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

Targeted delivery of siRNA controlled by near-infrared light using hollow gold nanoshells has been demonstrated in cancer and stem cells models. Here,a universal surface module and several functionalization rules for the maximized delivery of short nucleic acids (here,siRNA) applicable for diverse gold nanocarriers are described. Streptavidin is devised as a handle to assemble biotinylated cell penetrating peptides (e.g.,transactivating transcriptional activator (TAT)),as well as an insulator between the positive charge of TAT and the dense negative charge of RNA. However,direct linking of streptavidin to functional siRNA inhibits its silencing activity. The approach then involves the orthogonal assembly of two types of RNA strands: one with biotin modification for cell targeting and penetration (scaffold RNA); the other without biotin as functional RNA (i.e.,siRNA). Initially,flexible single-stranded RNA is used for dense surface-packing,followed by hybridization with the complementary RNA strand to maximize the assembly of the targeting peptide for cellular uptake and siRNA delivery. This orthogonal approach for the delivery of short oligonucleotides,together with novel surface functionalization rules discovered here,should enable the use of these materials for nanomedicinal research and applications. View Publication

Although there is evidence that endothelial cells are important targets for human pathogenic Bartonella species,the primary niche of infection is unknown. Here we elucidated whether human CD34+ hematopoietic progenitor cells (HPCs) internalize B. henselae and may serve as a potential niche of the pathogen. We showed that B. henselae does not adhere to or invade human erythrocytes. In contrast,B. henselae invades and persists in HPCs as shown by gentamicin protection assays,confocal laser scanning microscopy (CLSM),and electron microscopy (EM). Fluorescence-activated cell sorting (FACS) analysis of glycophorin A expression revealed that erythroid differentiation of HPCs was unaffected following infection with B. henselae. The number of intracellular B. henselae continuously increased over a 13-day period. When HPCs were infected with B. henselae immediately after isolation,intracellular bacteria were subsequently detectable in differentiated erythroid cells on day 9 and day 13 after infection,as shown by CLSM,EM,and FACS analysis. Our data provide,for the first time,evidence that a bacterial pathogen is able to infect and persist in differentiating HPCs,and suggest that HPCs might serve as a potential primary niche in Bartonella infections. View Publication

Much attention is focused on characterizing the contribution of bone marrow (BM)-derived cells to regenerating skeletal muscle,fuelled by hopes for stem cell-mediated therapy of muscle degenerative diseases. Though physical integration of BM stem cells has been well documented,little evidence of functional commitment to myotube phenotype has been reported. This is due to the innate difficulty in distinguishing gene products derived from donor versus host nuclei. Here,we demonstrate that BM-derived stem cells contribute via gene expression following incorporation to skeletal myotubes. By co-culturing human BM-derived mesenchymal stem cells (MSC) with mouse skeletal myoblasts,physical incorporation was observed by genetic lineage tracing and species-specific immunofluorescence. We used a human-specific antibody against the intermediate filament protein nestin,a marker of regenerating skeletal muscle,to identify functional contribution of MSC to myotube formation. Although nestin expression was never detected in MSC,human-specific expression was detected in myotubes that also contained MSC-derived nuclei. This induction of gene expression following myotube integration suggests that bone marrow-derived stem cells can reprogram and functionally contribute to the muscle cell phenotype. We propose that this model of myogenic commitment may provide the means to further characterize functional reprogramming of MSC to skeletal muscle. View Publication

Since the derivation of the first human embryonic stem cell (hESC) lines by Thomson and coworkers in 1998,more than 1,200 different hESC lines have been established worldwide. Nevertheless,there is still a recognized interest in the establishment of new lines of hESC,particularly from HLA types and ethnic groups currently underrepresented among the available lines. The methodology of hESC derivation has evolved significantly since 1998,when human LIF (hLIF) was used for maintenance of pluripotency. However,there are a number of different strategies for the several steps involved in establishing a new line of hESC. Here we make a survey of the most relevant parameters used between 1998 and 2010 for the derivation of the 375 hESC lines deposited in two international stem cell registries,and able to form teratomas in immunocompromised mice. Although we identify some trends in the methodology for establishing hESC lines,our data reveal a much greater heterogeneity of strategies than what is used for derivation of murine ESC lines,indicating that optimum conditions have not been consolidated yet,and thus,hESC establishment is still an evolving field of research. View Publication

3D suspension culture is generally considered a promising method to achieve efficient expansion and controlled differentiation of human pluripotent stem cells (hPSCs). In this work,we focused on developing an integrated culture platform for expansion and neural commitment of hPSCs into neural precursors using 3D suspension conditions and chemically-defined culture media. We evaluated different inoculation methodologies for hPSC expansion as 3D aggregates and characterized the resulting cultures in terms of aggregate size distribution. It was demonstrated that upon single-cell inoculation,after four days of culture,3D aggregates were composed of homogenous populations of hPSC and were characterized by an average diameter of 139 ± 26 μm,which was determined to be the optimal size to initiate neural commitment. Temporal analysis revealed that upon neural specification it is possible to maximize the percentage of neural precursor cells expressing the neural markers Sox1 and Pax6 after nine days of culture. These results highlight our ability to define a robust method for production of hPSC-derived neural precursors that minimizes processing steps and that constitutes a promising alternative to the traditional planar adherent culture system due to a high potential for scaling-up. View Publication

Human pluripotent stem cells (hPSCs) offer a renewable source of cells that can be expanded indefinitely and differentiated into virtually any type of cell in the human body,including neurons. This opens up unprecedented possibilities to study neuronal cell and developmental biology and cellular pathology of the nervous system,provides a platform for the screening of chemical libraries that affect these processes,and offers a potential source of transplantable cells for regenerative approaches to neurological disease. However,defining protocols that permit a large number and high yield of neurons has proved difficult. We present differentiation protocols for the generation of distinct subtypes of neurons in a highly reproducible manner,with minimal experiment-to-experiment variation. These neurons form synapses with neighboring cells,exhibit spontaneous electrical activity,and respond appropriately to depolarization. hPSC-derived neurons exhibit a high degree of maturation and survive in culture for up to 4-5 months,even without astrocyte feeder layers. View Publication

Human embryonic stem cells (hESCs) can self-renew and become all three germ layers. Nodal/Activin signaling specifies developmental status in hESCs: moderate Nodal/Activin signaling maintains pluripotency,while enhancement and inhibition promote definitive endoderm (DE) and neuroectoderm (NE) development,respectively. However,how modulation of Nodal/Activin signaling influences developmental competence and commitment toward specific lineages is still unclear. Here,we showed that enhancement of Nodal/Activin signaling for 4 days was necessary and sufficient to upregulate DE markers,while it diminished the upregulation of NE markers by inhibition of Nodal/Activin signaling. This suggests that after 4 days of enhanced Nodal/Activin signaling,hESCs are committed to the DE lineage and have lost competence toward the NE lineage. In contrast,inhibition of Nodal/Activin signaling using LY364947 for 2 days was sufficient to impair competence toward the DE lineage,although cells were still able to activate LEFTY1 and NODAL,direct targets of Nodal/Activin signaling. Expression analyses indicated that the levels of pluripotency regulators NANOG and POU5F1 were significantly diminished by 2 days of LY364947 treatment,although the expression of NANOG,but not POU5F1,was restored immediately upon Activin A treatment. Thus,downregulation of POU5F1 coincided with the abrogation of DE competence caused by inhibition of Nodal/Activin signaling. View Publication

Background Proteoglycans are found on the cell surface and in the extracellular matrix,and serve as prime sites for interaction with signaling molecules. Proteoglycans help regulate pathways that control stem cell fate,and therefore represent an excellent tool to manipulate these pathways. Despite their importance,there is a dearth of data linking glycosaminoglycan structure within proteoglycans with stem cell differentiation. Methods Human embryonic stem cell line WA09 (H9) was differentiated into early mesoderm and endoderm lineages,and the glycosaminoglycanomic changes accompanying these transitions were studied using transcript analysis,immunoblotting,immunofluorescence and disaccharide analysis. Results Pluripotent H9 cell lumican had no glycosaminoglycan chains whereas in splanchnic mesoderm lumican was glycosaminoglycanated. H9 cells have primarily non-sulfated heparan sulfate chains. On differentiation towards splanchnic mesoderm and hepatic lineages N-sulfo group content increases. Differences in transcript expression of NDST1,HS6ST2 and HS6ST3,three heparan sulfate biosynthetic enzymes,within splanchnic mesoderm cells compared to H9 cells correlate to changes in glycosaminoglycan structure. Conclusions Differentiation of embryonic stem cells markedly changes the proteoglycanome. General significance The glycosaminoglycan biosynthetic pathway is complex and highly regulated,and therefore,understanding the details of this pathway should enable better control with the aim of directing stem cell differentiation. ?? 2014 Elsevier B.V. All rights reserved. View Publication

Mesenchymal stem cells (MSCs) are being tested in a wide range of human diseases; however,loss of potency and inconsistent quality severely limit their use. To overcome these issues,we have utilized a developmental precursor called the hemangioblast as an intermediate cell type in the derivation of a highly potent and replenishable population of MSCs from human embryonic stem cells (hESCs). This method circumvents the need for labor-intensive hand-picking,scraping,and sorting that other hESC-MSC derivation methods require. Moreover,unlike previous reports on hESC-MSCs,we have systematically evaluated their immunomodulatory properties and in vivo potency. As expected,they dynamically secrete a range of bioactive factors,display enzymatic activity,and suppress T-cell proliferation that is induced by either allogeneic cells or mitogenic stimuli. However,they also display unique immunophenotypic properties,as well as a smaller size and textgreater30,000-fold proliferative capacity than bone marrow-derived MSCs. In addition,this is the first report which demonstrates that hESC-MSCs can inhibit CD83 up-regulation and IL-12p70 secretion from dendritic cells and enhance regulatory T-cell populations induced by interleukin 2 (IL-2). This is also the first report which shows that hESC-MSCs have therapeutic efficacy in two different autoimmune disorder models,including a marked increase in survival of lupus-prone mice and a reduction of symptoms in an autoimmune model of uveitis. Our data suggest that this novel and therapeutically active population of MSCs could overcome many of the obstacles that plague the use of MSCs in regenerative medicine and serve as a scalable alternative to current MSC sources. View Publication

Astrocytes are instrumental to major brain functions,including metabolic support,extracellular ion regulation,the shaping of excitatory signaling events and maintenance of synaptic glutamate homeostasis. Astrocyte dysfunction contributes to numerous developmental,psychiatric and neurodegenerative disorders. The generation of adult human fibroblast-derived induced pluripotent stem cells (iPSCs) has provided novel opportunities to study mechanisms of astrocyte dysfunction in human-derived cells. To overcome the difficulties of cell type heterogeneity during the differentiation process from iPSCs to astroglial cells (iPS astrocytes),we generated homogenous populations of iPS astrocytes using zinc-finger nuclease (ZFN) technology. Enhanced green fluorescent protein (eGFP) driven by the astrocyte-specific glial fibrillary acidic protein (GFAP) promoter was inserted into the safe harbor adeno-associated virus integration site 1 (AAVS1) locus in disease and control-derived iPSCs. Astrocyte populations were enriched using Fluorescence Activated Cell Sorting (FACS) and after enrichment more than 99% of iPS astrocytes expressed mature astrocyte markers including GFAP,S100$\$,NFIA and ALDH1L1. In addition,mature pure GFP-iPS astrocytes exhibited a well-described functional astrocytic activity in vitro characterized by neuron-dependent regulation of glutamate transporters to regulate extracellular glutamate concentrations. Engraftment of GFP-iPS astrocytes into rat spinal cord grey matter confirmed in vivo cell survival and continued astrocytic maturation. In conclusion,the generation of GFAP::GFP-iPS astrocytes provides a powerful in vitro and in vivo tool for studying astrocyte biology and astrocyte-driven disease pathogenesis and therapy. View Publication