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

Human embryonic stem cells (hESC) have a unique capacity to self-renew and differentiate into all the cell types found in human body. Although the transcriptional regulators of pluripotency are well studied,the role of cytoplasmic regulators is still poorly characterized. Here,we report a new stem cell-specific RNA-binding protein L1TD1 (ECAT11,FLJ10884) required for hESC self-renewal and cancer cell proliferation. Depletion of L1TD1 results in immediate downregulation of OCT4 and NANOG. Furthermore,we demonstrate that OCT4,SOX2,and NANOG all bind to the promoter of L1TD1. Moreover,L1TD1 is highly expressed in seminomas,and depletion of L1TD1 in these cancer cells influences self-renewal and proliferation. We show that L1TD1 colocalizes and interacts with LIN28 via RNA and directly with RNA helicase A (RHA). LIN28 has been reported to regulate translation of OCT4 in complex with RHA. Thus,we hypothesize that L1TD1 is part of the L1TD1-RHA-LIN28 complex that could influence levels of OCT4. Our results strongly suggest that L1TD1 has an important role in the regulation of stemness. View Publication

Here,we show for the first time,that the familial breast/ovarian cancer susceptibility gene BRCA1 activates the Notch pathway in breast cells by transcriptional upregulation of Notch ligands and receptors in both normal and cancer cells. We demonstrate through chromatin immunoprecipitation assays that BRCA1 is localized to a conserved intronic enhancer region within the Notch ligand Jagged-1 (JAG1) gene,an event requiring $$Np63. We propose that this BRCA1/$$Np63-mediated induction of JAG1 may be important the regulation of breast stem/precursor cells,as knockdown of all three proteins resulted in increased tumoursphere growth and increased activity of stem cell markers such as Aldehyde Dehydrogenase 1 (ALDH1). Knockdown of Notch1 and JAG1 phenocopied BRCA1 knockdown resulting in the loss of Estrogen Receptor-$$ (ER-$$) expression and other luminal markers. A Notch mimetic peptide could activate an ER-$$ promoter reporter in a BRCA1-dependent manner,whereas Notch inhibition using a $$-secretase inhibitor reversed this process. We demonstrate that inhibition of Notch signalling resulted in decreased sensitivity to the anti-estrogen drug Tamoxifen but increased expression of markers associated with basal-like breast cancer. Together,these findings suggest that BRCA1 transcriptional upregulation of Notch signalling is a key event in the normal differentiation process in breast tissue. View Publication

PurposeOxaliplatin-induced peripheral neuropathy (OIPN) is a chronic,debilitating late effect following oxaliplatin treatment. Neurofilament light chain (NfL) is a structural protein found in nerve axons that was investigated upon oxaliplatin exposure in vitro and in vivo correlated to symptoms of OIPN in colorectal cancer patients receiving oxaliplatin.MethodsHuman sensory neurons,derived from induced pluripotent stem cells,were exposed to clinically relevant concentrations of oxaliplatin in vitro,with NfL concentrations measured in the cell medium. The prospective clinical study included patients with colorectal cancer undergoing chemotherapy therapy with or without oxaliplatin. Possible OIPN was defined as bilateral presence of numbness and/or presence of pricking sensations in the feet documented in an interview at the time of blood sampling prior to,3,and 6 months after initiating treatment.ResultsOxaliplatin exposure led to a dose-dependent NfL increase in vitro. In the clinical cohort of 30 patients (18 in the oxaliplatin group),NfL levels rose at 3 and 6 months compared to controls. NfL level changes correlated to OIPN symptoms at the 6-month timepoint (rho 0.81,p? View Publication

The rising incidence of autoimmune diseases such as multiple sclerosis (MS) in developed countries might be due to a more hygienic environment,particularly during early life. To investigate this concept,we developed a model of neonatal exposure to a common pathogen-associated molecular pattern,LPS,and determined its impact on experimental autoimmune encephalomyelitis (EAE). Mice exposed to LPS at 2 wk of age showed a delayed onset and diminished severity of myelin oligodendrocyte glycoprotein (MOG)-induced EAE,induced at 12 wk,compared with vehicle-exposed animals. Spinal cord transcript levels of CD3epsilon and F4/80 were lower in LPS- compared with PBS-exposed EAE animals with increased IL-10 levels in the LPS-exposed group. Splenic CD11c(+) cells from LPS-exposed animals exhibited reduced MHC class II and CD83 expression but increased levels of CD80 and CD86 both before and during EAE. MOG-treated APC from LPS-exposed animals stimulated less T lymphocyte proliferation but increased expansion of CD4(+)FoxP3(+) T cells compared with APC from PBS-exposed animals. Neuropathological studies disclosed reduced myelin and axonal loss in spinal cords from LPS-exposed compared with PBS-exposed animals with EAE,and this neuroprotective effect was associated with an increased number of CD3(+)FoxP3(+) immunoreactive cells. Analyses of human brain tissue revealed that FoxP3 expression was detected in lymphocytes,albeit reduced in MS compared with non-MS patients' brains. These findings support the concept of early-life microbial exposure influencing the generation of neuroprotective regulatory T cells and may provide insights into new immunotherapeutic strategies for MS. View Publication

Pluripotent stem cells,both human embryonic stem cells (hESC) and human-induced pluripotent stem cells (hiPSC),can give rise to multiple cell types and hence have tremendous potential for regenerative therapies. However,the tumorigenic potential of these cells remains a great concern,as reflected in the formation of teratomas by transplanted pluripotent cells. In clinical practice,most pluripotent cells will be differentiated into useful therapeutic cell types such as neuronal,cardiac,or endothelial cells prior to human transplantation,drastically reducing their tumorigenic potential. Our work investigated the extent to which these differentiated stem cell derivatives are truly devoid of oncogenic potential. In this study,we analyzed the gene expression patterns from three sets of hiPSC- and hESC-derivatives and the corresponding primary cells,and compared their transcriptomes with those of five different types of cancer. Our analysis revealed a significant gene expression overlap of the hiPSC- and hESC-derivatives with cancer,whereas the corresponding primary cells showed minimum overlap. Real-time quantitative PCR analysis of a set of cancer-related genes (selected on the basis of rigorous functional and pathway analyses) confirmed our results. Overall,our findings suggested that pluripotent stem cell derivatives may still bear oncogenic properties even after differentiation,and additional stringent functional assays to purify these cells should be done before they can be used for regenerative therapy. View Publication

Purpose: We determined whether elimination of CD105+ cells in the tumor microenvironment (TME) with anti-CD105 antibodies enhanced anti-disialoganglioside (GD2) antibody dinutuximab therapy of neuroblastoma when combined with activated natural killer (aNK) cells.Experimental Design: The effect of MSCs and monocytes on antibody-dependent cellular cytotoxicity (ADCC) mediated by dinutuximab with aNK cells against neuroblastoma cells was determined in vitro. ADCC with anti-CD105 mAb TRC105 and aNK cells against MSCs,monocytes,and endothelial cells,which express CD105,was evaluated. Anti-neuroblastoma activity in immunodeficient NSG mice of dinutuximab with aNK cells without or with anti-CD105 mAbs was determined using neuroblastoma cell lines and a patient-derived xenograft.Results: ADCC mediated by dinutuximab with aNK cells against neuroblastoma cells in vitro was suppressed by addition of MSCs and monocytes,and dinutuximab with aNK cells was less effective against neuroblastomas formed with coinjected MSCs and monocytes in NSG mice than against those formed by tumor cells alone. Anti-CD105 antibody TRC105 with aNK cells mediated ADCC against MSCs,monocytes,and endothelial cells. Neuroblastomas formed in NSG mice by two neuroblastoma cell lines or a patient-derived xenograft coinjected with MSCs and monocytes were most effectively treated with dinutuximab and aNK cells when anti-human (TRC105) and anti-mouse (M1043) CD105 antibodies were added,which depleted human MSCs and murine endothelial cells and macrophages from the TME.Conclusions: Immunotherapy of neuroblastoma with anti-GD2 antibody dinutuximab and aNK cells is suppressed by CD105+ cells in the TME,but suppression is overcome by adding anti-CD105 antibodies to eliminate CD105+ cells. View Publication

Poor recovery of cryopreserved human embryonic stem (hES) cells and induced pluripotent stem (iPS) cells is a significant impediment to progress with pluripotent stem cells. In this study,we demonstrate that Y-27632,a specific inhibitor of Rho kinase (ROCK) activity,significantly enhances recovery of hES cells from cryopreserved stocks when cultured with or without a growth inactivated feeder layer. Furthermore,treatment with the ROCK inhibitor for several days increased the number of colonies and colony size of hES cells compared to shorter exposures. Remarkably,hES cells that had formed relatively few colonies 5 days after thawing exhibited rapid growth upon addition of Y-27632. Additionally,we determined that Y-27632 significantly improves the recovery of cryopreserved human iPS cells and their growth upon subculture. Thus,Y-27632 provides a means to kick-start" slow-growing human pluripotent stem cells View Publication

Brain-derived microvascular endothelial cells (BMECs),which play a central role in blood brain barrier (BBB),can be used for the evaluation of drug transport into the brain. Although human BMEC cell lines have already been reported,they lack original properties such as barrier integrity. Pluripotent stem cells (PSCs) can be used for various applications such as regenerative therapy,drug screening,and pathological study. In the recent study,an induction method of BMECs from PSCs has been established,making it possible to more precisely study the in vitro human BBB function. Here,using induced pluripotent stem (iPS) cell-derived BMECs,we examined the effects of oxygen-glucose deprivation (OGD) and OGD/reoxygenation (OGD/R) on BBB permeability. OGD disrupted the barrier function,and the dysfunction was rapidly restored by re-supply of the oxygen and glucose. Interestingly,TNF-α,which is known to be secreted from astrocytes and microglia in the cerebral ischemia,prevented the restoration of OGD-induced barrier dysfunction in an apoptosis-independent manner. Thus,we could establish the in vitro BBB disease model that mimics the cerebral ischemia by using iPS cell-derived BMECs. View Publication

Sphingolipids,particularly gangliosides,are enriched in neuronal membranes where they have been implicated as mediators of various regulatory events. We recently provided evidence that sphingolipid synthesis is necessary to maintain neuronal growth by demonstrating that in hippocampal neurons,inhibition of ceramide synthesis by Fumonisin B1 (FB1) disrupted axonal outgrowth (Harel,R. and Futerman,A. H. (1993) J. Biol. Chem. 268,14476-14481). We now analyze further the relationship between neuronal growth and sphingolipid metabolism by examining the effect of an inhibitor of glucosylceramide synthesis,D-threo-1-phenyl-2-decanoylamino-3-morpholino-1- propanol (PDMP) and by examining the effects of both FB1 and PDMP at various stages of neuronal development. No effects of FB1 or PDMP were observed during the first 2 days in culture,but by day 3 axonal morphology was significantly altered,irrespective of the time of addition of the inhibitors to the cultures. Cells incubated with FB1 or PDMP had a shorter axon plexus and less axonal branches. FB1 appeared to cause a retraction of axonal branches between days 2 and 3,although long term incubation had no apparent effect on neuronal morphology or on the segregation of axonal or dendritic proteins. In contrast,incubation of neurons with conduritol B-epoxide,an inhibitor of glucosylceramide degradation,caused an increase in the number of axonal branches and a corresponding increase in the length of the axon plexus. A direct correlation was observed between the number of axonal branch points per cell and the extent of inhibition of either sphingolipid synthesis or degradation. These results suggest that sphingolipids play an important role in the formation or stabilization of axonal branches. View Publication

An in vivo transplantation system has been used to evaluate the developmental capacities of specific mouse mammary epithelial cell populations. Specifically,mouse mammary epithelial cells with distinctly limited developmental potentials have been identified using this procedure. Two distinct epithelial cell progenitors have been identified by experiments designed to determine whether basal lobular and ductal phenotypes could develop independently under conditions imposed by a limiting dilution. The prediction that these separate epithelial progenitors must exist was based upon the results from transplantation experiments carried out in epithelium-divested mammary fat pads of syngeneic mice with mammary epithelium from two different transgenic mouse models. The results presented here demonstrate the following points: 1) lobular,i.e. secretory,progenitor cells are present as distinct entities among the mammary epithelial cells found in immature virgin female mice; 2) similarly,ductal epithelial progenitors are present within the same population; 3) lobular progenitors are present in greater numbers,although both cell populations are extremely small; 4) as expected,some inocula produce outgrowths with simultaneous development of both lobular and ductal phenotypes--it is not known whether this indicates cooperative interaction between the two epithelial progenitors or signals the presence of a third progenitor type capable of producing both ductular and lobular committed daughters; 5) these findings have important consequences in the design of experiments aimed at testing the effects of known and putative mammary oncogenes and tumor suppressor genes,using techniques which include cellular transformation in vitro followed by in vivo cultivation and evaluation. View Publication

BACKGROUND The epidermal growth factor receptor (EGFR) and Notch signaling pathways have been implicated in self-renewal of normal breast stem cells. We investigated the involvement of these signaling pathways in ductal carcinoma in situ (DCIS) of the breast. METHODS Samples of normal breast tissue (n = 15),pure DCIS tissue of varying grades (n = 35),and DCIS tissue surrounding an invasive cancer (n = 7) were used for nonadherent (i.e.,mammosphere) culture. Mammosphere cultures were treated at day 0 with gefitinib (an EGFR inhibitor),DAPT (N-[N-(3,5-difluorophenacetyl-L-alanyl)]-S-phenylglycine t-butyl ester) (a gamma-secretase inhibitor),or Notch 4-neutralizing antibody. Mammosphere-forming efficiency (MFE) was calculated by dividing the number of mammospheres of 60 microm or more formed by the number of single cells seeded and is expressed as a percentage. The Notch 1 intracellular domain (NICD) was detected immunohistochemically in paraffin-embedded DCIS tissue from 50 patients with at least 60 months of follow-up. All statistical tests were two-sided. RESULTS DCIS had a greater MFE than normal breast tissue (1.5% versus 0.5%,difference = 1%,95% confidence interval [CI] = 0.62% to 1.25%,Ptextless.001). High-grade DCIS had a greater MFE than low-grade DCIS (1.6% versus 1.09%,difference = 0.51%,95% CI = 0.07% to 0.94%,P = .01). The MFE of high-grade DCIS treated with gefitinib in the absence of exogenous EGF was lower than that of high-grade DCIS treated with mammosphere medium lacking gefitinib and exogenous EGF (0.56% versus 1.36%,difference 0.8%,95% CI = 0.33% to 1.4%,P = .004). Increased Notch signaling as detected by NICD staining was associated with recurrence at 5 years (P = .012). DCIS MFE was reduced when Notch signaling was inhibited using either DAPT (0.89% versus 0.51%,difference = 0.38%,95% CI = 0.2% to 0.6%,Ptextless.001) or a Notch 4-neutralizing antibody (0.97% versus 0.2%,difference = 0.77%,95% CI = 0.52% to 1.0%,Ptextless.001). CONCLUSION We describe a novel primary culture technique for DCIS. Inhibition of the EGFR or Notch signaling pathways reduced DCIS MFE. View Publication

The bioorthogonal keto group has attracted interest for the site-specific chemical conjugation of recombinant proteins under mild conditions,e.g. with aminooxy-functionalised fluorescent probes,radiometal chelates,toxins or polymers. However,the cotranslational incorporation of the corresponding non-canonical amino acid p-acetyl-L-phenylalanine (Apa) into proteins expressed in Escherichia coli by means of amber suppression using a previously described system with a mutated tRNA and an engineered tyrosyl-tRNA synthetase from Methanococcus jannaschii shows limited efficiency and considerable promiscuity towards endogenous amino acids. Employing a one-plasmid system that encodes all three components required for selection,i.e. the modified aminoacyl-tRNA synthetase (aaRS),the cognate amber suppressor tRNA and the enhanced green fluorescent protein equipped with an amber stop codon and serving as reporter,we have generated an Apa-specific aaRS&tRNA pair with considerably improved efficiency (17-fold increased expression) and also fidelity (6-fold). To this end,both the aaRS and the tRNA were subjected to doped random mutagenesis and selection in altogether four evolutionary cycles using fluorescence-activated bacterial cell sorting as well as automated screening of microcultures. The resulting aaRS&tRNA pair was applied to the functionalisation of an Anticalin with specificity towards oncofetal fibronectin by introducing a keto group at a permissible site for subsequent conjugation with a fluorescent dye,thus allowing visualisation of this tumour target under the microscope. View Publication