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

Tumor-initiating cells are a subpopulation in aggressive cancers that exhibit traits shared with stem cells,including the ability to self-renew and differentiate,commonly referred to as stemness. In addition,such cells are resistant to chemo- and radiation therapy posing a therapeutic challenge. To uncover stemness-associated functions in glioma-initiating cells (GICs),transcriptome profiles were compared to neural stem cells (NSCs) and gene ontology analysis identified an enrichment of Ca2+ signaling genes in NSCs and the more stem-like (NSC-proximal) GICs. Functional analysis in a set of different GIC lines regarding sensitivity to disturbed homeostasis using A23187 and Thapsigargin,revealed that NSC-proximal GICs were more sensitive,corroborating the transcriptome data. Furthermore,Ca2+ drug sensitivity was reduced in GICs after differentiation,with most potent effect in the NSC-proximal GIC,supporting a stemness-associated Ca2+ sensitivity. NSCs and the NSC-proximal GIC line expressed a larger number of ion channels permeable to potassium,sodium and Ca2+. Conversely,a higher number of and higher expression levels of Ca2+ binding genes that may buffer Ca2+,were expressed in NSC-distal GICs. In particular,expression of the AMPA glutamate receptor subunit GRIA1,was found to associate with Ca2+ sensitive NSC-proximal GICs,and decreased as GICs differentiated along with reduced Ca2+ drug sensitivity. The correlation between high expression of Ca2+ channels (such as GRIA1) and sensitivity to Ca2+ drugs was confirmed in an additional nine novel GIC lines. Calcium drug sensitivity also correlated with expression of the NSC markers nestin (NES) and FABP7 (BLBP,brain lipid-binding protein) in this extended analysis. In summary,NSC-associated NES+/FABP7+/GRIA1+ GICs were selectively sensitive to disturbances in Ca2+ homeostasis,providing a potential target mechanism for eradication of an immature population of malignant cells. View Publication

Long-lived multipotent stem cells (ISCs) at the base of intestinal crypts adjust their phenotypes to accommodate normal maintenance and post-injury regeneration of the epithelium. Their long life,lineage plasticity,and proliferative potential underlie the necessity for tight homeostatic regulation of the ISC compartment. In that context,the guanylate cyclase C (GUCY2C) receptor and its paracrine ligands regulate intestinal epithelial homeostasis,including proliferation,lineage commitment,and DNA damage repair. However,a role for this axis in maintaining ISCs remains unknown. Transgenic mice enabling analysis of ISCs (Lgr5-GFP) in the context of GUCY2C elimination (Gucy2c -/- ) were combined with immunodetection techniques and pharmacological treatments to define the role of the GUCY2C signaling axis in supporting ISCs. ISCs were reduced inGucy2c -/- mice,associated with loss of active Lgr5+cells but a reciprocal increase in reserve Bmi1+cells. GUCY2C was expressed in crypt base Lgr5+cells in which it mediates canonical cyclic (c) GMP-dependent signaling. Endoplasmic reticulum (ER) stress,typically absent from ISCs,was elevated throughout the crypt base inGucy2c -/- mice. The chemical chaperone tauroursodeoxycholic acid resolved this ER stress and restored the balance of ISCs,an effect mimicked by the GUCY2C effector 8Br-cGMP. Reduced ISCs inGucy2c -/- mice was associated with greater epithelial injury and impaired regeneration following sub-lethal doses of irradiation. These observations suggest that GUCY2C provides homeostatic signals that modulate ER stress and cell vulnerability as part of the machinery contributing to the integrity of ISCs. View Publication

A small subset of human cord blood CD34+ cells express endothelial protein C receptor (EPCR/CD201/PROCR) when exposed to the hematopoietic stem cell (HSC) self-renewal agonist UM171. In this article,we show that EPCR-positive UM171-treated cells,as opposed to EPCR-negative cells,exhibit robust multilineage repopulation and serial reconstitution ability in immunocompromised mice. In contrast to other stem cell markers,such as CD38,EPCR expression is maintained when cells are introduced in culture,irrespective of UM171 treatment. Although engineered overexpression of EPCR fails to reproduce the effects of UM171 on HSC activity,its expression is required for the repopulating activity of human HSCs. Altogether,our results indicate that EPCR is a reliable and cell culture-compatible marker of UM171-expanded human cord blood HSCs. View Publication

Induced pluripotent stem cells (iPSCs) are being pursued as a source of cells for autologous therapies,many of which will be aimed at aged patients. To explore the impact of age on iPSC quality,we produced iPSCs from blood cells of 16 donors aged 21-100. We find that iPSCs from older donors retain an epigenetic signature of age,which can be reduced through passaging. Clonal expansion via reprogramming also enables the discovery of somatic mutations present in individual donor cells,which are missed by bulk sequencing methods. We show that exomic mutations in iPSCs increase linearly with age,and all iPSC lines analyzed carry at least one gene-disrupting mutation,several of which have been associated with cancer or dysfunction. Unexpectedly,elderly donors (textgreater90 yrs) harbor fewer mutations than predicted,likely due to a contracted blood progenitor pool. These studies establish that donor age is associated with an increased risk of abnormalities in iPSCs and will inform clinical development of reprogramming technology. View Publication

Adult-derived hippocampal progenitors generate neurons,astrocytes,and oligodendrocytes in vitro and following grafting into the adult brain. Although these progenitors have a considerable capacity for in vitro self renewal,it is not known if each lineage is generated by separate committed precursors or by multipotent stem cells. By genetic marking,we have followed individual cells through the process of proliferative expansion,commitment,and differentiation. All three lineages are generated by single marked cells and the relative proportions of each lineage can be strongly influenced by environmental cues. Differentiation is accompanied by a characteristic progression of lineage-specific markers and can be potentiated by retinoic acid,elevated cyclic AMP,or neurotrophic factors. The ability to genetically mark and clone normal diploid hippocampal progenitors provides the first definitive evidence that multipotent neural stem cells exist outside of the adult striatal subventricular zone and supports the hypothesis that FGF-2-responsive neural stem cells may be broadly distributed in the adult brain. View Publication

HIV elite controllers (EC) are a rare group of HIV-infected patients who are able to maintain undetectable viral loads during a long period of time in the absence of antiretroviral treatment. Adaptive immunity and host genetic factors,although implicated,do not entirely explain this phenomenon. On the other hand,plasmacytoid dendritic cells (pDCs) are the principal type I interferon (IFN) producers in response to viral infection,and it is unknown whether pDCs are involved in the control of HIV infection in EC. In our study,we analyzed peripheral pDC levels and IFN-α production by peripheral blood mononuclear cells (PBMCs) in EC compared to other groups of HIV-infected patients,the ability of pDCs to reduce HIV production in vitro,and the mechanisms potentially involved. We showed preserved pDC counts and IFN-α production in EC. We also observed a higher capacity of pDCs from EC to reduce HIV production and to induce T cell apoptosis,whereas pDCs from viremic patients barely responded without previous Toll-like receptor 9 (TLR-9) stimulus. The preserved functionality of pDCs from EC to reduce viral production may be one of the mechanisms involved in the control of HIV viremia in these subjects. These results demonstrate the importance of innate immunity in HIV pathogenesis,and an understanding of pDC mechanisms would be helpful for the design of new therapies. View Publication

Reversing brain degeneration and trauma lesions will depend on cell therapy. Our previous work identified neural precursor cells derived from the skeletal muscle of Nestin-GFP transgenic mice,but their identity,origin,and potential survival in the brain are only vaguely understood. In this work,we show that Nestin-GFP+ progenitor cells share morphological and molecular markers with NG2-glia,including NG2,PDGFRα,O4,NGF receptor (p75),glutamate receptor-1(AMPA),and A2B5 expression. Although these cells exhibit NG2,they do not express other pericyte markers,such as α-SMA or connexin-43,and do not differentiate into the muscle lineage. Patch-clamp studies displayed outward potassium currents,probably carried through Kir6.1 channels. Given their potential therapeutic application,we compared their abundance in tissues and concluded that skeletal muscle is the richest source of predifferentiated neural precursor cells. We found that these cells migrate toward the neurogenic subventricular zone displaying their typical morphology and nestin-GFP expression two weeks after brain injection. For translational purposes,we sought to identify these neural progenitor cells in wild-type species by developing a DsRed expression vector under Nestin-Intron II control. This approach revealed them in nonhuman primates and aging rodents throughout the lifespan. View Publication

The lectin galectin-9 may help establish and maintain chronic hepatitis C virus infection. Galectin-9 is elevated in the liver and sera of hepatitis C virus patients,induces apoptosis of hepatitis C virus-specific T cells,and increases inhibitory regulatory T cells. Kupffer cells stain strongly for galectin-9 protein in hepatitis C virus patients. In the current study,we determined stimuli that induce galectin-9 production by monocytes and macrophages in hepatitis C virus infection. With the use of real-time PCR and flow cytometry,we analyzed galectin-9 mRNA and protein from human monocytes cocultured with hepatitis C virus-infected cells or noninfectious hepatitis C virus subgenomic replicon cells. We focused on finding the stimuli for galectin-9 production. Additionally,we measured galectin-9 during monocyte-to-macrophage maturation. Finally,we examined galectin-9 in peripheral monocytes from hepatitis C virus patients using flow cytometry. Galectin-9 mRNA increased 8-fold when primary monocytes were exposed to hepatitis C virus--infected cells. Maximum induction required proximity or contact and did not require IFN-γ or hepatitis C virus virions. Coculture of monocytes with subgenomic replicon cells increased galectin-9 5-fold,and purified exosomes from infected cells stimulated galectin-9 production. Stimulation of monocyte TLR3,-7,and -8 increased galectin-9 production. Differentiation of monocytes to macrophages increased galectin-9,and nonclassic monocytes from hepatitis C virus patients had the highest levels of galectin-9. Hepatitis C virus-infected cells stimulated monocytes to produce galectin-9 in close proximity,possibly,in part,as a result of exosomes and endosomal TLRs. Differentiation of monocytes to macrophages increased galectin-9. Nonclassic monocytes from hepatitis C virus patients express the highest galectin-9 levels,suggesting they may contribute to elevated galectin-9 and adaptive immune inhibition in hepatitis C virus infection. View Publication

IntroductionThe role of miRNAs in regulating variable molecular functions has been sought by scientists for its promising utility in regulating the immune response and,hence,in treating various diseases. In hepatocellular carcinoma (HCC) specifically,a reduction in the number and efficiency of circulating and intrahepatic natural killer (NK) cells has been reported. Our project aims to investigate the role of miR-216a-3p in the regulation of NK cell cytotoxicity,especially since it plays a tumor suppressor role in the context of HCC.MethodsTo achieve our aim,we isolated NK cells from the whole blood of 86 patients with HCC and 23 healthy controls. We assessed the expression profile of miR-216a-3p in NK cells of patients and controls. Furthermore,we induced the expression of miR-216a-3p in NK cells isolated from healthy controls,followed by measuring the release of interferon-gamma (IFN-γ),tumor necrosis factor-alpha (TNF-α),perforins (PRF) and granzyme B (GrB) using ELISA as well as NK cells cytolytic activity against Huh7 cells using lactate dehydrogenase (LDH) cytotoxicity assay. After that,we performed an in silico analysis to understand the mechanistic regulation imposed by miR-216a-3p on NK cells to study its impact on one of its potential downstream targets.ResultsOur results have indicated that miR-216a-3p has higher expression in NK cells of patients with HCC,and simulating this elevated expression pattern via forcing miR-216a-3p expression in normal NK cells has negatively impacted the release of TNF- α,IFN- γ,GrB,and PRF. Consequently,a decrease in cell cytolysis was observed. Our in silico analysis revealed that the predicted downstream targets of miR-216a-3p are enriched in the FOXO-signaling pathway. Among those targets is FOXO-1,which has been reported to play a role in NK cell maturation. Thus,we evaluated FOXO-1 expression upon mimicking miR-216a-3p in control NK cells that showed significant downregulation of FOXO-1 on both RNA and protein levels.ConclusionIn conclusion,we report miR-216-3p as a negative regulator of NK cell cytotoxicity. View Publication

T cells have been reported to play critical roles in preventing of microsporidia dissemination. However,there roles and functions of each subset remain unclear. Here in the study,we performed a thorough analysis of murine splenic T-cell response analysis via single-cell RNA sequencing during microsporidia E. cuniculi infection. We demonstrated that Type I T helper (Th1) cells,T follicular helper (Tfh) cells,effector CD8 + T cells and proliferating CD8 + T cells were activated and expanded after infection. Activated Th1 cells and Tfh cells presented significantly upregulated gene expression of Ifng and Il21,respectively. A subcluster of Th1 cells with high Csf1 expression was detected after infection. Subsets of activated CD8 + T cells were markedly enriched with high expression of cytotoxic-function related genes such as Gzma and Gzmb,whereas some active CD8 T cells were enriched with proliferation-function related genes Mki67 and Stmn1. Other subsets of T cells including NK T cells,Myb+ T cells,γδ T cells and Cxcr6+ T cells,were also analyzed in this study yet no expansion was observed. In summary,our findings provide in-depth and comprehensive insights into T-cell responses during microsporidia infection,which will be valuable for further investigations. This study provides a comprehensive landscape of mouse T cells responses during microsporidia infection at a single-cell resolution reporting that Th1,Tfh,effector and proliferating CD8 + T cell subsets were activated and expanded upon infection. View Publication