Gallo M et al. (JAN 2013)
Cancer Research 73 1 417--427
A Tumorigenic MLL-Homeobox Network in Human Glioblastoma Stem Cells
Glioblastoma growth is driven by cancer cells that have stem cell properties,but molecular determinants of their tumorigenic behavior are poorly defined. In cancer,altered activity of the epigenetic modifiers Polycomb and Trithorax complexes may contribute to the neoplastic phenotype. Here,we provide the first mechanistic insights into the role of the Trithorax protein mixed lineage leukemia (MLL) in maintaining cancer stem cell characteristics in human glioblastoma. We found that MLL directly activates the Homeobox gene HOXA10. In turn,HOXA10 activates a downstream Homeobox network and other genes previously characterized for their role in tumorigenesis. The MLL-Homeobox axis we identified significantly contributes to the tumorigenic potential of glioblastoma stem cells. Our studies suggest a role for MLL in contributing to the epigenetic heterogeneity between tumor-initiating and non-tumor-initiating cells in glioblastoma.
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产品类型:
产品号#:
05750
产品名:
NeuroCult™ NS-A 基础培养基(人)
Louis SA et al. (JAN 2013)
Methods in molecular biology (Clifton,N.J.) 946 479--506
Methods to culture, differentiate, and characterize neural stem cells from the adult and embryonic mouse central nervous system.
Since the discovery of neural stem cells (NSC) in the embryonic and adult mammalian central nervous system (CNS),there have been a growing numbers of tissue culture media and protocols to study and functionally characterize NSCs and its progeny in vitro. One of these culture systems introduced in 1992 is referred to as the Neurosphere Assay,and it has been widely used to isolate,expand,differentiate and even quantify NSC populations. Several years later because its application as a quantitative in vitro assay for measuring NSC frequency was limited,a new single-step semisolid based assay,the Neural Colony Forming Cell (NCFC) assay was developed to accurately measure NSC numbers. The NCFC assay allows the discrimination between NSCs and progenitors by the size of colonies they produce (i.e.,their proliferative potential). The evolution and continued improvements made to these tissue culture tools will facilitate further advances in the promising application of NSCs for therapeutic use.
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产品类型:
产品号#:
05700
05701
05715
产品名:
NeuroCult™ 基础培养基(小鼠和大鼠)
NeuroCult™ 扩增添加物(小鼠和大鼠)
NeuroCult™成年中枢神经系统(CNS)组织酶解试剂盒(小鼠和大鼠)
Yoshikawa K et al. (FEB 2013)
Biochemical and biophysical research communications 431 1 104--10
Multipotent stem cells are effectively collected from adult human cheek skin.
Skin-derived precursor (SKP) cells are a valuable resource for tissue engineering and regenerative medicine,because they represent multipotent stem cells that differentiate into neural and mesodermal progenies. Previous studies suggest that the stem cell pool decreases with age. Here,we show that human multipotent SKP cells can be efficiently collected from adult cheek/chin skin,even in aged individuals of 70-78years. SKP cells were isolated from 38 skin samples by serum-free sphere culture and examined for the ability to differentiate into neural and mesodermal lineages. The number of spheres obtained from adult facial skin was significantly higher than that of trunk or extremity skin. SKP cells derived from cheek/chin skin exhibited a high ability to differentiate into neural and mesodermal cells relative to those derived from eyelid,trunk,or extremity skin. Furthermore,cheek/chin skin SKP cells were shown to express markers for undifferentiated stem cells,including a high expression level of the Sox9 gene. These results indicate that cheek/chin skin is useful for the recovery of multipotent stem cells for tissue engineering and regenerative therapy.
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产品类型:
产品号#:
05752
产品名:
NeuroCult™ NS-A 分化试剂盒(人)
Lu B and Palacino J (MAY 2013)
The FASEB Journal 27 5 1820--1829
A novel human embryonic stem cell-derived Huntington's disease neuronal model exhibits mutant huntingtin (mHTT) aggregates and soluble mHTT-dependent neurodegeneration
Most neurodegenerative diseases are linked to aberrant accumulation of aggregation-prone proteins. Among them,Huntington's disease (HD) is caused by an expanded polyglutamine repeat stretch in the N terminus of the mutant huntingtin protein (mHTT),which gets cleaved and aggregates in the brain. Recently established human induced pluripotent stem cell-derived HD neurons exhibit some disease-relevant phenotypes and provide tools for HD research. However,they have limitations such as genetic heterogeneity and an absence of mHTT aggregates and lack a robust neurodegeneration phenotype. In addition,the relationship between the phenotype and mHTT levels has not been elucidated. Herein,we present a human embryonic stem cell (hESC)-derived HD neuronal model expressing HTTexon1 fragments,which addresses the deficiencies enumerated above. The wild-type and HD lines are derived from an isogenic background and exhibit insoluble mHTT aggregates and neurodegeneration. We also demonstrate a quantitative relationship between neurodegeneration and soluble monomeric (but not oligomeric or aggregated) mHTT levels. Reduction of ∼10% of mHTT is sufficient to prevent toxicity,whereas ∼90% reduction of wild-type HTT is safe and well-tolerated in these cells. A known HD toxicity modifier (Rhes) showed expected rescue of neurodegeneration. Therefore,the hESC-derived neuronal models complement existing induced pluripotent stem cell-derived neuronal models and provide valuable tools for HD research.—Lu,B.,Palacino,J. A novel human embryonic stem cell-derived Huntington's disease neuronal model exhibits mutant huntingtin (mHTT) aggregates and soluble mHTT-dependent neurodegeneration.
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产品类型:
产品号#:
05850
05857
05870
05875
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Walker TL et al. (FEB 2013)
The Journal of neuroscience : the official journal of the Society for Neuroscience 33 7 3010--3024
Prominin-1 Allows Prospective Isolation of Neural Stem Cells from the Adult Murine Hippocampus.
Prominin-1 (CD133) is commonly used to isolate stem and progenitor cells from the developing and adult nervous system and to identify cancer stem cells in brain tumors. However,despite extensive characterization of Prominin-1(+) precursor cells from the adult subventricular zone,no information about the expression of Prominin-1 by precursor cells in the subgranular zone (SGZ) of the adult hippocampus has been available. We show here that Prominin-1 is expressed by a significant number of cells in the SGZ of adult mice in vivo and ex vivo,including postmitotic astrocytes. A small subset of Prominin-1(+) cells coexpressed the nonspecific precursor cell marker Nestin as well as GFAP and Sox2. Upon fluorescence-activated cell sorting,only Prominin-1/Nestin double-positive cells fulfilled the defining stem cell criteria of proliferation,self-renewal,and multipotentiality as assessed by a neurosphere assay. In addition,isolated primary Prominin-1(+) cells preferentially migrated to the neurogenic niche in the SGZ upon transplantation in vivo. Finally,despite its expression by various stem and progenitor cells,Prominin-1 turned out to be dispensable for precursor cell proliferation in vitro and in vivo. Nevertheless,a net decrease in hippocampal neurogenesis,by ∼30% was found in Prominin-1 knock-out mice,suggesting other roles in controlling adult hippocampal neurogenesis. Remarkably,an upregulation of Prominin-2 was detected in Prominin-1-deficient mice highlighting a potential compensatory mechanism,which might explain the lack of severe symptoms in individuals carrying mutations in the Prom1 gene.
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产品类型:
产品号#:
05701
产品名:
NeuroCult™ 扩增添加物(小鼠和大鼠)
Kim J et al. (NOV 2013)
Stem Cell Research 11 3 978--989
Alginate microcapsule as a 3D platform for the efficient differentiation of human embryonic stem cells to dopamine neurons
Human embryonic stem cells (hESCs) are emerging as an attractive alternative source for cell replacement therapy since the cells can be expanded in culture indefinitely and differentiated into any cell types in the body. In order to optimize cell-to-cell interaction,cell proliferation and differentiation into specific lineages as well as tissue organization,it is important to provide a microenvironment for the hESCs which mimics the stem cell niche. One approach is to provide a three-dimensional (3D) environment such as encapsulation. We present an approach to culture and differentiate hESCs into midbrain dopamine (mdDA) neurons in a 3D microenvironment using alginate microcapsules for the first time. A detailed gene and protein expression analysis during neuronal differentiation showed an increased gene and protein expression of various specific DA neuronal markers,particularly tyrosine hydroxylase (TH) by textgreater100 folds after 2weeks and at least 50% higher expression after 4weeks respectively,compared to cells differentiated under conventional two-dimensional (2D) platform. The encapsulated TH+ cells co-expressed mdDA neuronal markers,forkhead box protein A-2 (FOXA2) and pituitary homeobox-3 (PITX3) after 4weeks and secreted approximately 60pg/ml/106 cells higher DA level when induced. We propose that the 3D platform facilitated an early onset of DA neuronal generation compared to that with conventional 2D system which also secretes more DA under potassium-induction. It is a very useful model to study the proliferation and directed differentiation of hESCs to various lineages,particularly to mdDA neurons. This 3D system also allows the separation of feeder cells from hESCs during the process of differentiation and also has potential for immune-isolation during transplantation studies. ?? 2013 Elsevier B.V.
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产品类型:
产品号#:
05850
05857
05870
05875
07923
85850
85857
85870
85875
产品名:
Dispase (1 U/mL)
mTeSR™1
mTeSR™1
Niu H et al. (MAR 2017)
Neuroscience Letters 642 71--76
Recombinant insulin-like growth factor binding protein-4 inhibits proliferation and promotes differentiation of neural progenitor cells
Insulin-like growth factor (IGF) is involved in regulating many processes during neural development,and IGF binding protein-4 (IGFBP4) functions as a modulator of IGF actions or in an IGF-independent manner (e.g.,via inhibiting Wnt/β-catenin signaling). In the present study,neural progenitor cells (NPCs) were isolated from the forebrain of newborn mice to investigate effects of IGFBP4 on the proliferation and differentiation of NPCs. The proliferation of NPCs was evaluated using Cell Counting Kit-8 (CCK-8) after treatment with or without IGFBP4 as well as blockers of IGF-IR and β-catenin. Phosphorylation levels of Akt,Erk1,2 and p38 were analyzed by Western blotting. The differentiation of NPCs was evaluated using immunofluorescence and Western blotting. It was shown that exogenous IGFBP4 significantly inhibited the proliferation of NPCs and it did not induce a more pronounced inhibition of cell proliferation after blockade of IGF-IR but it did after antagonism of β-catenin. Akt phosphorylation was significantly decreased and phosphorylation levels of Erk1,2 and p38 were not significantly changed in IGFBP4-treated NPCs. Excessive IGFBP4 significantly promoted NPCs to differentiate into astrocytes and neurons. These data suggested that exogenous IGFBP4 inhibits proliferation and promotes differentiation of neural progenitor cells mainly through IGF-IR signaling pathway.
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产品类型:
产品号#:
05700
05701
05702
05703
05704
产品名:
NeuroCult™ 基础培养基(小鼠和大鼠)
NeuroCult™ 扩增添加物(小鼠和大鼠)
NeuroCult™扩增试剂盒(小鼠和大鼠)
NeuroCult™ 分化添加物(小鼠和大鼠)
NeuroCult™ 分化试剂盒(小鼠和大鼠)
Matsuoka AJ et al. (MAR 2017)
Stem cells translational medicine 6 3 923--936
Directed Differentiation of Human Embryonic Stem Cells Toward Placode-Derived Spiral Ganglion-Like Sensory Neurons.
The ability to generate spiral ganglion neurons (SGNs) from stem cells is a necessary prerequisite for development of cell-replacement therapies for sensorineural hearing loss. We present a protocol that directs human embryonic stem cells (hESCs) toward a purified population of otic neuronal progenitors (ONPs) and SGN-like cells. Between 82% and 95% of these cells express SGN molecular markers,they preferentially extend neurites to the cochlear nucleus rather than nonauditory nuclei,and they generate action potentials. The protocol follows an in vitro stepwise recapitulation of developmental events inherent to normal differentiation of hESCs into SGNs,resulting in efficient sequential generation of nonneuronal ectoderm,preplacodal ectoderm,early prosensory ONPs,late ONPs,and cells with cellular and molecular characteristics of human SGNs. We thus describe the sequential signaling pathways that generate the early and later lineage species in the human SGN lineage,thereby better describing key developmental processes. The results indicate that our protocol generates cells that closely replicate the phenotypic characteristics of human SGNs,advancing the process of guiding hESCs to states serving inner-ear cell-replacement therapies and possible next-generation hybrid auditory prostheses. textcopyright Stem Cells Translational Medicine 2017;6:923-936.
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产品类型:
产品号#:
05850
05857
05870
05875
05790
05792
05793
05794
05795
85850
85857
85870
85875
产品名:
BrainPhys™神经元培养基
BrainPhys™神经元培养基和SM1试剂盒
BrainPhys™ 神经元培养基N2-A和SM1试剂盒
BrainPhys™原代神经元试剂盒
BrainPhys™ hPSC 神经元试剂盒
mTeSR™1
mTeSR™1
Katikireddy KR et al. (OCT 2016)
The American Journal of Pathology 186 10 2736--2750
Existence of Neural CrestDerived Progenitor Cells in Normal and Fuchs Endothelial Dystrophy Corneal Endothelium
Human corneal endothelial cells are derived from neural crest and because of postmitotic arrest lack competence to repair cell loss from trauma,aging,and degenerative disorders such as Fuchs endothelial corneal dystrophy (FECD). Herein,we identified a rapidly proliferating subpopulation of cells from the corneal endothelium of adult normal and FECD donors that exhibited features of neural crest-derived progenitor (NCDP) cells by showing absence of senescence with passaging,propensity to form spheres,and increased colony forming efficacy compared with the primary cells. The collective expression of stem cell-related genes SOX2,OCT4,LGR5,TP63 (p63),as well as neural crest marker genes PSIP1 (p75(NTR)),PAX3,SOX9,AP2B1 (AP-2β),and NES,generated a phenotypic footprint of endothelial NCDPs. NCDPs displayed multipotency by differentiating into microtubule-associated protein 2,β-III tubulin,and glial fibrillary acidic protein positive neurons and into p75(NTR)-positive human corneal endothelial cells that exhibited transendothelial resistance of functional endothelium. In conclusion,we found that mitotically incompetent ocular tissue cells contain adult NCDPs that exhibit a profile of transcription factors regulating multipotency and neural crest progenitor characteristics. Identification of normal NCDPs in FECD-affected endothelium holds promise for potential autologous cell therapies.
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产品类型:
产品号#:
05835
05839
产品名:
STEMdiff™ 神经诱导培养基
STEMdiff™ 神经诱导培养基
Kaur G et al. (JUL 2013)
Journal of Clinical Neuroscience 20 7 1014--1018
Glioblastoma multiforme (GBM) is a grade IV malignant brain tumor with high mortality and has been well known to involve many molecular pathways,including G-protein coupled receptor (GPCR)-mediated signaling (such as epithelial growth factor receptor [EGFR] and platelet derived growth factor receptor [PDGFR]). G protein-coupled receptor kinases (GRK) directly regulate GPCR activity by phosphorylating activated agonist-bound receptors to desensitize signaling and internalize receptors through beta-arrestins. Recent studies in various cancers,including prostate and breast cancer,have highlighted the role of change in GRK expression to oncogenesis and tumor proliferation. In this study,we evaluated the expression of GRK5 in grade II to grade IV glioma specimens using immunohistochemistry and found that GRK5 expression levels are highly correlated with aggressiveness of glioma. We used culture conditions to selectively promote the growth of either glioblastoma cells with stem cell markers (GSC) or differentiated glioblastoma cells (DGC) from fresh GBM specimens. GSC are known to be highly invasive and mobile,and have the capacity to self-renew and are more resistant to chemotherapy and radiation compared to differentiated populations of GBM. We examined the expression of GRK5 in these two sets of culturing conditions for GBM cells and found that GRK5 expression is upregulated in GSC compared to differentiated GBM cells. To better understand the role of GRK5 in GBM-derived stem cells,we created stable GRK5 knockdown and evaluated the proliferation rate. Using an ATP chemiluminescence assay,we show,for the first time,that knocking down the expression of GRK5 decreased the proliferation rate of GSC in contrast to control.
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产品类型:
产品号#:
05750
05751
产品名:
NeuroCult™ NS-A 基础培养基(人)
NeuroCult™ NS-A 扩增试剂盒(人)
Li Z-H et al. (MAR 2014)
PLoS ONE 9 3 e91260
Nardosinone Improves the Proliferation, Migration and Selective Differentiation of Mouse Embryonic Neural Stem Cells
In this study,we investigated the impact of Nardosinone,a bioactive component in Nardostachys root,on the proliferation and differentiation of neural stem cells. The neural stem cells were isolated from cerebrums of embryonic day 14 CD1 mice. The proliferation of cells was monitored using the cell counting kit-8 assay,bromodeoxyuridine incorporation and cell cycle analysis. Cell migration and differentiation were investigated with the neurosphere assay and cell specific markers,respectively. The results showed that Nardosinone promotes cells proliferation and increases cells migration distance in a dose-dependent manner. Nardosinone also induces the selective differentiation of neural stem cells to neurons and oligodendrocytes,as indicated by the expression of microtubule-associated protein-2 and myelin basic protein,respectively. Nardosinone also increases the expression of phospho-extracellular signal-regulated kinase and phospho-cAMP response element binding protein during proliferation and differentiation. In conclusion,this study reveals the regulatory effects of Nardosinone on neural stem cells,which may have significant implications for the treatment of brain injury and neurodegenerative diseases.
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产品类型:
产品号#:
05700
05702
05704
产品名:
NeuroCult™ 基础培养基(小鼠和大鼠)
NeuroCult™扩增试剂盒(小鼠和大鼠)
NeuroCult™ 分化试剂盒(小鼠和大鼠)
Meco D et al. (AUG 2014)
Neuro-Oncology 16 8 1067--1077
Ependymoma stem cells are highly sensitive to temozolomide in vitro and in orthotopic models
BACKGROUND Ependymoma management remains challenging because of the inherent chemoresistance of this tumor. To determine whether ependymoma stem cells (SCs) might contribute to therapy resistance,we investigated the sensitivity of ependymoma SCs to temozolomide and etoposide. METHODS The efficacies of the two DNA damaging agents were explored in two ependymoma SC lines in vitro and in vivo models. RESULTS Ependymoma SC lines were highly sensitive to temozolomide and etoposide in vitro,but only temozolomide impaired tumor-initiation properties. Consistently,temozolomide but not etoposide showed significant antitumoral activity on ependymoma SC-driven subcutaneous and orthotopic xenografts by reducing the mitotic fraction. In vitro temozolomide at the EC50 (10 µM) induced accumulation of cells in the G2/M phase that was unexpectedly accompanied by downregulation of p27 and p21 without modulation of full-length p53 (FLp53). Differentiation-committed ependymoma SCs acquired resistance to temozolomide. Inhibition of proliferation was partly due to apoptosis,that occurred earlier in differentiated cells as compared to neurospheres. The activation of apoptosis correlated with an increase in p53β/γ isoforms without modulation of FLp53 under both serum-free and differentiation-promoting media. Incubation of cells in both conditions with temozolomide resulted in increased glioneuronal differentiation exhibiting elevated glial fibrillary acidic protein,galactosylceramidase,and βIII-tubulin expression compared to untreated controls. O(6)-methylguanine DNA methyltransferase (MGMT) transcript levels were very low in SCs,and were increased by treatment and,epigenetically,by differentiation through MGMT promoter unmethylation. CONCLUSION Ependymoma growth might be impaired by temozolomide through preferential depletion of a less differentiated,more tumorigenic,MGMT-negative cell population with stem-like properties.
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