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

Dominant inhibitory receptors for HLA class I (HLA-I) endow NK cells with high intrinsic responsiveness,a process termed licensing or education,but hinder their ability to kill HLA-I+ tumor cells. Cancer immunotherapy with adoptive transfer of NK cells must overcome inhibitory signals by such receptors to promote elimination of HLA-I+ tumor cells. As proof of concept,we show here that a chimeric antigen receptor (CAR) can be engineered to overcome inhibition by receptors for HLA-I and to promote lysis of HLA-I+ tumor cells by CAR-NK cells. The design of this NK-tailored CAR (NK-CAR) relied on the potent NK cell activation induced by the synergistic combination of NK receptors CD28H (CD28 homolog,TMIGD2) and 2B4 (CD244,SLAMF4). An NK-CAR consisting of the single-chain fragment variable (scFv) of a CD19 antibody,the CD28H transmembrane domain,and the fusion of CD28H,2B4,and TCR$\zeta$ signaling domains was compared to a third-generation T-cell CAR with a CD28-41BB-TCR$\zeta$ signaling domain. The NK-CAR delivered stronger activation signals to NK cells and induced more robust tumor cell lysis. Furthermore,such CAR-NK cells could overcome inhibition by HLA-E or HLA-C expressed on tumor cells. Therefore,engineering of CAR-NK cells that could override inhibition by HLA-I in patients undergoing cancer immunotherapy is feasible. This approach offers an attractive alternative to more complex strategies,such as genetic editing of inhibitory receptors in CAR-NK cells or treatment of patients with a combination of CAR-NK cells and checkpoint blockade with antibodies to inhibitory receptors. A significant benefit of inhibition-resistant NK-CARs is that NK cell inhibition would be overcome only during contact with targeted tumor cells and that HLA-I on healthy cells would continue to maintain NK cell responsiveness through licensing. View Publication

BACKGROUND Human umbilical cord-derived mesenchymal stem cells (hUC-MSCs) are in the foreground as a preferable application for treating diseases. However,the safety of hUC-MSCs after long-term culturing in vitro in serum-free medium remains unclear. METHODS hUC-MSCs were separated by adherent tissue culture. hUC-MSCs were cultured in serum-free MesenCult-XF medium and FBS-bases DMEM complete medium. At the 1st,3rd,5th,8th,10th,and 15th passage,the differentiation of MSCs into osteogenic,chondrogenic,and adipogenic cells was detected,and MTT,surface antigens were measured. Tumorigenicity was analyzed at the 15th passage. Conventional karyotyping was performed at passage 0,8,and 15. The telomerase activity of hUC-MSCs at passage 1-15 was analyzed. RESULTS Flow cytometry analysis showed that very high expression was detected for CD105,CD73,and CD90 and very low expression for CD45,CD34,CD14,CD79a,and HLA-DR. MSCs could differentiate into osteocytes,chondrocytes,and adipocytes in vitro. There was no obvious chromosome elimination,displacement,or chromosomal imbalance as determined from the guidelines of the International System for Human Cytogenetic Nomenclature. Telomerase activity was down-regulated significantly when the culture time was prolonged. Further,no tumors formed in rats injected with hUC-MSCs (P15) cultured in serum-free and in serum-containing conditions. CONCLUSION Our data showed that hUC-MSCs met the International Society for Cellular Therapy standards for conditions of long-term in vitro culturing at P15. Since hUC-MSCs can be safely expanded in vitro and are not susceptible to malignant transformation in serum-free medium,these cells are suitable for cell therapy. View Publication

Human embryonic stem (hES) cell production of heparan sulfate influences cell fate and pluripotency. Human ES cells remain pluripotent in vitro through the action of growth factors signaling,and the activity of these factors depends on interaction with specific receptors and also with heparan sulfate. Here,we tested the hypothesis that matrix-associated heparan sulfate is enough to maintain hES cells under low fibroblast growth factor-2 concentration in the absence of live feeder cells. To pursue this goal,we compared hES cells cultured either on coated plates containing live murine embryonic fibroblasts (MEFs) or on a matrix derived from ethanol-fixed MEFs. hES cells were analyzed for the expression of pluripotency markers and the ability to form embryoid bodies. hES cells cultured either on live mouse fibroblasts or onto a matrix derived from fixed fibroblasts expressed similar levels of Oct-4,SOX-2,Nanog,TRA-1-60 and SSEA-4,and they were also able to form cavitated embryoid bodies. Heparan sulfate-depleted matrix lost the ability to support the adherence and growth of hES cells,confirming that this glycosaminoglycan,bound to the extracellular matrix,is enough for the growth and attachment of hES cells. Finally,we observed that the ethanol-fixed matrix decreases by 30% the levels of Neu5Gc in hES cells,indicating that this procedure reduces xeno-contamination. Our data suggest that matrix-bound heparan sulfate is required for the growth and pluripotency of hES cells and that ethanol-fixed MEFs may be used as a live cell"-free substrate for stem cells." View Publication

Compared to bone marrow (BM) derived mesenchymal stem cells (MSCs) from human origin or from other species,the in vitro expansion and purification of murine MSCs (mMSCs) is much more difficult because of the low MSC yield and the unwanted growth of non-MSCs in the in vitro expansion cultures. We describe a modified protocol to isolate and expand murine BM derived MSCs based on the combination of mechanical crushing and collagenase digestion at the moment of harvest,followed by an immunodepletion step using microbeads coated with CD11b,CD45 and CD34 antibodies. The number of isolated mMSCs as estimated by colony forming unit-fibroblast (CFU-F) assay showed that this modified isolation method could yield 70.0% more primary colonies. After immunodepletion,a homogenous mMSC population could already be obtained after two passages. Immunodepleted mMSCs (ID-mMSCs) are uniformly positive for stem cell antigen-1 (Sca-1),CD90,CD105 and CD73 cell surface markers,but negative for the hematopoietic surface markers CD14,CD34 and CD45. Moreover the immunodepleted cell population exhibits more differentiation potential into adipogenic,osteogenic and chondrogenic lineages. Our data illustrate the development of an efficient and reliable expansion protocol increasing the yield and purity of mMSCs and reducing the overall expansion time. View Publication

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The requirement of complex sphingolipid biosynthesis for growth of neurons was examined in developing rat cerebellar Purkinje neurons using a dissociated culture system. Purkinje cells developed well-differentiated dendrites and axons after 2 weeks in a serum-free nutrient condition. Addition of 2 microM fumonisin B1,a fungal inhibitor of mammalian ceramide synthase,inhibited incorporation of [3H]galactose/glucosamine and [14C]-serine into complex sphingolipids of cultured cerebellar neurons. Under this condition,the expression of Purkinje cell-enriched sphingolipids,including GD1 alpha,9-O-acetylated LD1 and GD3,and sphingomyelin,was significantly decreased. After 2 weeks' exposure to fumonisin B1,dose-dependent measurable decreases in the survival and visually discernible differences in the morphology were seen in fumonisin-treated Purkinje cells. The Purkinje cell dendrites exhibited two types of anomalies; one population of cells developed elongated but less-branched dendrites after a slight time lag,but their branches began to degenerate. In some cells,formation of elongated dendrite trees was severely impaired. However,treatment with fumonisin B1 also led to the formation of spinelike protrusions on the dendrites of Purkinje cells as in control cultures. In contrast to the alterations observed in Purkinje cells,morphology of other cell types including granule neurons appeared to be almost normal after treatment with fumonisin B1. These observations indicated strongly that membrane sphingolipids participate in growth and maintenance of dendrites and in the survival of cerebellar Purkinje cells. Indeed,these effects of fumonisin B1 were reversed,but not completely,by the addition of 6-[[N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)-amino dcaproyl]sphingosine (C6-NBD-ceramide),a synthetic derivative of ceramide. Thus,we conclude that deprivation of membrane sphingolipids in a culture environment is responsible for aberrant growth of Purkinje cells. View Publication

Neurogenesis occurs continuously in two brain regions of adult mammals,underpinned by a pool of resident neural stem cells (NSCs) that can differentiate into all neural cell types. To advance our understanding of NSC function and to develop therapeutic and diagnostic approaches,it is important to accurately identify and enrich for NSCs. There are no definitive markers for the identification and enrichment of NSCs present in the mouse brain. Recently,a fluorescent rosamine dye,CDy1,has been identified as a label for pluripotency in cultured human embryonic and induced pluripotent stem cells. As similar cellular characteristics may enable the uptake and retention of CDy1 by other stem cell populations,we hypothesized that this dye may also enrich for primary NSCs from the mouse brain. Because the subventricular zone (SVZ) and the hippocampus represent brain regions that are highly enriched for NSCs in adult mammals,we sampled cells from these areas to test this hypothesis. These experiments revealed that CDy1 staining indeed allows for enrichment and selection of all neurosphere-forming cells from both the SVZ and the hippocampus. We next examined the effectiveness of CDy1 to select for NSCs derived from the SVZ of aged animals,where the total pool of NSCs present is significantly lower than in young animals. We found that CDy1 effectively labels the NSCs in adult and aged animals as assessed by the neurosphere assay and reflects the numbers of NSCs present in aged animals. CDy1,therefore,appears to be a novel marker for enrichment of NSCs in primary brain tissue preparations. View Publication

Brain organoids derived from human pluripotent stem cells are a promising tool for studying human neurodevelopment and related disorders. Here,we generated long-term cultures of cortical brain organoid slices (cBOS) grown at the air-liquid interphase from regionalized cortical organoids. We show that cBOS host mature neurons and astrocytes organized in complex architecture. Whole-cell patch-clamp demonstrated subthreshold synaptic inputs and action potential firing of neurons. Spontaneous intracellular calcium signals turned into synchronous large-scale oscillations upon combined disinhibition of NMDA receptors and blocking of GABA A receptors. Brief metabolic inhibition to mimic transient energy restriction in the ischemic brain induced reversible intracellular calcium loading of cBOS. Moreover,metabolic inhibition induced a reversible decline in neuronal ATP as revealed by ATeam1.03 YEMK . Overall,cBOS provide a powerful platform to assess morphological and functional aspects of human neural cells in intact minimal networks and to address the pathways that drive cellular damage during brain ischemia. Subject areas: Neuroscience,Cellular neuroscience,Stem cells research View Publication

Stem cell-derived ?-cells (SC-BCs) represent a potential source for curing diabetes. To date,in vitro generated SC-BCs display an immature phenotype and lack important features in comparison to their bona-fide counterparts. Transplantation into a living animal promotes SC-BCs maturation,indicating that components of the in vivo microenvironment trigger final SC-BCs development. Here,we investigated whether cues of the pancreas specific extracellular matrix (ECM) can improve the differentiation of human induced pluripotent stem cells (hiPSCs) towards ?-cells in vitro. To this aim,a pancreas specific ECM (PanMa) hydrogel was generated from decellularized porcine pancreas and its effect on the differentiation of hiPSC-derived pancreatic hormone expressing cells (HECs) was tested. The hydrogel solidified upon neutralization at 37 °C with gelation kinetics similar to Matrigel. Cytocompatibility of the PanMa hydrogel was demonstrated for a culture duration of 21 days. Encapsulation and culture of HECs in the PanMa hydrogel over 7 days resulted in a stable gene and protein expression of most ?-cell markers,but did not improve ?-cell identity. In conclusion,the study describes the production of a PanMa hydrogel,which provides the basis for the development of ECM hydrogels that are more adapted to the demands of SC-BCs. View Publication

Dystrophia myotonica type 1 (DM1) is an autosomal dominant multisystem disorder. The pathogenesis of central nervous system (CNS) involvement is poorly understood. Disease-specific induced pluripotent stem cell (iPSC) lines would provide an alternative model. In this study,we generated two DM1 lines and a normal iPSC line from dermal fibroblasts by retroviral transduction of Yamanaka's four factors (hOct4,hSox2,hKlf4,and hc-Myc). Both DM1 and control iPSC clones showed typical human embryonic stem cell (hESC) growth patterns with a high nuclear-to-cytoplasm ratio. The iPSC colonies maintained the same growth pattern through subsequent passages. All iPSC lines expressed stem cell markers and differentiated into cells derived from three embryonic germ layers. All iPSC lines underwent normal neural differentiation. Intranuclear RNA foci,a hallmark of DM1,were detected in DM1 iPSCs,neural stem cells (NSCs),and terminally differentiated neurons and astrocytes. In conclusion,we have successfully established disease-specific human DM1 iPSC lines,NSCs,and neuronal lineages with pathognomonic intranuclear RNA foci,which offer an unlimited cell resource for CNS mechanistic studies and a translational platform for therapeutic development. View Publication

BACKGROUND: The testing of cord blood (CB) progenitor and stem cell units for transplantation suitability involves enumeration of total nucleated cells before freezing. CD34+ cell counts may also be a means of determining suitability. Studies have been conducted to evaluate how specific storage conditions influence cell counts. STUDY DESIGN AND METHODS: CB units were processed by hydroxyethyl starch volume reduction. Cryopreserved-thawed samples were diluted 1:3 without washing. CD34+ cells were measured with three commercially available assay methods. In specific studies,apoptosis-indicating reagents were included. CB units were analyzed for nucleated cells,aldehyde dehydrogenase-containing cells,and progenitor colonies. RESULTS: CD34+ cell levels and nucleated cells were retained during storage in test tubes at 1 to 6 degrees C for 3 days. Cryopreserved-thawed samples showed a reduction in CD34+ cells relative to prefreeze levels with the largest decrease with the Stem-Kit (Beckman Coulter) restricted gating procedure. Prefreeze samples contained minimal numbers of presumed apoptotic cells detected with 7-aminoactinomycin D or SYTO16,but after cryopreservation-thawing there was an increase. Nucleated cell levels determined with a hematology analyzer or flow cytometry were reduced after thawing. Cryopreservation-thawing reduced the percentage of CD34+ cells positive for the presence of aldehyde dehydrogenase and the number of progenitor colonies. These differences were significant. CONCLUSION: These studies indicate that CD34+ cell counts were maintained when CB samples were stored at 1 to 6 degrees C in test tubes for 3 days. Cryopreservation-thawing resulted in changes in a number of parameters including the percentage of CD34+ cells that were aldehyde dehydrogenase(+) and the number of 7-aminoactinomycin D(+) cells and SYTO16(low) cells. View Publication

Hematopoietic stem cells (HSCs) react to various stress conditions. However,it is unclear whether and how HSCs respond to severe anemia. Here,we demonstrate that upon induction of acute anemia,HSCs rapidly proliferate and enhance their erythroid differentiation potential. In severe anemia,lipoprotein profiles largely change and the concentration of ApoE increases. In HSCs,transcription levels of lipid metabolism-related genes,such as very low-density lipoprotein receptor ( Vldlr ),are upregulated. Stimulation of HSCs with ApoE enhances their erythroid potential,whereas HSCs in Apoe knockout mice do not respond to anemia induction. Vldlr high HSCs show higher erythroid potential,which is enhanced after acute anemia induction. Vldlr high HSCs are epigenetically distinct because of their low chromatin accessibility,and more chromatin regions are closed upon acute anemia induction. Chromatin regions closed upon acute anemia induction are mainly binding sites of Erg. Inhibition of Erg enhanced the erythroid differentiation potential of HSCs. Our findings indicate that lipoprotein metabolism plays an important role in HSC regulation under severe anemic conditions. Subject terms: Haematopoietic stem cells,Fat metabolism,Chromatin,Anaemia View Publication