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

Human embryonic stem cell line BJNhem20-pCAG-tdTomato was generated using non-viral method. The construct pCAG-tdTomato was transfected using microporation procedure. This fluorescent hESC line can help to study heterogeneity within individual cells in hESC colonies by enabling live tracking of their growth,migration and differentiation properties. This cell line also serves as a resource for additional transgene introduction/knock-out/knock-in generation in a fluorescent background and allows ease of analysis in studies involving cell mixing. View Publication

While distinct stages of natural killer (NK) cell development have been defined,the molecular interactions that shape human NK cell maturation are poorly understood. Here we define intercellular interactions between developing NK cells and stromal cells which,through contact-dependent mechanisms,promote the generation of mature,functional human NK cells from CD34(+) precursors. We show that developing NK cells undergo unique,developmental stage-specific sustained and transient interactions with developmentally supportive stromal cells,and that the relative motility of NK cells increases as they move through development in vitro and ex vivo. These interactions include the formation of a synapse between developing NK cells and stromal cells,which we term the developmental synapse. Finally,we identify a role for CD56 in developmental synapse structure,NK cell motility and NK cell development. Thus,we define the developmental synapse leading to human NK cell functional maturation. View Publication

Erasure of epigenetic memory is required to convert somatic cells towards pluripotency. Reactivation of the inactive X chromosome (Xi) has been used to model epigenetic reprogramming in mouse,but human studies are hampered by Xi epigenetic instability and difficulties in tracking partially reprogrammed iPSCs. Here we use cell fusion to examine the earliest events in the reprogramming-induced Xi reactivation of human female fibroblasts. We show that a rapid and widespread loss of Xi-associated H3K27me3 and XIST occurs in fused cells and precedes the bi-allelic expression of selected Xi-genes by many heterokaryons (30-50%). After cell division,RNA-FISH and RNA-seq analyses confirm that Xi reactivation remains partial and that induction of human pluripotency-specific XACT transcripts is rare (1%). These data effectively separate pre- and post-mitotic events in reprogramming-induced Xi reactivation and reveal a complex hierarchy of epigenetic changes that are required to reactivate the genes on the human Xi chromosome. View Publication

Wnt signaling is a key regulator of vertebrate heart development; however,specific roles for human cardiomyocyte development remain uncertain. Here we use human embryonic stem cells (hESCs) to analyze systematically in human cardiomyocyte development the expression of endogenous Wnt signaling components,monitor pathway activity,and dissect stage-specific requirements for canonical and noncanonical Wnt signaling mechanisms using small-molecule inhibitors. Our analysis suggests that WNT3 and WNT8A,via FZD7 and canonical signaling,regulate BRACHYURY expression and mesoderm induction; that WNT5A/5B,via ROR2 and noncanonical signaling,regulate MESP1 expression and cardiovascular development; and that later in development WNT2,WNT5A/5B,and WNT11,via FZD4 and FZD6,regulate functional cardiomyocyte differentiation via noncanonical Wnt signaling. Our findings confirm in human development previously proposed roles for canonical Wnt signaling in sequential stages of vertebrate cardiomyogenesis,and identify more precise roles for noncanonical signaling and for individual Wnt signal and Wnt receptor genes in human cardiomyocyte development. View Publication

T lymphocytes require signals from self-peptides and cytokines,most notably interleukins 7 and 15 (IL-7,IL-15),for survival. While mouse T cells die rapidly if IL-7 or IL-15 is withdrawn,human T cells can survive prolonged withdrawal of IL-7 and IL-15. Here we show that IL-7 and IL-15 are required to maintain human T cell proliferative capacity through the STAT5 signaling pathway. T cells from humanized mice proliferate better if stimulated in the presence of human IL-7 or IL-15 or if T cells are exposed to human IL-7 or IL-15 in mice. Freshly isolated T cells from human peripheral blood lose proliferative capacity if cultured for 24 hours in the absence of IL-7 or IL-15. We further show that phosphorylation of STAT5 correlates with proliferation and inhibition of STAT5 reduces proliferation. These results reveal a novel role of IL-7 and IL-15 in maintaining human T cell function,provide an explanation for T cell dysfunction in humanized mice,and have significant implications for in vitro studies with human T cells. View Publication

Genome editing of human induced pluripotent stem cells (hiPSCs) offers unprecedented opportunities for in vitro disease modeling and personalized cell replacement therapy. The introduction of Cas9-directed genome editing has expanded adoption of this approach. However,marker-free genome editing using standard protocols remains inefficient,yielding desired targeted alleles at a rate of ∼1-5%. We developed a protocol based on a doxycycline-inducible Cas9 transgene carried on a piggyBac transposon to enable robust and highly efficient Cas9-directed genome editing,so that a parental line can be expeditiously engineered to harbor many separate mutations. Treatment with doxycycline and transfection with guide RNA (gRNA),donor DNA and piggyBac transposase resulted in efficient,targeted genome editing and concurrent scarless transgene excision. Using this approach,in 7 weeks it is possible to efficiently obtain genome-edited clones with minimal off-target mutagenesis and with indel mutation frequencies of 40-50% and homology-directed repair (HDR) frequencies of 10-20%. View Publication

The gene of ATP-binding cassette subfamily C member 8 (Abcc8) is cytogenetically located at 11p15.1 and encodes the sulfonylurea receptor (SUR1). SUR1 is a subunit of ATP-sensitive potassium channel (KAPT) in the β-cell regulating insulin secretion. Mutations of ABCC8 are responsible for congenital hyperinsulinism (CHI). Here we reported that an Abcc8 heterozygous mutant cell line was generated by CRISPR/Cas9 technique with 1bp insertion resulting in abnormal splicing on human embryonic stem cell line H1. The phenotypic characteristics of this cell line reveal defective KATP channel and diazoxide-responsive that provides ideal model for molecular pathology research and drug screening for CHI. View Publication

Human pluripotent stem cell (hPSC)-derived intestinal organoids (hIOs) form 3D structures organized into crypt and villus domains,making them an excellent in vitro model system for studying human intestinal development and disease. However,hPSC-derived hIOs still require in vivo maturation to fully recapitulate adult intestine,with the mechanism of maturation remaining elusive. Here,we show that the co-culture with human T lymphocytes induce the in vitro maturation of hIOs,and identify STAT3-activating interleukin-2 (IL-2) as the major factor inducing maturation. hIOs exposed to IL-2 closely mimic the adult intestinal epithelium and have comparable expression levels of mature intestinal markers,as well as increased intestine-specific functional activities. Even after in vivo engraftment,in vitro-matured hIOs retain their maturation status. The results of our study demonstrate that STAT3 signaling can induce the maturation of hIOs in vitro,thereby circumventing the need for animal models and in vivo maturation. View Publication

Blood-brain barrier (BBB) models are often used to investigate BBB function and screen brain-penetrating therapeutics,but it has been difficult to construct a human model that possesses an optimal BBB phenotype and is readily scalable. To address this challenge,we developed a human in vitro BBB model comprising brain microvascular endothelial cells (BMECs),pericytes,astrocytes and neurons derived from renewable cell sources. First,retinoic acid (RA) was used to substantially enhance BBB phenotypes in human pluripotent stem cell (hPSC)-derived BMECs,particularly through adherens junction,tight junction,and multidrug resistance protein regulation. RA-treated hPSC-derived BMECs were subsequently co-cultured with primary human brain pericytes and human astrocytes and neurons derived from human neural progenitor cells (NPCs) to yield a fully human BBB model that possessed significant tightness as measured by transendothelial electrical resistance (˜5,000 $\$(2)). Overall,this scalable human BBB model may enable a wide range of neuroscience studies. View Publication

BackgroundThe human induced pluripotent stem cells (hiPSCs) can generate all the cells composing the human body,theoretically. Therefore,hiPSCs are thought to be a candidate source of stem cells for regenerative medicine. The major challenge of allogeneic hiPSC-derived cell products is their immunogenicity. The hypoimmunogenic cell strategy is allogenic cell therapy without using immune suppressants. Advances in gene engineering technology now permit the generation of hypoimmunogenic cells to avoid allogeneic immune rejection. In this study,we generated a hypoimmunogenic hiPSC (HyPSC) clone that had diminished expression of human leukocyte antigen (HLA) class Ia and class II and expressed immune checkpoint molecules and a safety switch.MethodsFirst,we generated HLA class Ia and class II double knockout (HLA class Ia/II DKO) hiPSCs. Then,a HyPSC clone was generated by introducing exogenous β-2-microglobulin (B2M),HLA-G,PD-L1,and PD-L2 genes,and the Rapamycin-activated Caspase 9 (RapaCasp9)-based suicide gene as a safety switch into the HLA class Ia/II DKO hiPSCs. The characteristics and immunogenicity of the HyPSCs and their derivatives were analyzed.ResultsWe found that the expression of HLA-G on the cell surface can be enhanced by introducing the exogenous HLA-G gene along with B2M gene into HLA class Ia/II DKO hiPSCs. The HyPSCs retained a normal karyotype and had the characteristics of pluripotent stem cells. Moreover,the HyPSCs could differentiate into cells of all three germ layer lineages including CD45+ hematopoietic progenitor cells (HPCs),functional endothelial cells,and hepatocytes. The HyPSCs-derived HPCs exhibited the ability to evade innate and adaptive immunity. Further,we demonstrated that RapaCasp9 could be used as a safety switch in vitro and in vivo.ConclusionThe HLA class Ia/II DKO hiPSCs armed with HLA-G,PD-L1,PD-L2,and RapaCasp9 molecules are a potential source of stem cells for allogeneic transplantation.Supplementary InformationThe online version contains supplementary material available at 10.1186/s13287-024-03810-4. View Publication

Retinoic acid (RA) plays a key role in mucosal immune regulation and tolerance,with implications for inflammatory bowel disease (IBD). However,its effects have not been extensively studied in humanized in vitro models that recapitulate epithelial–immune interactions. We established a 3D in vitro small intestinal model composed of three epithelial cell types,naïve CD4+ T cells,and monocyte/dendritic cell (M/DC) precursors derived from CD34+ umbilical cord blood hematopoietic stem/progenitor cells. The epithelial microenvironment strongly suppressed monocyte/DC differentiation and T cell activation,indicating a regulatory role of epithelial-derived signals. Retinoic acid (RA) priming of M/DC precursors induced CD103+CD11b+Sirp1α− regulatory DCs and promoted a shift from naive to memory-type T cells. Upon addition of pro-inflammatory cytokines (TNF-α,IFN-γ,IL-1β),the model mimicked an inflamed intestinal state,resulting in CD14+CD16+ inflammatory monocytes and increased T cell activation (CD25+CD69+). RA-primed DCs modestly counterbalanced T cell activation and IBD-like responses,even under inflammatory conditions. Flow cytometry and clustering analysis revealed distinct immune cell phenotypes depending on RA exposure and cytokine context. This model provides a reproducible and physiologically relevant human system to study RA-mediated immune programming in the intestinal mucosa and may support the development of novel therapeutic strategies for IBD and related inflammatory conditions. Statistical differences were evaluated using ANOVA with Tukey’s post-hoc test (n = 4; p < 0.05). View Publication

Early childhood tumours arise from transformed embryonic cells,which often carry large copy number alterations (CNA). However,it remains unclear how CNAs contribute to embryonic tumourigenesis due to a lack of suitable models. Here we employ female human embryonic stem cell (hESC) differentiation and single-cell transcriptome and epigenome analysis to assess the effects of chromosome 17q/1q gains,which are prevalent in the embryonal tumour neuroblastoma (NB). We show that CNAs impair the specification of trunk neural crest (NC) cells and their sympathoadrenal derivatives,the putative cells-of-origin of NB. This effect is exacerbated upon overexpression of MYCN,whose amplification co-occurs with CNAs in NB. Moreover,CNAs potentiate the pro-tumourigenic effects of MYCN and mutant NC cells resemble NB cells in tumours. These changes correlate with a stepwise aberration of developmental transcription factor networks. Together,our results sketch a mechanistic framework for the CNA-driven initiation of embryonal tumours. Subject terms: Paediatric cancer,Stem cells,Disease model,Cancer genomics,Embryonal neoplasms View Publication