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

Cardiomyocytes derived from human induced pluripotent stem cells (iPSC) show great promise as autologous donor cells to treat heart disease. A major technical obstacle to this approach is that available induction methods often produce heterogeneous cell population with low percentage of cardiomyocytes. Here we describe a cardiac enrichment approach using non-integrating adeno-associated virus (AAV). We first examined several AAV serotypes for their ability to selectively transduce iPSC-derived cardiomyocytes. Result showed that AAV1 demonstrated the highest in vitro transduction efficiency among seven widely used serotypes. Next differentiated iPSC derivatives were transduced with drug-selectable AAV1 expressing neomycin resistance gene. Selection with G418 enriched the cardiac cell fraction from 27% to 57% in two weeks. Compared to other enrichment strategies such as integrative genetic selection,mitochondria labeling or surface marker cell sorting,this simple AAV method described herein bypasses antibody or dye labeling. These findings provide proof-of-concept for large-scale cardiomyocyte enrichment by exploiting AAV's intrinsic tissue tropism. View Publication

Transformed,oncogenic precursors,possessing both defining neural-stem-cell properties and the ability to initiate intracerebral tumours,have been identified in human brain cancers. Here we report that bone morphogenetic proteins (BMPs),amongst which BMP4 elicits the strongest effect,trigger a significant reduction in the stem-like,tumour-initiating precursors of human glioblastomas (GBMs). Transient in vitro exposure to BMP4 abolishes the capacity of transplanted GBM cells to establish intracerebral GBMs. Most importantly,in vivo delivery of BMP4 effectively blocks the tumour growth and associated mortality that occur in 100% of mice after intracerebral grafting of human GBM cells. We demonstrate that BMPs activate their cognate receptors (BMPRs) and trigger the Smad signalling cascade in cells isolated from human glioblastomas (GBMs). This is followed by a reduction in proliferation,and increased expression of markers of neural differentiation,with no effect on cell viability. The concomitant reduction in clonogenic ability,in the size of the CD133+ population and in the growth kinetics of GBM cells indicates that BMP4 reduces the tumour-initiating cell pool of GBMs. These findings show that the BMP-BMPR signalling system--which controls the activity of normal brain stem cells--may also act as a key inhibitory regulator of tumour-initiating,stem-like cells from GBMs and the results also identify BMP4 as a novel,non-cytotoxic therapeutic effector,which may be used to prevent growth and recurrence of GBMs in humans. View Publication

The essentially infinite expansion potential and pluripotency of human embryonic stem cells (hESCs) makes them attractive for cell-based therapeutics. In contrast to mouse embryonic stem cells (mESCs),hESCs normally undergo high rates of spontaneous apoptosis and differentiation,making them difficult to maintain in culture. Here we demonstrate that p53 protein accumulates in apoptotic hESCs induced by agents that damage DNA. However,despite the accumulation of p53,it nevertheless fails to activate the transcription of its target genes. This inability of p53 to activate its target genes has not been observed in other cell types,including mESCs. We further demonstrate that p53 induces apoptosis of hESCs through a mitochondrial pathway. Reducing p53 expression in hESCs in turn reduces both DNA damage-induced apoptosis as well as spontaneous apoptosis. Reducing p53 expression also reduces spontaneous differentiation and slows the differentiation rate of hESCs. Our studies reveal the important roles of p53 as a critical mediator of human embryonic stem cells survival and differentiation. View Publication

Conventionally,researchers remove spontaneously differentiated areas in human pluripotent stem cell (hPSC) colonies by using a finely drawn glass pipette or a commercially available syringe needle. However,when extreme differentiation occurs,it is inefficient to purify the remaining undifferentiated cells,as these undifferentiated areas are too small to be isolated completely with the mechanical method. Antibodies can be utilized to purify the rare undifferentiated cells; however,this type of purification cannot be used in xeno-free culture systems. To avoid the loss of valuable hPSCs,we developed a novel method to isolate undifferentiated hPSCs from extremely differentiated colonies that could be easily adapted to xeno-free culture conditions. This protocol involves dissecting away differentiated areas,dissociating the remaining colony into clumps,seeding small clumps into new dishes,and picking undifferentiated colonies for expansion. Using this method,we routinely achieve completely undifferentiated colonies in one passage without the use of antibody-based purification. View Publication

Human induced pluripotent stem cells (hiPSCs) and human embryonic stem cells (hESCs) are promising can- didate cell sources for regenerative medicine. However,despite the common ability of hiPSCs and hESCs to dif- ferentiate into all 3 germ layers,their functional equivalence at the single cell level remains to be demonstrated. Moreover,single cell heterogeneity amongst stem cell populations may underlie important cell fate decisions. Here,we used single cell analysis to resolve the gene expression profiles of 362 hiPSCs and hESCs for an array of 42 genes that characterize the pluripotent and differentiated states. Comparison between single hESCs and single hiPSCs revealed markedly more heterogeneity in gene expression levels in the hiPSCs,suggesting that hiPSCs occupy an alternate,less stable pluripotent state. hiPSCs also displayed slower growth kinetics and impaired directed differentiation as compared with hESCs. Our results suggest that caution should be exer- cised before assuming that hiPSCs occupy a pluripotent state equivalent to that of hESCs,particularly when producing differentiated cells for regenerative medicine aims. View Publication

It has been postulated that during human fetal development,all cells of the lung epithelium derive from embryonic,endodermal,NK2 homeobox 1-expressing (NKX2-1+) precursor cells. However,this hypothesis has not been formally tested owing to an inability to purify or track these progenitors for detailed characterization. Here we have engineered and developmentally differentiated NKX2-1GFP reporter pluripotent stem cells (PSCs) in vitro to generate and isolate human primordial lung progenitors that express NKX2-1 but are initially devoid of differentiated lung lineage markers. After sorting to purity,these primordial lung progenitors exhibited lung epithelial maturation. In the absence of mesenchymal coculture support,this NKX2-1+ population was able to generate epithelial-only spheroids in defined 3D cultures. Alternatively,when recombined with fetal mouse lung mesenchyme,the cells recapitulated epithelial-mesenchymal developing lung interactions. We imaged these progenitors in real time and performed time-series global transcriptomic profiling and single-cell RNA sequencing as they moved through the earliest moments of lung lineage specification. The profiles indicated that evolutionarily conserved,stage-dependent gene signatures of early lung development are expressed in primordial human lung progenitors and revealed a CD47hiCD26lo cell surface phenotype that allows their prospective isolation from untargeted,patient-specific PSCs for further in vitro differentiation and future applications in regenerative medicine. View Publication

Human induced pluripotent stem cells (hiPSCs) are being considered for use in understanding haematopoietic disorders and as a potential source of in vitro manufactured red cells. Here,we show that hiPSCs are able to recapitulate various stages of developmental erythropoiesis. We show that primitive erythroblasts arise first,express CD31(+) with CD235a(+),embryonic globins and red cell markers,but fail to express the hallmark red cell transcripts of adult erythropoiesis. When hiPSC-derived CD45(+) CD235a(-) haematopoietic progenitors are isolated on day 12 and further differentiated on OP9 stroma,they selectively express CD36(+) and CD235a(+),adult erythroid transcripts for transcription factors (e.g.,BCL11A,KLF1) and fetal/adult globins (HBG1/2,HBB). Importantly,hiPSC- and cord-derived CD36(+) CD235a(+) erythroblasts show a striking homology by transcriptome array profiling (only 306 transcripts with a 2Log fold change<1textperiodcentered5- or 2textperiodcentered8-fold). Phenotypic and transcriptome profiling of CD45(+) CD117(+) CD235a(+) pro-erythroblasts and terminally differentiated erythroblasts is also provided,including evidence of a HbF (fetal) to HbA (adult) haemoglobin switch and enucleation,that mirrors their definitive erythroblast cord-derived counterparts. These findings provide a molecular roadmap of developmental erythropoiesis from hiPSC sources at several critical stages,but also helps to inform on their use for clinical applications and modelling human haematopoietic disease. View Publication

BACKGROUND Epidemiological surveys have revealed that low serum vitamin D level was correlated with increased risk of tumors. Dysfunctional T cells in patients with tumor are characterized as exhausted with high levels of immune checkpoint receptors (ICRs). However,whether the reduced level of vitamin D in patients with cancer correlates with cytotoxic T-cell exhaustion is unknown. METHODS Periphery blood samples from 172 patients with non-small cell lung cancer (NSCLC) were prospectively collected. Patients with NSCLC received one course of intravenous docetaxel (75 mg/m2) followed by treatment with or without rocaltrol at a dose of 0.5-2.0 µg/day for total of 3 weeks. We performed phenotypical and functional analysis of T-cell through flow cytometry. Vitamin D receptor (VDR) knockout and overexpression CD8+ and V$\delta$2+ T cells were constructed using Cas9-gRNA targeted and overexpressing approaches to identify 1$\alpha$,25(OH)2D3/VDR-mediated transcription regulation for ICRs or antitumor activity in T cells. RESULTS We show that serum level of vitamin D is negatively correlated with expression of programmed cell death-1 (PD-1),T-cell immunoreceptor with Ig and ITIM domains (TIGIT),and T-cell immunoglobulin and mucin-domain containing-3 (Tim-3),but positively correlated with CD28 expression on CD8+ and V$\gamma$9V$\delta$2+ T cells in patients with NSCLC. 1$\alpha$,25(OH)2D3,the active form of vitamin D,promotes the nuclear translocation of VDR,which binds to the promoter region of Pdcd1,Tim3,and Tigit genes and inhibits their expression. Besides,1$\alpha$,25(OH)2D3 pretreatment also promotes the methylation of CpG island in the promoter region of the Pdcd1 gene and increases H3K27 acetylation at the promoter region of the Cd28 gene,which leads to surface PD-1 downregulation and CD28 upregulation,respectively. We further reveal that VDR-mediated Ca2+ influx enhanced expression of Th1 cytokines via T-cell receptor activation. Functionally,1$\alpha$,25(OH)2D3 pretreated CD8+ T cells or V$\gamma$9V$\delta$2+ T cells showed increased Th1 cytokine production and enhanced antitumor immunity. Finally,oral 1$\alpha$,25(OH)2D3 could also decrease expression of PD-1,Tim-3,TIGIT and increase expression of CD28,resulting in cytokine production (associated with antitumor immunity) by cytotoxic T cells of patients with NSCLC. CONCLUSIONS Our findings uncover the pleiotropic effects of 1$\alpha$,25(OH)2D3 in rescuing the exhausted phenotype of human cytotoxic T cells in patients with tumor and in promoting their antitumor immunity. TRIAL REGISTRATION NUMBER ChiCTR2100051135. View Publication

The lack of natural killer (NK) cell-specific markers,as well as the overlap among several common surface antigens and functional properties,has obscured the delineation between NK cells and dendritic cells. Here,novel subsets of peripheral blood CD3/14/19(neg) NK cells and monocyte/dendritic cell (DC)-like cells were identified on the basis of CD7 and CD4 expression. Coexpression of CD7 and CD56 differentiates NK cells from CD56+ monocyte/DC-like cells,which lack CD7. In contrast to CD7+CD56+ NK cells,CD7(neg)CD56+ cells lack expression of NK cell-associated markers,but share commonalities in their expression of various monocyte/DC-associated markers. Using CD7,we observed approximately 60% of CD4+CD56+ cells were CD7(neg) cells,indicating the actual frequency of activated CD4+ NK cells is much lower in the blood than previously recognized. Functionally,only CD7+ NK cells secrete gamma interferon (IFNgamma) and degranulate after interleukin-12 (IL-12) plus IL-18 or K562 target cell stimulation. Furthermore,using CD7 to separate CD56+ NK cells and CD56+ myeloid cells,we demonstrate that unlike resting CD7+CD56+ NK cells,the CD7(neg)CD56+ myeloid cells stimulate a potent allogeneic response. Our data indicate that CD7 and CD56 coexpression discriminates NK cells from CD7(neg)CD56+ monocyte/DC-like cells,thereby improving our ability to study the intricacies of NK-cell subset phenotypes and functions in vivo. View Publication

The ability of human embryonic stem cells (hESCs) to differentiate into essentially all somatic cell types has made them a valuable tool for studying human development and has positioned them for broad applications in toxicology,regenerative medicine,and drug discovery. This unit describes a protocol for the large-scale expansion and maintenance of hESCs in vitro. hESC cultures must maintain a balance between the cellular states of pluripotency and differentiation; thus,researchers must use care when growing these technically demanding cells. The culture system is based largely on the use of a proprietary serum-replacement product and basic fibroblast growth factor (bFGF),with mouse embryonic fibroblasts as a feeder layer. These conditions provide the basis for relatively inexpensive maintenance and expansion of hESCs,as well as their engineered counterparts,human induced pluripotent stem cells (hiPSCs). View Publication

Toll-like receptors (TLR) recognize pathogen-associated molecular patterns and play important roles in the innate immune system. While single-stranded viral RNA is the natural ligand of TLR7/TLR8,the imidazoquinoline resiquimod (R-848) is recognized as a potent synthetic agonist of TLR7/TLR8. We investigated the effects of TLR7/8 activation on lipid mediator production in polymorphonuclear leukocytes exposed to R-848. Although R-848 had minimal effects by itself,it strongly enhanced leukotriene B4 formation on subsequent stimulation by fMLP,platelet-activating factor,and the ionophore A23187. R-848 acted via TLR8 but not TLR7 as shown by the lack of effect of the TLR7-specific ligand imiquimod. Priming with R-848 also resulted in enhanced arachidonic acid release and platelet-activating factor formation following fMLP stimulation,as well as enhanced prostaglandin E2 synthesis following the addition of arachidonic acid. Western blot analysis demonstrated that R-848 induced the phosphorylation of the cytosolic phospholipase A2alpha,promoted 5-lipoxygenase translocation and potently stimulated the expression of the type 2 cyclooxygenase. Bafilomycin A1,an inhibitor of endosomal acidification,efficiently inhibited all R-848-induced effects. These studies demonstrate that TLR8 signaling strongly promotes inflammatory lipid mediator biosynthesis and provide novel insights on innate immune response to viral infections. View Publication

Human pluripotent stem cells will likely be a significant part of the regenerative medicine-driven healthcare revolution. In order to realize this potential,culture processes must be standardized,scalable and able to produce clinically relevant cell numbers,whilst maintaining critical biological functionality. This review comprises a broad overview of important bioprocess considerations,referencing the development of biopharmaceutical processes in an effort to learn from current best practice in the field. Particular focus is given to the recent efforts to grow human pluripotent stem cells in microcarrier or aggregate suspension culture,which would allow geometric expansion of productive capacity were it to be fully realized. The potential of these approaches is compared with automation of traditional T-flask culture,which may provide a cost-effective platform for low-dose,low-incidence conditions or autologous therapies. This represents the first step in defining the full extent of the challenges facing bioprocess engineers in the exploitation of large-scale human pluripotent stem cell manufacture. View Publication