and perlecan. Sodium hydroxide treatment was efficient with fresh or cryopreserved (10% dimethyl sulfoxide or 50% glycerol) amniotic membrane. The latter method is a common way of membrane storage for subsequent grafting in the European Union. NaOH-denuded amniotic membrane supported growth of human limbal epithelial cells,immortalized corneal epithelial cells,and induced pluripotent stem cells. This simple,fast and reliable method can be used to standardize decellularized amniotic membrane preparations for expansion of limbal stem cells in vitro before transplantation to patients. View Publication

Identification of prevalent specific markers is crucial to stem/progenitor cell purification. Determinants such as the surface antigens CD34 and CD38 are traditionally used to analyze and purify hematopoietic stem/progenitor cells (HSCs/HPCs). However,the variable expression of these membrane antigens poses some limitations to their use in HSC/HPC purification. Techniques based on drug/stain efflux through the ATP-binding cassette (ABC)G2 pump (side population [SP] phenotype) or on detection of aldehyde dehydrogenase (ALDH) activity have been independently developed and distinguish the SP and ALDH(Bright) (ALDH(Br)) cell subsets for their phenotype and proliferative capability. In this study,we developed a multiparametric flow cytometric method associating both SP and ALDH activities on human lineage negative (Lin(-)) bone marrow cells and sorted different cell fractions according to their SP/ALDH activity level. We find that Lin(-)CD34(+)CD38(Low/-) cells are found throughout the spectrum of ALDH expression and are enriched especially in ALDH(Br) cells when associated with SP functionality (SP/ALDH(Br) fraction). Furthermore,the SP marker identified G(0) cells in all ALDH fractions,allowing us to sort quiescent cells regardless of ALDH activity. Moreover,we show that,within the Lin(-)CD34(+)CD38(-)ALDH(Br) population,the SP marker identifies cells with higher primitive characteristics,in terms of stemness-related gene expression and in vitro and in vivo proliferative potential,than the Lin(-)CD34(+) CD38(-)ALDH(Br) main population cells. In conclusion,our study shows that the coexpression of SP and ALDH markers refines the Lin(-)CD34(+)CD38(-) hematopoietic compartment and identifies an SP/ALDH(Br) cell subset enriched in quiescent primitive HSCs/HPCs. View Publication

Mobilization of hematopoietic stem and progenitor cells (HSPCs) from bone marrow into peripheral blood by the cytokine granulocyte colony-stimulating factor (G-CSF) has become the preferred source of HSPCs for stem cell transplants. However,G-CSF fails to mobilize sufficient numbers of stem cells in up to 10% of donors,precluding autologous transplantation in those donors or substantially delaying transplant recovery time. Consequently,new regimens are needed to increase the number of stem cells in peripheral blood upon mobilization. Using a forward genetic approach in mice,we mapped the gene encoding the epidermal growth factor receptor (Egfr) to a genetic region modifying G-CSF-mediated HSPC mobilization. Amounts of EGFR in HSPCs inversely correlated with the cells' ability to be mobilized by G-CSF,implying a negative role for EGFR signaling in mobilization. In combination with G-CSF treatment,genetic reduction of EGFR activity in HSPCs (in waved-2 mutant mice) or treatment with the EGFR inhibitor erlotinib increased mobilization. Increased mobilization due to suppression of EGFR activity correlated with reduced activity of cell division control protein-42 (Cdc42),and genetic Cdc42 deficiency in vivo also enhanced G-CSF-induced mobilization. Our findings reveal a previously unknown signaling pathway regulating stem cell mobilization and provide a new pharmacological approach for improving HSPC mobilization and thereby transplantation outcomes. View Publication

The t(12;21)(p13;q22) translocation is the most common chromosomal abnormality yet identified in any pediatric leukemia and gives rise to the TEL-AML1 fusion product. To investigate the effects of TEL-AML1 on hematopoiesis,fetal liver hematopoietic progenitor cells (HPCs) were transduced with retroviral vectors expressing this fusion protein. We show that TEL-AML1 dramatically alters differentiation of HPCs in vitro,preferentially promoting B-lymphocyte development,enhancing self-renewal of B-cell precursors,and leading to the establishment of long-term growth factor-dependent pre-B-cell lines. However,it had no effect on myeloid development in vitro. Further experiments were performed to determine whether TEL-AML1 also demonstrates lineage-specific activity in vivo. TEL-AML1-expressing HPCs displayed a competitive advantage in reconstituting both B-cell and myeloid lineages in vivo but had no effect on reconstitution of the T-cell lineage. Despite promoting these alterations in hematopoiesis,TEL-AML1 did not induce leukemia in transplanted mice. Our study provides a unique insight into the role of TEL-AML1 in leukemia predisposition and a potential model to study the mechanism of leukemogenesis associated with this fusion. View Publication

Human Nanog1 is a 305-amino acid (aa) homeodomain-containing transcription factor critical for the pluripotency of embryonic stem (ES) and embryonal carcinoma (EC) cells. Somatic cancer cells predominantly express a retrogene homolog of Nanog1 called NanogP8,which is ˜99% similar to Nanog at the aa level. Although the predicted M.W of Nanog1/NanogP8 is ∼35 kD,both have been reported to migrate,on Western blotting (WB),at apparent molecular masses of 29-80 kD. Whether all these reported protein bands represent authentic Nanog proteins is unclear. Furthermore,detailed biochemical studies on Nanog1/NanogpP8 have been lacking. By combining WB using 8 anti-Nanog1 antibodies,immunoprecipitation,mass spectrometry,and studies using recombinant proteins,here we provide direct evidence that the Nanog1 protein in NTERA-2 EC cells exists as multiple M.W species from ˜22 kD to 100 kD with a major 42 kD band detectable on WB. We then demonstrate that recombinant NanogP8 (rNanogP8) proteins made in bacteria using cDNAs from multiple cancer cells also migrate,on denaturing SDS-PAGE,at ˜28 kD to 180 kD. Interestingly,different anti-Nanog1 antibodies exhibit differential reactivity towards rNanogP8 proteins,which can spontaneously form high M.W protein species. Finally,we show that most long-term cultured cancer cell lines seem to express very low levels of or different endogenous NanogP8 protein that cannot be readily detected by immunoprecipitation. Altogether,the current study reveals unique biochemical properties of Nanog1 in EC cells and NanogP8 in somatic cancer cells. View Publication