技术资料

In this unit,we describe a simple coculture-free method for obtaining mast cells from mouse and human embryonic stem (ES) cells. Much of our knowledge regarding the mechanisms by which mast cells are activated comes from studies of mouse bone marrow-derived mast cells. Studies of human mast cells have been hampered by the limited sources from which they can be cultured,the difficulty in introducing specific genetic changes into these cells,and differences between established cultures that reflect the unique genetic makeup of the tissue donor. Derivation of mast cells from embryonic stem cells addresses these limitations. ES-derived mast cells can be generated in numbers sufficient for studies of the pathways involved in mast cell effector functions. These ES cell-derived mast cells respond to antigens and other stimuli by releasing histamine,cytokines,lipids,and other bioactive mediators. The derivation of human mast cells from ES cells carrying mutations introduced by homologous recombination should provide a novel means of testing the function of genes in both the development and the effector functions of mast cells. View Publication

Recent studies have proposed that chronic treatment with antidepressants increases neurogenesis in the adult hippocampus. However,the effect of antidepressants on fetal neural stem cells (NSCs) has not been well defined. Our study shows the dose-dependent effects of fluoxetine on the proliferation and neural differentiation of NSCs. Fluoxetine,even at nanomolar concentrations,stimulated proliferation of NSCs and increased the number of βIII-tubulin (Tuj 1)- and neural nucleus marker (NeuN)-positive cells,but not glial fibrillary acidic protein (GFAP)-positive cells. These results suggest that fluoxetine can enhance neuronal differentiation. In addition,fluoxetine has protective effects against cell death induced by oligomeric amyloid beta (Aβ(42)) peptides. Taken together,these results clearly show that fluoxetine promotes both the proliferation and neuronal differentiation of NSCs and exerts protective effects against Aβ(42)-induced cytotoxicities in NSCs,which suggest that the use of fluoxetine is applicable for cell therapy for various neurodegenerative diseases,such as Alzheimer's and Parkinson's diseases by its actions in NSCs. View Publication

PURPOSE Bacillus anthracis infection (anthrax) can be highly lethal. Two recent outbreaks related to contaminated mail in the USA and heroin in the UK and Europe and its potential as a bioterrorist weapon have greatly increased concerns over anthrax in the developed world. METHODS This review summarizes the microbiology,pathogenesis,diagnosis,and management of anthrax. RESULTS AND CONCLUSIONS Anthrax,a gram-positive bacterium,has typically been associated with three forms of infection: cutaneous,gastrointestinal,and inhalational. However,the anthrax outbreak among injection drug users has emphasized the importance of what is now considered a fourth disease form (i.e.,injectional anthrax) that is characterized by severe soft tissue infection. While cutaneous anthrax is most common,its early stages are distinct and prompt appropriate treatment commonly produces a good outcome. However,early symptoms with the other three disease forms can be nonspecific and mistaken for less lethal conditions. As a result,patients with gastrointestinal,inhalational,or injectional anthrax may have advanced infection at presentation that can be highly lethal. Once anthrax is suspected,the diagnosis can usually be made with gram stain and culture from blood or tissue followed by confirmatory testing (e.g.,PCR). While antibiotics are the mainstay of anthrax treatment,use of adjunctive therapies such as anthrax toxin antagonists are a consideration. Prompt surgical therapy appears to be important for successful management of injectional anthrax. View Publication

Embryonic stem cells (ESCs) are unique cells,which have the ability to differentiate into all cell types that comprise the adult organism. Furthermore,ESCs can infinitely self-renew under optimized conditions. These features place human ESCs (hESCs) in a position where these cells can be exploited for tissue engineering and regenerative medicine approaches in treating human degenerative disorders. However,cell therapy approaches will require large amounts of clinically useable cells,not typically achievable using standard static cell culture methods. Here,we describe a method wherein clinically relevant numbers of hESCs can be generated in a cost and time effective manner. View Publication

The differentiation of human embryonic stem cells (hESCs) and human-induced pluripotent stem cells (hiPSCs) towards functional neurons particularly hold great potential for the cell-based replacement therapy in neurodegenerative diseases. Here,we describe a stepwise differentiation protocol that mimics the early stage of neural development in human to promote the generation of neuroprogenitors at a high yield. Both the hESCs and hiPSCs are initially cultured in an optimized feeder-free condition,which offer an efficient formation of aggregates. To specify the neuroectodermal specification,these aggregates are differentiated in a defined neural induction medium to develop into neural rosettes-like structures. The rosettes are expanded into free-floating sphere and can be further propagated or developed into variety of neuronal subtypes. View Publication

Substrates used to culture human embryonic stem cells (hESCs) are typically 2-dimensional (2-D) in nature,with limited ability to recapitulate in vivo-like 3-dimensional (3-D) microenvironments. We examined critical determinants of hESC self-renewal in poly-d-lysine-pretreated synthetic polymer-based substrates with variable microgeometries,including planar 2-D films,macroporous 3-D sponges,and microfibrous 3-D fiber mats. Completely synthetic 2-D substrates and 3-D macroporous scaffolds failed to retain hESCs or support self-renewal or differentiation. However,synthetic microfibrous geometries made from electrospun polymer fibers were found to promote cell adhesion,viability,proliferation,self-renewal,and directed differentiation of hESCs in the absence of any exogenous matrix proteins. Mechanistic studies of hESC adhesion within microfibrous scaffolds indicated that enhanced cell confinement in such geometries increased cell-cell contacts and altered colony organization. Moreover,the microfibrous scaffolds also induced hESCs to deposit and organize extracellular matrix proteins like laminin such that the distribution of laminin was more closely associated with the cells than the Matrigel treatment,where the laminin remained associated with the coated fibers. The production of and binding to laminin was critical for formation of viable hESC colonies on synthetic fibrous scaffolds. Thus,synthetic substrates with specific 3-D microgeometries can support hESC colony formation,self-renewal,and directed differentiation to multiple lineages while obviating the stringent needs for complex,exogenous matrices. Similar scaffolds could serve as tools for developmental biology studies in 3-D and for stem cell differentiation in situ and transplantation using defined humanized conditions. View Publication

Embryonic and induced pluripotent stem cells (IPSCs) derived from mammalian species are valuable tools for modeling human disease,including retinal degenerative eye diseases that result in visual loss. Restoration of vision has focused on transplantation of neural progenitor cells (NPCs) and retinal pigmented epithelium (RPE) to the retina. Here we used transgenic common marmoset (Callithrix jacchus) and human pluripotent stem cells carrying the enhanced green fluorescent protein (eGFP) reporter as a model system for retinal differentiation. Using suspension and subsequent adherent differentiation cultures,we observed spontaneous in vitro differentiation that included NPCs and cells with pigment granules characteristic of differentiated RPE. Retinal cells derived from human and common marmoset pluripotent stem cells provide potentially unlimited cell sources for testing safety and immune compatibility following autologous or allogeneic transplantation using nonhuman primates in early translational applications. View Publication

Exercise has been shown to positively augment adult hippocampal neurogenesis; however,the cellular and molecular pathways mediating this effect remain largely unknown. Previous studies have suggested that microglia may have the ability to differentially instruct neurogenesis in the adult brain. Here,we used transgenic Csf1r-GFP mice to investigate whether hippocampal microglia directly influence the activation of neural precursor cells. Our results revealed that an exercise-induced increase in neural precursor cell activity was mediated via endogenous microglia and abolished when these cells were selectively removed from hippocampal cultures. Conversely,microglia from the hippocampi of animals that had exercised were able to activate latent neural precursor cells when added to neurosphere preparations from sedentary mice. We also investigated the role of CX(3)CL1,a chemokine that is known to provide a more neuroprotective microglial phenotype. Intraparenchymal infusion of a blocking antibody against the CX(3)CL1 receptor,CX(3)CR1,but not control IgG,dramatically reduced the neurosphere formation frequency in mice that had exercised. While an increase in soluble CX(3)CL1 was observed following running,reduced levels of this chemokine were found in the aged brain. Lower levels of CX(3)CL1 with advancing age correlated with the natural decline in neural precursor cell activity,a state that could be partially alleviated through removal of microglia. These findings provide the first direct evidence that endogenous microglia can exert a dual and opposing influence on neural precursor cell activity within the hippocampus,and that signaling through the CX(3)CL1-CX(3)CR1 axis critically contributes toward this process. View Publication

Transcriptional profiling of differentiating human embryonic stem cells (hESCs) revealed that MIXL1-positive mesodermal precursors were enriched for transcripts encoding the G-protein-coupled APELIN receptor (APLNR). APLNR-positive cells,identified by binding of the fluoresceinated peptide ligand,APELIN (APLN),or an anti-APLNR mAb,were found in both posterior mesoderm and anterior mesendoderm populations and were enriched in hemangioblast colony-forming cells (Bl-CFC). The addition of APLN peptide to the media enhanced the growth of embryoid bodies (EBs),increased the expression of hematoendothelial genes in differentiating hESCs,and increased the frequency of Bl-CFCs by up to 10-fold. Furthermore,APLN peptide also synergized with VEGF to promote the growth of hESC-derived endothelial cells. These studies identified APLN as a novel growth factor for hESC-derived hematopoietic and endothelial cells. View Publication

Studies in the past have illuminated the potential benefit of resveratrol as an anticancer (pro-apoptosis) and life-extending (pro-survival) compound. However,these two different effects were observed at different concentration ranges. Studies of resveratrol in a wide range of concentrations on the same cell type are lacking,which is necessary to comprehend its diverse and sometimes contradictory cellular effects. In this study,we examined the effects of resveratrol on cell self-renewal and differentiation of human mesenchymal stem cells (hMSCs),a type of adult stem cells that reside in a number of tissues,at concentrations ranging from 0.1 to 10 µM after both short- and long-term exposure. Our results reveal that at 0.1 µM,resveratrol promotes cell self-renewal by inhibiting cellular senescence,whereas at 5 µM or above,resveratrol inhibits cell self-renewal by increasing senescence rate,cell doubling time and S-phase cell cycle arrest. At 1 µM,its effect on cell self-renewal is minimal but after long-term exposure it exerts an inhibitory effect,accompanied with increased senescence rate. At all concentrations,resveratrol promotes osteogenic differentiation in a dosage dependent manner,which is offset by its inhibitory effect on cell self-renewal at high concentrations. On the contrary,resveratrol suppresses adipogenic differentiation during short-term exposure but promotes this process after long-term exposure. Our study implicates that resveratrol is the most beneficial to stem cell development at 0.1 µM and caution should be taken in applying resveratrol as an anticancer therapeutic agent or nutraceutical supplement due to its dosage dependent effect on hMSCs. View Publication

The sodium-iodine symporter (NIS) is expressed on the cell membrane of many thyroid cancer cells,and is responsible for the radioactive iodine accumulation. However,treatment of anaplastic thyroid cancer is ineffective due to the low expression of NIS on cell membranes of these tumor cells. Human embryonic stem cells (ESCs) provide a potential vehicle to study the mechanisms of NIS expression regulation during differentiation. Human ESCs were maintained on feeder-independent culture conditions. RT-qPCR and immunocytochemistry were used to study differentiation marker expression,(125)I uptake to study NIS function. We designed a two-step protocol for human ESC differentiation into thyroid-like cells,as was previously done for mouse embryonic stem cells. First,we obtained definitive endoderm from human ESCs. Second,we directed differentiation of definitive endoderm cells into thyroid-like cells using various factors,with thyroid stimulating hormone (TSH) as the main differentiating factor. Expression of pluripotency,endoderm and thyroid markers and (125)I uptake were monitored throughout the differentiation steps. These approaches did not result in efficient induction of thyroid-like cells. We conclude that differentiation of human ESCs into thyroid cells cannot be induced by TSH media supplementation alone and most likely involves complicated developmental patterns that are yet to be understood. View Publication

PURPOSE:
Human embryonic stem cells (hESC) hold a great potential for regenerative medicine because,in principle,they can differentiate into any cell type found in the human body. In addition,studying the effect of ionizing radiation (IR) on hESC may provide valuable information about the response of human cells to IR exposure in their most naive state,as well as the consequences of IR exposure on the development of organisms. However,the effect of IR,in particular radionuclide uptake,on the pluripotency,proliferation and survival of hESC has not been extensively studied.
METHODS:
In this study we treated cultured hESC with 5-[(125)I]iodo-2'-deoxyuridine ((125)IdU),a precursor of DNA synthesis. Then we measured the expansion of colonies and expression of pluripotency markers in hESC.
RESULTS:
We found that uptake of (125)IdU was similar in both hESC and HT1080 human fibrosarcoma cells. However,treatment with 0.1 μCi/ml (125)IdU for 24 hours resulted in complete death of the hESC population; whereas HT1080 cancer cells continued to grow. Treatment with a 10-fold lower dose (125)IdU (0.01 μCi/ml) resulted in colonies of hESC becoming less defined with numerous cells growing in monolayer outside of the colonies showing signs of differentiation. Then we analyzed the expression of pluripotency markers (octamer-binding transcription factor 4 [Oct-4] and stage-specific embryonic antigen-4 [SSEA4]) in the surviving hESC. We found that hESC in the surviving colonies expressed pluripotency markers at levels comparable with those in the non-treated controls.
CONCLUSIONS:
Our results provide important initial insights into the sensitivity of hESC to IR,and especially that produced by the decay of an internalized radionuclide. View Publication