Comparative analysis of the frequency and distribution of stem and progenitor cells in the adult mouse brain.
The neurosphere assay can detect and expand neural stem cells (NSCs) and progenitor cells,but it cannot discriminate between these two populations. Given two assays have purported to overcome this shortfall,we performed a comparative analysis of the distribution and frequency of NSCs and progenitor cells detected in 400 mum coronal segments along the ventricular neuraxis of the adult mouse brain using the neurosphere assay,the neural colony forming cell assay (N-CFCA),and label-retaining cell (LRC) approach. We observed a large variation in the number of progenitor/stem cells detected in serial sections along the neuraxis,with the number of neurosphere-forming cells detected in individual 400 mum sections varying from a minimum of eight to a maximum of 891 depending upon the rostral-caudal coordinate assayed. Moreover,the greatest variability occurred in the rostral portion of the lateral ventricles,thereby explaining the large variation in neurosphere frequency previously reported. Whereas the overall number of neurospheres (3730 +/- 276) or colonies (4275 +/- 124) we detected along the neuraxis did not differ significantly,LRC numbers were significantly reduced (1186 +/- 188,7 month chase) in comparison to both total colonies and neurospheres. Moreover,approximately two orders of magnitude fewer NSC-derived colonies (50 +/- 10) were detected using the N-CFCA as compared to LRCs. Given only 5% of the LRCs are cycling (BrdU+/Ki-67+) or competent to divide (BrdU+/Mcm-2+),and proliferate upon transfer to culture,it is unclear whether this technique selectively detects endogenous NSCs. Overall,caution should be taken with the interpretation and employment of all these techniques.
View Publication
Androgenetic embryonic stem cells form neural progenitor cells in vivo and in vitro.
Uniparental zygotes with two paternal (androgenetic [AG]) or two maternal (gynogenetic [GG]; parthenogenetic [PG]) genomes are not able to develop into viable offspring but can form blastocysts from which embryonic stem cells (ESCs) can be derived. Although some aspects of the in vitro and in vivo differentiation potential of PG and GG ESCs of several species have been studied,the developmental capacity of AG ESCs is much less clear. Here,we investigate the potential of murine AG ESCs to undergo neural differentiation. We observed that AG ESCs differentiate in vitro into pan-neural progenitor cells (pnPCs) that further give rise to cells that express neuronal- and astroglial-specific markers. Neural progeny of in vitro-differentiated AG ESCs exhibited fidelity of expression of six imprinted genes analyzed,with the exception of Ube3a. Bisulfite sequencing for two imprinting control regions suggested that pnPCs predominantly maintained their methylation pattern. Following blastocyst injection of AG and biparental (normal fertilized [N]) ESCs,we found widespread and evenly distributed contribution of ESC-derived cells in both AG and N chimeric early fetal brains. AG and N ESC-derived cells isolated from chimeric fetal brains by fluorescence-activated cell sorting exhibited similar neurosphere-initiating cell frequencies and neural multilineage differentiation potential. Our results indicate that AG ESC-derived neural progenitor/stem cells do not differ from N neural progenitor/stem cells in their self-renewal and neural multilineage differentiation potential. Disclosure of potential conflicts of interest is found at the end of this article.
View Publication
产品类型:
产品号#:
05703
产品名:
NeuroCult™ 分化添加物(小鼠和大鼠)
Huat TJ et al. (SEP 2015)
Genomics Data 5 201--205
MicroRNA expression profile of bone marrow mesenchymal stem cell-derived neural progenitor by microarray under the influence of EGF, bFGF and IGF-1
Recently there has been growing interest in the differentiation of mesenchymal stem cells (MSCs) into neural lineages. Research suggests that MSCs can be differentiated into neural progenitor-like cells (NPCs) under the specific influence of paracrine factors particularly epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF). Our recent research has found that the addition of insulin-like growth factor 1 (IGF-1) with the combination of the EGF and bFGF could significantly improve the growth and survivability of MSC-derived NPCs. To unravel the molecular mechanism of the improved differentiation we compared the microRNA expression profiles of the differentiation under various combinations of growth factors. MSCs were differentiated into neural lineage in 3 groups; Group A (EGF + bFGF),Group B (EGF + bFGF + IGF-1),and Group C (without growth factor). Regulated microRNAs during the early differentiation were identified by detailed microRNA profiling using Affymetrix GeneChip version 2.0 at three time intervals (day 1,day 3 and day 5). The data were deposited in the Gene Expression Omnibus,series GSE60060.
View Publication
产品类型:
产品号#:
05771
产品名:
Jhaveri DJ et al. (MAY 2015)
The Journal of neuroscience : the official journal of the Society for Neuroscience 35 21 8132--44
Purification of neural precursor cells reveals the presence of distinct, stimulus-specific subpopulations of quiescent precursors in the adult mouse hippocampus.
The activity of neural precursor cells in the adult hippocampus is regulated by various stimuli; however,whether these stimuli regulate the same or different precursor populations remains unknown. Here,we developed a novel cell-sorting protocol that allows the purification to homogeneity of neurosphere-forming neural precursors from the adult mouse hippocampus and examined the responsiveness of individual precursors to various stimuli using a clonal assay. We show that within the Hes5-GFP(+)/Nestin-GFP(+)/EGFR(+) cell population,which comprises the majority of neurosphere-forming precursors,there are two distinct subpopulations of quiescent precursor cells,one directly activated by high-KCl depolarization,and the other activated by norepinephrine (NE). We then demonstrate that these two populations are differentially distributed along the septotemporal axis of the hippocampus,and show that the NE-responsive precursors are selectively regulated by GABA,whereas the KCl-responsive precursors are selectively modulated by corticosterone. Finally,based on RNAseq analysis by deep sequencing,we show that the progeny generated by activating NE-responsive versus KCl-responsive quiescent precursors are molecularly different. These results demonstrate that the adult hippocampus contains phenotypically similar but stimulus-specific populations of quiescent precursors,which may give rise to neural progeny with different functional capacity.
View Publication
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)
Jiang P et al. (OCT 2014)
British Journal of Cancer 111 8 1562--1571
In vitro and in vivo anticancer effects of mevalonate pathway modulation on human cancer cells
BACKGROUND The increasing usage of statins (the 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors) has revealed a number of unexpected beneficial effects,including a reduction in cancer risk. METHODS We investigated the direct anticancer effects of different statins approved for clinical use on human breast and brain cancer cells. We also explored the effects of statins on cancer cells using in silico simulations. RESULTS In vitro studies showed that cerivastatin,pitavastatin,and fluvastatin were the most potent anti-proliferative,autophagy inducing agents in human cancer cells including stem cell-like primary glioblastoma cell lines. Consistently,pitavastatin was more effective than fluvastatin in inhibiting U87 tumour growth in vivo. Intraperitoneal injection was much better than oral administration in delaying glioblastoma growth. Following statin treatment,tumour cells were rescued by adding mevalonate and geranylgeranyl pyrophosphate. Knockdown of geranylgeranyl pyrophosphate synthetase-1 also induced strong cell autophagy and cell death in vitro and reduced U87 tumour growth in vivo. These data demonstrate that statins main effect is via targeting the mevalonate synthesis pathway in tumour cells. CONCLUSIONS Our study demonstrates the potent anticancer effects of statins. These safe and well-tolerated drugs need to be further investigated as cancer chemotherapeutics in comprehensive clinical studies.
View Publication
产品类型:
产品号#:
05700
05702
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)
Khaled WT et al. (JAN 2015)
Nature communications 6 5987
BCL11A is a triple-negative breast cancer gene with critical functions in stem and progenitor cells.
Triple-negative breast cancer (TNBC) has poor prognostic outcome compared with other types of breast cancer. The molecular and cellular mechanisms underlying TNBC pathology are not fully understood. Here,we report that the transcription factor BCL11A is overexpressed in TNBC including basal-like breast cancer (BLBC) and that its genomic locus is amplified in up to 38% of BLBC tumours. Exogenous BCL11A overexpression promotes tumour formation,whereas its knockdown in TNBC cell lines suppresses their tumourigenic potential in xenograft models. In the DMBA-induced tumour model,Bcl11a deletion substantially decreases tumour formation,even in p53-null cells and inactivation of Bcl11a in established tumours causes their regression. At the cellular level,Bcl11a deletion causes a reduction in the number of mammary epithelial stem and progenitor cells. Thus,BCL11A has an important role in TNBC and normal mammary epithelial cells. This study highlights the importance of further investigation of BCL11A in TNBC-targeted therapies.
View Publication
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)
Lavasani M et al. (APR 2014)
The Journal of clinical investigation 124 4 1745--56
Human muscle-derived stem/progenitor cells promote functional murine peripheral nerve regeneration.
Peripheral nerve injuries and neuropathies lead to profound functional deficits. Here,we have demonstrated that muscle-derived stem/progenitor cells (MDSPCs) isolated from adult human skeletal muscle (hMDSPCs) can adopt neuronal and glial phenotypes in vitro and ameliorate a critical-sized sciatic nerve injury and its associated defects in a murine model. Transplanted hMDSPCs surrounded the axonal growth cone,while hMDSPCs infiltrating the regenerating nerve differentiated into myelinating Schwann cells. Engraftment of hMDSPCs into the area of the damaged nerve promoted axonal regeneration,which led to functional recovery as measured by sustained gait improvement. Furthermore,no adverse effects were observed in these animals up to 18 months after transplantation. Following hMDSPC therapy,gastrocnemius muscles from mice exhibited substantially less muscle atrophy,an increase in muscle mass after denervation,and reorganization of motor endplates at the postsynaptic sites compared with those from PBS-treated mice. Evaluation of nerve defects in animals transplanted with vehicle-only or myoblast-like cells did not reveal histological or functional recovery. These data demonstrate the efficacy of hMDSPC-based therapy for peripheral nerve injury and suggest that hMDSPC transplantation has potential to be translated for use in human neuropathies.
View Publication
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)
Lee SJ et al. (DEC 2014)
Stem Cells and Development 23 23 2831--2840
Adult Stem Cells from the Hyaluronic Acid-Rich Node and Duct System Differentiate into Neuronal Cells and Repair Brain Injury
The existence of a hyaluronic acid-rich node and duct system (HAR-NDS) within the lymphatic and blood vessels was demonstrated previously. The HAR-NDS was enriched with small (3.0-5.0 μm in diameter),adult stem cells with properties similar to those of the very small embryonic-like stem cells (VSELs). Sca-1(+)Lin(-)CD45(-) cells were enriched approximately 100-fold in the intravascular HAR-NDS compared with the bone marrow. We named these adult stem cells node and duct stem cells (NDSCs)." NDSCs formed colonies on C2C12 feeder layers were positive for fetal alkaline phosphatase and could be subcultured on the feeder layers. NDSCs were Oct4(+)Nanog(+)SSEA-1(+)Sox2(+) while VSELs were Oct4(+)Nanog(+)SSEA-1(+)Sox2(-). NDSCs had higher sphere-forming efficiency and proliferative potential than VSELs and they were found to differentiate into neuronal cells in vitro. Injection of NDSCs into mice partially repaired ischemic brain damage. Thus we report the discovery of potential adult stem cells that may be involved in tissue regeneration. The intravascular HAR-NDS may serve as a route that delivers these stem cells to their target tissues.
View Publication
产品类型:
产品号#:
05700
产品名:
NeuroCult™ 基础培养基(小鼠和大鼠)
Li Q et al. (AUG 2016)
Scientific reports 6 31915
Scalable Production of Glioblastoma Tumor-initiating Cells in 3 Dimension Thermoreversible Hydrogels.
There is growing interest in developing drugs that specifically target glioblastoma tumor-initiating cells (TICs). Current cell culture methods,however,cannot cost-effectively produce the large numbers of glioblastoma TICs required for drug discovery and development. In this paper we report a new method that encapsulates patient-derived primary glioblastoma TICs and grows them in 3 dimension thermoreversible hydrogels. Our method allows long-term culture (˜50 days,10 passages tested,accumulative ˜>10(10)-fold expansion) with both high growth rate (˜20-fold expansion/7 days) and high volumetric yield (˜2.0%A-%10(7)%cells/ml) without the loss of stemness. The scalable method can be used to produce sufficient,affordable glioblastoma TICs for drug discovery.
View Publication
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)
Maire C et al. (JAN 2014)
STEM CELLS 32 1 313--326
Pten Loss in Olig2 Expressing Neural Progenitor Cells and Oligodendrocytes Leads to Interneuron Dysplasia and Leukodystrophy
Therapeutic modulation of phosphatidylinositol 3-kinase (PI3K)/PTEN signaling is currently being explored for multiple neurological indications including brain tumors and seizure disorders associated with cortical malformations. The effects of PI3K/PTEN signaling are highly cell context dependent but the function of this pathway in specific subsets of neural stem/progenitor cells generating oligodendroglial lineage cells has not been fully studied. To address this,we created Olig2-cre:Pten(fl/fl) mice that showed a unique pattern of Pten loss and PI3K activation in Olig2-lineage cells. Olig2-cre:Pten(fl/fl) animals progressively developed central nervous system white matter hypermyelination by 3 weeks of age leading to later onset leukodystrophy,chronic neurodegeneration,and death by 9 months. In contrast,during immediate postnatal development,oligodendroglia were unaffected but abnormal and accelerated differentiation of lateral subventricular zone stem cells produced calretinin-positive interneuron dysplasia. Neural stem cells isolated from Olig2-cre:Pten(fl/fl) mice also exhibited accelerated differentiation and proliferation into calretinin-positive interneurons and oligodendrocytes indicating such effects are cell autonomous. Opposition of the pathway by treatment of human primary neural progenitor cells (NPCs) with the PI3K inhibitor,NVP-BKM120,blocked in vitro differentiation of neurons and oligodendroglia indicating PI3K/PTEN effects on NPCs can be bidirectional. In summary,our results suggest Pten is a developmental rheostat regulating interneuron and oligodendroglial differentiation and support testing of PI3K modulating drugs as treatment for developmental and myelination disorders. However,such agents may need to be administered at ages that minimize potential effects on early stem/progenitor cell development.
View Publication
产品类型:
产品号#:
05700
05701
05702
05750
05751
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™ NS-A 基础培养基(人)
NeuroCult™ NS-A 扩增试剂盒(人)
Maricque BB et al. (FEB 2017)
Nucleic acids research 45 4 e16
A genome-integrated massively parallel reporter assay reveals DNA sequence determinants of cis-regulatory activity in neural cells.
Recent large-scale genomics efforts to characterize the cis-regulatory sequences that orchestrate genome-wide expression patterns have produced impressive catalogues of putative regulatory elements. Most of these sequences have not been functionally tested,and our limited understanding of the non-coding genome prevents us from predicting which sequences are bona fide cis-regulatory elements. Recently,massively parallel reporter assays (MPRAs) have been deployed to measure the activity of putative cis-regulatory sequences in several biological contexts,each with specific advantages and distinct limitations. We developed LV-MPRA,a novel lentiviral-based,massively parallel reporter gene assay,to study the function of genome-integrated regulatory elements in any mammalian cell type; thus,making it possible to apply MPRAs in more biologically relevant contexts. We measured the activity of 2,600 sequences in U87 glioblastoma cells and human neural progenitor cells (hNPCs) and explored how regulatory activity is encoded in DNA sequence. We demonstrate that LV-MPRA can be applied to estimate the effects of local DNA sequence and regional chromatin on regulatory activity. Our data reveal that primary DNA sequence features,such as GC content and dinucleotide composition,accurately distinguish sequences with high activity from sequences with low activity in a full chromosomal context,and may also function in combination with different transcription factor binding sites to determine cell type specificity. We conclude that LV-MPRA will be an important tool for identifying cis-regulatory elements and stimulating new understanding about how the non-coding genome encodes information.
View Publication
产品类型:
产品号#:
05833
05710
05835
05839
产品名:
STEMdiff™神经前体细胞培养基
STEMdiff™ 神经诱导培养基
STEMdiff™ 神经诱导培养基
Relañ et al. (AUG 2013)
PLoS Pathogens 9 8 e1003485
Prion Replication Occurs in Endogenous Adult Neural Stem Cells and Alters Their Neuronal Fate: Involvement of Endogenous Neural Stem Cells in Prion Diseases
Prion diseases are irreversible progressive neurodegenerative diseases,leading to severe incapacity and death. They are characterized in the brain by prion amyloid deposits,vacuolisation,astrocytosis,neuronal degeneration,and by cognitive,behavioural and physical impairments. There is no treatment for these disorders and stem cell therapy therefore represents an interesting new approach. Gains could not only result from the cell transplantation,but also from the stimulation of endogenous neural stem cells (NSC) or by the combination of both approaches. However,the development of such strategies requires a detailed knowledge of the pathology,particularly concerning the status of the adult neurogenesis and endogenous NSC during the development of the disease. During the past decade,several studies have consistently shown that NSC reside in the adult mammalian central nervous system (CNS) and that adult neurogenesis occurs throughout the adulthood in the subventricular zone of the lateral ventricle or the Dentate Gyrus of the hippocampus. Adult NSC are believed to constitute a reservoir for neuronal replacement during normal cell turnover or after brain injury. However,the activation of this system does not fully compensate the neuronal loss that occurs during neurodegenerative diseases and could even contribute to the disease progression. We investigated here the status of these cells during the development of prion disorders. We were able to show that NSC accumulate and replicate prions. Importantly,this resulted in the alteration of their neuronal fate which then represents a new pathologic event that might underlie the rapid progression of the disease.
View Publication