Dobie FA and Craig AM (JUL 2011)
The Journal of neuroscience : the official journal of the Society for Neuroscience 31 29 10481--93
Inhibitory synapse dynamics: coordinated presynaptic and postsynaptic mobility and the major contribution of recycled vesicles to new synapse formation.
Dynamics of GABAergic synaptic components have been studied previously over milliseconds to minutes,revealing mobility of postsynaptic scaffolds and receptors. Here we image inhibitory synapses containing fluorescently tagged postsynaptic scaffold Gephyrin,together with presynaptic vesicular GABA transporter (VGAT) or postsynaptic GABA(A) receptor γ2 subunit (GABA(A)Rγ2),over seconds to days in cultured rat hippocampal neurons,revealing modes of inhibitory synapse formation and remodeling. Entire synapses were mobile,translocating rapidly within a confined region and exhibiting greater nonstochastic motion over multihour periods. Presynaptic and postsynaptic components moved in unison,maintaining close apposition while translocating distances of several micrometers. An observed flux in the density of synaptic puncta partially resulted from the apparent merging and splitting of preexisting clusters. De novo formation of inhibitory synapses was observed,marked by the appearance of stably apposed Gephyrin and VGAT clusters at sites previously lacking either component. Coclustering of GABA(A)Rγ2 supports the identification of such new clusters as synapses. Nascent synapse formation occurred by gradual accumulation of components over several hours,with VGAT clustering preceding that of Gephyrin and GABA(A)Rγ2. Comparing VGAT labeling by active uptake of a luminal domain antibody with post hoc immunocytochemistry indicated that recycling vesicles from preexisting boutons significantly contribute to vesicle pools at the majority of new inhibitory synapses. Although new synapses formed primarily on dendrite shafts,some also formed on dendritic protrusions,without apparent interconversion. Altogether,the long-term imaging of GABAergic presynaptic and postsynaptic components reveals complex dynamics and perpetual remodeling with implications for mechanisms of assembly and synaptic integration.
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产品类型:
产品号#:
05711
100-1281
产品名:
NeuroCult™ SM1 神经添加物
NeuroCult™ SM1 神经添加物
Zhang Z and Alexanian AR (MAY 2014)
Journal of tissue engineering and regenerative medicine 8 5 407--413
The neural plasticity of early-passage human bone marrow-derived mesenchymal stem cells and their modulation with chromatin-modifying agents.
Mesenchymal stem cells (MSCs) in their immature state express a variety of genes of the three germ layers at relatively low or moderate levels that might explain their phenomenal plasticity. Numerous recent studies have demonstrated that under the appropriate conditions in vitro and in vivo the expression of different sets of these genes can be upregulated,turning MSCs into variety of cell lineages of mesodermal,ectodermal and endodermal origin. While transdifferentiation of MSCs is still controversial,these unique properties make MSCs an ideal autologous source of easily reprogrammable cells. Recently,using the approach of cell reprogramming by biological active compounds that interfere with chromatin structure and function,as well as with specific signalling pathways that promote neural fate commitment,we have been able to generate neural-like cells from human bone marrow (BM)-derived MSCs (hMSCs). However,the efficiency of neural transformation of hMSCs induced by this approach gradually declined with passaging. To elucidate the mechanisms that underlie the higher plasticity of early-passage hMSCs,comparative analysis of the expression levels of several pluripotent and neural genes was conducted for early- and late-passage hMSCs. The results demonstrated that early-passage hMSCs expressed the majority of these genes at low and moderate levels that gradually declined at late passages. Neural induction further increased the expression of some of these genes in hMSCs,accompanied by morphological changes into neural-like cells. We concluded that low and moderate expression of several pluripotent and neural genes in early-passage hMSCs could explain their higher plasticity and pliability for neural induction. Copyright textcopyright 2012 John Wiley & Sons,Ltd.
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产品类型:
产品号#:
05850
05857
05870
05875
05710
85850
85857
85870
85875
产品名:
mTeSR™1
mTeSR™1
Ostrakhovitch EA et al. (DEC 2012)
Archives of biochemistry and biophysics 528 1 21--31
Directed differentiation of embryonic P19 cells and neural stem cells into neural lineage on conducting PEDOT-PEG and ITO glass substrates.
Differentiation of pluripotent and lineage restricted stem cells such as neural stem cells (NSCs) was studied on conducting substrates of various nature without perturbation of the genome with exogenous genetic material or chemical stimuli. Primary mouse adult neural stem cells (NSCs) and P19 pluripotent embryonal (P19 EC) carcinoma cells were used. Expression levels of neuronal markers β-III-tubulin and neurofilament were evaluated by immunochemistry and flow cytometry. It was shown that the ability of the substrate to induce differentiation directly correlated with its conductivity. Conducting substrates (conducting oxides or doped pi-conjugated organic polymers) with different morphology,structure,and conductivity mechanisms all promoted differentiation of NSC and P19 cells into neuronal lineage to a similar degree without use of additional factors such as poly-L-ornithine coating or retinoic acid,as verified by their morphology and upregulation of the neuronal markers but not astrocyte marker GFAP. However,substrates with low conductance below ca. 10(-4) S cm(-2) did not show this ability. Morphology of differentiating cells was visualized by atomic force microscopy. NSCs cells increased β-III-tubulin expression by 95% and P19 cells by over 30%. Our results suggest that the substrate conductivity is a key factor governing the cell fate. Differentiation of P19 cells into neuronal lineage on conducting substrates was attributed to downregualtion of Akt signaling pathway and increase in expression of dual oxidase 1 (DUOX 1).
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产品类型:
产品号#:
05700
05701
05702
05703
05704
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™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)
NeuroCult™成年中枢神经系统(CNS)组织酶解试剂盒(小鼠和大鼠)
Belkind-Gerson J et al. (JAN 2013)
Neurogastroenterology and motility : the official journal of the European Gastrointestinal Motility Society 25 1 61--9.e7
Nestin-expressing cells in the gut give rise to enteric neurons and glial cells.
BACKGROUND Neuronal stem cells (NSCs) are promising for neurointestinal disease therapy. Although NSCs have been isolated from intestinal musclularis,their presence in mucosa has not been well described. Mucosa-derived NSCs are accessible endoscopically and could be used autologously. Brain-derived Nestin-positive NSCs are important in endogenous repair and plasticity. The aim was to isolate and characterize mucosa-derived NSCs,determine their relationship to Nestin-expressing cells and to demonstrate their capacity to produce neuroglial networks in vitro and in vivo. METHODS Neurospheres were generated from periventricular brain,colonic muscularis (Musc),and mucosa-submucosa (MSM) of mice expressing green fluorescent protein (GFP) controlled by the Nestin promoter (Nestin-GFP). Neuronal stem cells were also grown as adherent colonies from intestinal mucosal organoids. Their differentiation potential was assessed using immunohistochemistry using glial and neuronal markers. Brain and gut-derived neurospheres were transplanted into explants of chick embryonic aneural hindgut to determine their fate. KEY RESULTS Musc- and MSM-derived neurospheres expressed Nestin and gave rise to cells of neuronal,glial,and mesenchymal lineage. Although Nestin expression in tissue was mostly limited to glia co-labelled with glial fibrillary acid protein (GFAP),neurosphere-derived neurons and glia both expressed Nestin in vitro,suggesting that Nestin+/GFAP+ glial cells may give rise to new neurons. Moreover,following transplantation into aneural colon,brain- and gut-derived NSCs were able to differentiate into neurons. CONCLUSIONS & INFERENCES Nestin-expressing intestinal NSCs cells give rise to neurospheres,differentiate into neuronal,glial,and mesenchymal lineages in vitro,generate neurons in vivo and can be isolated from mucosa. Further studies are needed for exploring their potential for treating neuropathies.
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产品类型:
产品号#:
05700
05701
05702
05703
05704
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™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)
NeuroCult™成年中枢神经系统(CNS)组织酶解试剂盒(小鼠和大鼠)
Gerardo Valadez J et al. (JAN 2013)
Cancer letters 328 2 297--306
Identification of Hedgehog pathway responsive glioblastomas by isocitrate dehydrogenase mutation.
The Hedgehog (Hh) pathway regulates the growth of a subset of adult gliomas and better definition of Hh-responsive subtypes could enhance the clinical utility of monitoring and targeting this pathway in patients. Somatic mutations of the isocitrate dehydrogenase (IDH) genes occur frequently in WHO grades II and III gliomas and WHO grade IV secondary glioblastomas. Hh pathway activation in WHO grades II and III gliomas suggests that it might also be operational in glioblastomas that developed from lower-grade lesions. To evaluate this possibility and to better define the molecular and histopathological glioma subtypes that are Hh-responsive,IDH genes were sequenced in adult glioma specimens assayed for an operant Hh pathway. The proportions of grades II-IV specimens with IDH mutations correlated with the proportions that expressed elevated levels of the Hh gene target PTCH1. Indices of an operational Hh pathway were measured in all primary cultures and xenografts derived from IDH-mutant glioma specimens,including IDH-mutant glioblastomas. In contrast,the Hh pathway was not operational in glioblastomas that lacked IDH mutation or history of antecedent lower-grade disease. IDH mutation is not required for an operant pathway however,as significant Hh pathway modulation was also measured in grade III gliomas with wild-type IDH sequences. These results indicate that the Hh pathway is operational in grades II and III gliomas and glioblastomas with molecular or histopathological evidence for evolvement from lower-grade gliomas. Lastly,these findings suggest that gliomas sharing this molecularly defined route of progression arise in Hh-responsive cell types.
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产品类型:
产品号#:
05751
产品名:
NeuroCult™ NS-A 扩增试剂盒(人)
Maynard KR and Stein E (NOV 2012)
The Journal of neuroscience : the official journal of the Society for Neuroscience 32 47 16637--50
DSCAM contributes to dendrite arborization and spine formation in the developing cerebral cortex.
Down syndrome cell adhesion molecule,or DSCAM,has been implicated in many neurodevelopmental processes including axon guidance,dendrite arborization,and synapse formation. Here we show that DSCAM plays an important role in regulating the morphogenesis of cortical pyramidal neurons in the mouse. We report that DSCAM expression is developmentally regulated and localizes to synaptic plasma membranes during a time of robust cortical dendrite arborization and spine formation. Analysis of mice that carry a spontaneous mutation in DSCAM (DSCAM(del17)) revealed gross morphological changes in brain size and shape in addition to subtle changes in cortical organization,volume,and lamination. Early postnatal mutant mice displayed a transient decrease in cortical thickness,but these reductions could not be attributed to changes in neuron production or cell death. DSCAM(del17) mutants showed temporary impairments in the branching of layer V pyramidal neuron dendrites at P10 and P17 that recovered to normal by adulthood. Defects in DSCAM(del17) dendrite branching correlated with a temporal increase in apical branch spine density and lasting changes in spine morphology. At P15 and P42,mutant mice displayed a decrease in the percentage of large,stable spines and an increase in the percentage of small,immature spines. Together,our findings suggest that DSCAM contributes to pyramidal neuron morphogenesis by regulating dendrite arborization and spine formation during cortical circuit development.
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产品类型:
产品号#:
05715
产品名:
NeuroCult™成年中枢神经系统(CNS)组织酶解试剂盒(小鼠和大鼠)
Binda E et al. (DEC 2012)
Cancer cell 22 6 765--80
The EphA2 receptor drives self-renewal and tumorigenicity in stem-like tumor-propagating cells from human glioblastomas.
In human glioblastomas (hGBMs),tumor-propagating cells with stem-like characteristics (TPCs) represent a key therapeutic target. We found that the EphA2 receptor tyrosine kinase is overexpressed in hGBM TPCs. Cytofluorimetric sorting into EphA2(High) and EphA2(Low) populations demonstrated that EphA2 expression correlates with the size and tumor-propagating ability of the TPC pool in hGBMs. Both ephrinA1-Fc,which caused EphA2 downregulation in TPCs,and siRNA-mediated knockdown of EPHA2 expression suppressed TPCs self-renewal ex vivo and intracranial tumorigenicity,pointing to EphA2 downregulation as a causal event in the loss of TPCs tumorigenicity. Infusion of ephrinA1-Fc into intracranial xenografts elicited strong tumor-suppressing effects,suggestive of therapeutic applications.
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产品类型:
产品号#:
05751
产品名:
NeuroCult™ NS-A 扩增试剂盒(人)
Conte D et al. (JAN 2012)
PloS one 7 12 e52167
Loss of Atrx sensitizes cells to DNA damaging agents through p53-mediated death pathways.
Prevalent cell death in forebrain- and Sertoli cell-specific Atrx knockout mice suggest that Atrx is important for cell survival. However,conditional ablation in other tissues is not associated with increased death indicating that diverse cell types respond differently to the loss of this chromatin remodeling protein. Here,primary macrophages isolated from Atrx(f/f) mice were infected with adenovirus expressing Cre recombinase or β-galactosidase,and assayed for cell survival under different experimental conditions. Macrophages survive without Atrx but undergo rapid apoptosis upon lipopolysaccharide (LPS) activation suggesting that chromatin reorganization in response to external stimuli is compromised. Using this system we next tested the effect of different apoptotic stimuli on cell survival. We observed that survival of Atrx-null cells were similar to wild type cells in response to serum withdrawal,anti-Fas antibody,C2 ceramide or dexamethasone treatment but were more sensitive to 5-fluorouracil (5-FU). Cell survival could be rescued by re-introducing Atrx or by removal of p53 demonstrating the cell autonomous nature of the effect and its p53-dependence. Finally,we demonstrate that multiple primary cell types (myoblasts,embryonic fibroblasts and neurospheres) were sensitive to 5-FU,cisplatin,and UV light treatment. Together,our results suggest that cells lacking Atrx are more sensitive to DNA damaging agents and that this may result in enhanced death during development when cells are at their proliferative peak. Moreover,it identifies potential treatment options for cancers associated with ATRX mutations,including glioblastoma and pancreatic neuroendocrine tumors.
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产品类型:
产品号#:
05700
05701
05702
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)
Morrison BJ et al. (JAN 2012)
PloS one 7 12 e52692
Proteomic comparison of mcf-7 tumoursphere and monolayer cultures.
Breast cancer is a heterogenous disease,composed of tumour cells with differing gene expressions and phenotypes. Very few antigens have been identified and a better understanding of tumour initiating-cells as targets for therapy is critically needed. Recently,a rare subpopulation of cells within tumours has been described with the ability to: (i) initiate and sustain tumour growth; (ii) resist traditional therapies and allow for secondary tumour dissemination; and (iii) display some of the characteristics of stem cells such as self-renewal. These cells are termed tumour-initiating cells or cancer stem cells,or alternatively,in the case of breast cancer,breast cancer stem cells. Previous studies have demonstrated that breast cancer stem cells can be enriched for in tumoursphere" culture. Proteomics represents a novel way to investigate protein expression between cells. We hypothesise that characterisation of the proteome of the breast cancer line MCF-7 tumourspheres compared to adherent/differentiated cells identifies proteins of novel interest for further isolating or targeting breast cancer stem cells. We present evidence that: (i) the proteome of adherent cells is different to the proteome of cells grown in sphere medium from either early passage (passage 2) or late passage (passage 5) spheres; (ii) that spheres are enriched in expression of a variety of tumour-relevant proteins (including MUC1 and Galectin-3); and (iii) that targeting of one of these identified proteins (galectin-3) using an inhibitor (N-acetyllactosamine) decreases sphere formation/self-renewal of MCF-7 cancer stem cells in vitro and tumourigenicity in vivo. Hence�
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产品类型:
产品号#:
05751
产品名:
NeuroCult™ NS-A 扩增试剂盒(人)
M. \vCan\vcer et al. (dec 2019)
Cell Stem Cell 25 6 855--870.e11
Humanized Stem Cell Models of Pediatric Medulloblastoma Reveal an Oct4/mTOR Axis that Promotes Malignancy
Medulloblastoma (MB),the most frequent malignant childhood brain tumor,can arise from cellular malfunctions during hindbrain development. Here we generate humanized models for Sonic Hedgehog (SHH)-subgroup MB via MYCN overexpression in primary human hindbrain-derived neuroepithelial stem (hbNES) cells or iPSC-derived NES cells,which display a range of aggressive phenotypes upon xenografting. iPSC-derived NES tumors develop quickly with leptomeningeal dissemination,whereas hbNES-derived cells exhibit delayed tumor formation with less dissemination. Methylation and expression profiling show that tumors from both origins recapitulate hallmarks of infant SHH MB and reveal that mTOR activation,as a result of increased Oct4,promotes aggressiveness of human SHH tumors. Targeting mTOR decreases cell viability and prolongs survival,showing the utility of these varied models for dissecting mechanisms mediating tumor aggression and demonstrating the value of humanized models for a better understanding of pediatric cancers.
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产品类型:
产品号#:
05752
产品名:
NeuroCult™ NS-A 分化试剂盒(人)
J. M. Crook and E. Tomaskovic-Crook ( 2017)
Methods in molecular biology (Clifton,N.J.) 1590 199--206
Culturing and Cryobanking Human Neural Stem Cells.
The discovery and study of human neural stem cells has advanced our understanding of human neurogenesis,and the development of novel therapeutics based on neural cell replacement. Here,we describe methods to culture and cryopreserve human neural stem cells (hNSCs) for expansion and banking. Importantly,the protocols ensure that the multipotency of hNSCs is preserved to enable differentiation to neurons and supporting neuroglia.
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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)
K. M. Wilson et al. ( 2019)
SLAS technology 24 1 28--40
Mutation Profiles in Glioblastoma 3D Oncospheres Modulate Drug Efficacy.
Glioblastoma (GBM) is a lethal brain cancer with a median survival time of approximately 15 months following treatment. Common in vitro GBM models for drug screening are adherent and do not recapitulate the features of human GBM in vivo. Here we report the genomic characterization of nine patient-derived,spheroid GBM cell lines that recapitulate human GBM characteristics in orthotopic xenograft models. Genomic sequencing revealed that the spheroid lines contain alterations in GBM driver genes such as PTEN,CDKN2A,and NF1. Two spheroid cell lines,JHH-136 and JHH-520,were utilized in a high-throughput drug screen for cell viability using a 1912-member compound library. Drug mechanisms that were cytotoxic in both cell lines were Hsp90 and proteasome inhibitors. JHH-136 was uniquely sensitive to topoisomerase 1 inhibitors,while JHH-520 was uniquely sensitive to Mek inhibitors. Drug combination screening revealed that PI3 kinase inhibitors combined with Mek or proteasome inhibitors were synergistic. However,animal studies to test these drug combinations in vivo revealed that Mek inhibition alone was superior to the combination treatments. These data show that these GBM spheroid lines are amenable to high-throughput drug screening and that this dataset may deliver promising therapeutic leads for future GBM preclinical studies.
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