技术资料

Platelet (PLT) transfusions are potentially life saving for individuals with low PLT numbers; however,previous work revealed that PLT transfusions are associated with increased infection risk. During storage,PLT intended for transfusion continuously shed ectosomes (Ecto) from their surface,which express immunomodulatory molecules like phosphatidylserine or TGF-β1. Recently,PLT-Ecto were shown to reduce proinflammatory cytokine release by macrophages and to favor the differentiation of naive T cells toward regulatory T cells. Whether PLT-Ecto modify NK cells remains unclear. We exposed purified NK cells and full PBMCs from healthy donors to PLT-Ecto. We found a reduced expression of several activating surface receptors (NKG2D,NKp30,and DNAM-1) and decreased NK cell function,as measured by CD107a expression and IFN-γ production. Pretreatment of PLT-Ecto with anti-TGF-β1 neutralizing Ab restored surface receptor expression and NK cell function. We further observed a TGF-β1-mediated upregulation of miR-183,which,in turn,reduced DAP12,an important protein for stabilization and downstream signaling of several activating NK cell receptors. Again,these effects could antagonized,in part,when PLT-Ecto were preincubated with anti-TGF-β1 Ab. Erythrocyte Ecto did not affect NK cells. Polymorphonuclear cell Ecto expressed MHC class I and inhibited NK cell function. In addition,they induced the secretion of TGF-β1 by NK cells,which participated in an auto/paracrine manner in the suppressive activity of polymorphonuclear cell-derived Ecto. In sum,our study showed that PLT-Ecto could inhibit NK cell effector function in a TGF-β1-dependent manner,suggesting that recipients of PLT transfusions may experience reduced NK cell function. View Publication

Dravet Syndrome is an intractable form of childhood epilepsy associated with deleterious mutations in SCN1A,the gene encoding neuronal sodium channel Nav1.1. Earlier studies using human induced pluripotent stem cells (iPSCs) have produced mixed results regarding the importance of Nav1.1 in human inhibitory versus excitatory neurons. We studied a Nav1.1 mutation (p.S1328P) identified in a pair of twins with Dravet Syndrome and generated iPSC-derived neurons from these patients. Characterization of the mutant channel revealed a decrease in current amplitude and hypersensitivity to steady-state inactivation. We then differentiated Dravet-Syndrome and control iPSCs into telencephalic excitatory neurons or medial ganglionic eminence (MGE)-like inhibitory neurons. Dravet inhibitory neurons showed deficits in sodium currents and action potential firing,which were rescued by a Nav1.1 transgene,whereas Dravet excitatory neurons were normal. Our study identifies biophysical impairments underlying a deleterious Nav1.1 mutation and supports the hypothesis that Dravet Syndrome arises from defective inhibitory neurons. View Publication

OBJECTIVE Gastric cancer (GC) is one of the most common human cancers. A useful method of gastric cancer stem cell (CSC) characterization is spheroid colony formation. Previously,we reported that KIF11 expression is textgreater2-fold in spheroid-body-forming GC cells compared with parental cells. Here,we analyzed the expression and distribution of KIF11 in human GC by immunohistochemistry. METHODS Expression of KIF11 in 165 GC cases was determined using immunohistochemistry. For mucin phenotypic expression analysis of GC,immunostaining of MUC5AC,MUC6,MUC2 and CD10 was evaluated. RNA interference was used to inhibit KIF11 expression in GC cell lines. RESULTS In total,119 of 165 GC cases (72%) were positive for KIF11. Expression of KIF11 was not associated with any clinicopathologic characteristics; however,it was observed frequently in GC exhibiting an intestinal phenotype. Both the number and size of spheres formed by MKN-74 cells were significantly reduced following transfection of KIF11-targeting siRNA compared with negative-control siRNA. Furthermore,levels of phosphorylated Erk1/2 were lower in KIF11 siRNA-transfected cells than with negative-control siRNA-transfected cells. CONCLUSION These results indicate that KIF11 is involved in intestinal mucin phenotype GC. View Publication

The epigenetic background of pluripotent stem cells can influence transcriptional and functional behavior. Most of these data have been obtained in standard monolayer cell culture systems. In this study,we used exome sequencing,array comparative genomic hybridization (CGH),miRNA array,DNA methylation array,three-dimensional (3D) tissue engineering,and immunostaining to conduct a comparative analysis of two induced pluripotent stem cell (iPSC) lines used in engineering of 3D human epidermal equivalent (HEE),which more closely approximates epidermis. Exome sequencing and array CGH suggested that their genome was stable following 3 months of feeder-free culture. While the miRNAome was also not affected,≈7% of CpG sites were differently methylated between the two lines. Analysis of the epidermal differentiation complex,a region on chromosome 1 that contains multiple genes involved in skin barrier maturation (including trichohyalin,TCHH),found that in one of the iPSC clones (iKCL004),TCHH retained a DNA methylation signature characteristic of the original somatic cells,whereas in other iPSC line (iKCL011),the TCHH methylation signature matched that of the human embryonic stem cell line KCL034. The difference between the two iPSC clones in TCHH methylation did not have an obvious effect on its expression in 3D HEE,suggesting that differentiation and tissue formation may mitigate variations in the iPSC methylome. View Publication

CRISPR/Cas enhanced correction of the sickle cell disease (SCD) genetic defect in patient-specific induced Pluripotent Stem Cells (iPSCs) provides a potential gene therapy for this debilitating disease. An advantage of this approach is that corrected iPSCs that are free of off-target modifications can be identified before differentiating the cells into hematopoietic progenitors for transplantation. In order for this approach to be practical,iPSC generation must be rapid and efficient. Therefore,we developed a novel helper-dependent adenovirus/Epstein-Barr virus (HDAd/EBV) hybrid reprogramming vector,rCLAE-R6,that delivers six reprogramming factors episomally. HDAd/EBV transduction of keratinocytes from SCD patients resulted in footprint-free iPSCs with high efficiency. Subsequently,the sickle mutation was corrected by delivering CRISPR/Cas9 with adenovirus followed by nucleoporation with a 70 nt single-stranded oligodeoxynucleotide (ssODN) correction template. Correction efficiencies of up to 67.9% ($$(A)/[$$(S)+$$(A)]) were obtained. Whole-genome sequencing (WGS) of corrected iPSC lines demonstrated no CRISPR/Cas modifications in 1467 potential off-target sites and no modifications in tumor suppressor genes or other genes associated with pathologies. These results demonstrate that adenoviral delivery of reprogramming factors and CRISPR/Cas provides a rapid and efficient method of deriving gene-corrected,patient-specific iPSCs for therapeutic applications. View Publication

Inflammation is characterized by the recruitment of leukocytes from the bloodstream. The rapid arrival of neutrophils is followed by a wave of inflammatory lymphocyte antigen 6 complex (Ly6C)-positive monocytes. In contrast Ly6C(low) monocytes survey the endothelium in the steady state,but their role in inflammation is still unclear. Here,using confocal intravital microscopy,we show that upon Toll-like receptor 7/8 (TLR7/8)-mediated inflammation of mesenteric veins,platelet activation drives the rapid mobilization of Ly6C(low) monocytes to the luminal side of the endothelium. After repeatedly interacting with platelets,Ly6C(low) monocytes commit to a meticulous patrolling of the endothelial wall and orchestrate the subsequent arrival and extravasation of neutrophils through the production of proinflammatory cytokines and chemokines. At a molecular level,we show that cysteine-rich protein 61 (CYR61)/CYR61 connective tissue growth factor nephroblastoma overexpressed 1 (CCN1) protein is released by activated platelets and enables the recruitment of Ly6C(low) monocytes upon vascular inflammation. In addition endothelium-bound CCN1 sustains the adequate patrolling of Ly6C(low) monocytes both in the steady state and under inflammatory conditions. Blocking CCN1 or platelets with specific antibodies impaired the early arrival of Ly6C(low) monocytes and abolished the recruitment of neutrophils. These results refine the leukocyte recruitment cascade model by introducing endothelium-bound CCN1 as an inflammation mediator and by demonstrating a role for platelets and patrolling Ly6C(low) monocytes in acute vascular inflammation. View Publication

Pluripotent human embryonic stem cells (hESCs) are a potential renewable cell source for regenerative medicine and drug testing. To obtain adequate cell numbers for these applications,there is a need to develop scalable cell culture platforms to propagate hESCs. In this study,we encapsulated hESCs in calcium alginate microfibers as single cells,for expansion and differentiation under chemically defined conditions. hESCs were suspended in 1% (w/v) alginate solution at high cell density (textgreater10(7) cells/mL) and extruded at 5 m/min into a low calcium concentration bath (10 mM) for gelation. Mild citrate buffer (2.5 mM),which did not affect hESCs viability,was used to release the cells from the calcium alginate hydrogel. Encapsulation as single cells was critical,as this allowed the hESCs to grow in the form of relatively small and uniform aggregates. This alginate microfiber system allowed for expansion of an hESC line,HUES7,for up to five passages while maintaining pluripotency. Immunohistochemistry,polymerase chain reaction,and other analyses showed that passage 5 (P5) HUES7 cells expressed proteins and genes characteristic of pluripotent stem cells,possessed normal karyotype,and were able to form representative tissues of the three embryonic germ layers in vitro and in vivo. Encapsulated HUES7 cells at P5 could also be induced to directly differentiate into liver-like cells. Collectively,our experiments show that the alginate microfiber system can be used as a three-dimensional cell culture platform for long-term expansion and differentiation of hESCs under defined conditions. View Publication

Gamma-aminobutyric acid (GABA)-releasing interneurons play an important modulatory role in the cortex and have been implicated in multiple neurological disorders. Patient-derived interneurons could provide a foundation for studying the pathogenesis of these diseases as well as for identifying potential therapeutic targets. Here,we identified a set of genetic factors that could robustly induce human pluripotent stem cells (hPSCs) into GABAergic neurons (iGNs) with high efficiency. We demonstrated that the human iGNs express neurochemical markers and exhibit mature electrophysiological properties within 6-8 weeks. Furthermore,in vitro,iGNs could form functional synapses with other iGNs or with human-induced glutamatergic neurons (iENs). Upon transplantation into immunodeficient mice,human iGNs underwent synaptic maturation and integration into host neural circuits. Taken together,our rapid and highly efficient single-step protocol to generate iGNs may be useful to both mechanistic and translational studies of human interneurons. View Publication

Consistent and robust manufacturing is essential for the translation of cell therapies,and the utilisation automation throughout the manufacturing process may allow for improvements in quality control,scalability,reproducibility and economics of the process. The aim of this study was to measure and establish the comparability between alternative process steps for the culture of hiPSCs. Consequently,the effects of manual centrifugation and automated non-centrifugation process steps,performed using TAP Biosystems' CompacT SelecT automated cell culture platform,upon the culture of a human induced pluripotent stem cell (hiPSC) line (VAX001024c07) were compared. This study,has demonstrated that comparable morphologies and cell diameters were observed in hiPSCs cultured using either manual or automated process steps. However,non-centrifugation hiPSC populations exhibited greater cell yields,greater aggregate rates,increased pluripotency marker expression,and decreased differentiation marker expression compared to centrifugation hiPSCs. A trend for decreased variability in cell yield was also observed after the utilisation of the automated process step. This study also highlights the detrimental effect of the cryopreservation and thawing processes upon the growth and characteristics of hiPSC cultures,and demonstrates that automated hiPSC manufacturing protocols can be successfully transferred between independent laboratories. View Publication

Various scalable three-dimensional culture systems for regenerative medicine using human induced pluripotent stem cells (hiPSCs) have been developed to date. However,stable production of hiPSCs with homogeneous qualities still remains a challenge. Here,we describe a novel and simple embryoid body (EB) formation system using unique microfabricated culture vessels. Furthermore,this culture system is useful for high throughput EB formation and rapid generation of differentiated cells such as neural stem cells (NSCs) from hiPSCs. The period of NSC differentiation was significantly shortened under high EB density culture conditions. Simultaneous mass production of a pure population of NSCs was possible within 4 days. These results indicate that the novel culture system might not only become a unique tool to obtain new insights into developmental biology based on human stem cells,but also provide an important tractable platform for efficient and stable production of NSCs for clinical applications. View Publication

The emerging models of human embryonic stem cell (hESC) self-organizing organoids provide a valuable in vitro platform for studying self-organizing processes that presumably mimic in vivo human developmental events. Here we report that through a chemical screen,we identified two novel and structurally similar small molecules BIR1 and BIR2 which robustly induced the self-organization of a balloon-shaped three-dimensional structure when applied to two-dimensional adherent hESC cultures in the absence of growth factors. Gene expression analyses and functional assays demonstrated an endothelial identity of this balloon-like structure,while cell surface marker analyses revealed a VE-cadherin+CD31+CD34+KDR+CD43???putative endothelial progenitor population. Furthermore,molecular marker labeling and morphological examinations characterized several other distinct DiI-Ac-LDL+multi-cellular modules and a VEGFR3+sprouting structure in the balloon cultures that likely represented intermediate structures of balloon-formation. View Publication

Alzheimer's disease (AD) is one of the most prevalent neurodegenerative diseases,yet current therapeutic treatments are inadequate due to a complex disease pathogenesis. The plant polyphenol apigenin has been shown to have anti-inflammatory and neuroprotective properties in a number of cell and animal models; however a comprehensive assessment has not been performed in a human model of AD. Here we have used a human induced pluripotent stem cell (iPSC) model of familial and sporadic AD,in addition to healthy controls,to assess the neuroprotective activity of apigenin. The iPSC-derived AD neurons demonstrated a hyper-excitable calcium signalling phenotype,elevated levels of nitrite,increased cytotoxicity and apoptosis,reduced neurite length and increased susceptibility to inflammatory stress challenge from activated murine microglia,in comparison to control neurons. We identified that apigenin has potent anti-inflammatory properties with the ability to protect neurites and cell viability by promoting a global down-regulation of cytokine and nitric oxide (NO) release in inflammatory cells. In addition,we show that apigenin is able to protect iPSC-derived AD neurons via multiple means by reducing the frequency of spontaneous Ca(2+) signals and significantly reducing caspase-3/7 mediated apoptosis. These data demonstrate the broad neuroprotective action of apigenin against AD pathogenesis in a human disease model. View Publication