Stadtfeld M et al. (MAR 2008)
Cell stem cell 2 3 230--40
Defining molecular cornerstones during fibroblast to iPS cell reprogramming in mouse.
Ectopic expression of the transcription factors Oct4,Sox2,c-Myc,and Klf4 in fibroblasts generates induced pluripotent stem (iPS) cells. Little is known about the nature and sequence of molecular events accompanying nuclear reprogramming. Using doxycycline-inducible vectors,we have shown that exogenous factors are required for about 10 days,after which cells enter a self-sustaining pluripotent state. We have identified markers that define cell populations prior to and during this transition period. While downregulation of Thy1 and subsequent upregulation of SSEA-1 occur at early time points,reactivation of endogenous Oct4,Sox2,telomerase,and the silent X chromosome mark late events in the reprogramming process. Cell sorting with these markers allows for a significant enrichment of cells with the potential to become iPS cells. Our results suggest that factor-induced reprogramming is a gradual process with defined intermediate cell populations that contain the majority of cells poised to become iPS cells.
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产品类型:
产品号#:
72742
产品名:
强力霉素(盐酸盐)
Korkaya H et al. (OCT 2008)
Oncogene 27 47 6120--30
HER2 regulates the mammary stem/progenitor cell population driving tumorigenesis and invasion.
The cancer stem cell hypothesis proposes that cancers arise in stem/progenitor cells through disregulation of self-renewal pathways generating tumors,which are driven by a component of 'tumor-initiating cells' retaining stem cell properties. The HER2 gene is amplified in 20-30% of human breast cancers and has been implicated in mammary tumorigenesis as well as in mediating aggressive tumor growth and metastasis. We demonstrate that HER2 overexpression drives mammary carcinogenesis,tumor growth and invasion through its effects on normal and malignant mammary stem cells. HER2 overexpression in normal mammary epithelial cells (NMEC) increases the proportion of stem/progenitor cells as demonstrated by in vitro mammosphere assays and the expression of stem cell marker aldehyde dehydrogenase (ALDH) as well as by generation of hyperplastic lesions in humanized fat pads of NOD (nucleotide-binding oligomerization domain)/SCID (severe combined immunodeficient) mice. Overexpression of HER2 in a series of breast carcinoma cell lines increases the ALDH-expressing 'cancer stem cell' population which displays increased expression of stem cell regulatory genes,increased invasion in vitro and increased tumorigenesis in NOD/SCID mice. The effects of HER2 overexpression on breast cancer stem cells are blocked by trastuzumab in sensitive,but not resistant,cell lines,an effect mediated by the PI3-kinase/Akt pathway. These studies provide support for the cancer stem cell hypothesis by suggesting that the effects of HER2 amplification on carcinogenesis,tumorigenesis and invasion may be due to its effects on normal and malignant mammary stem/progenitor cells. Furthermore,the clinical efficacy of trastuzumab may relate to its ability to target the cancer stem cell population in HER2-amplified tumors.
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产品类型:
产品号#:
01700
01705
01702
产品名:
ALDEFLUOR™ 试剂盒
ALDEFLUOR™ DEAB试剂, 1.5 mM, 1 mL
ALDEFLUOR™检测缓冲液
Zhou J et al. (JUN 2009)
Immunity 30 6 845--59
Notch and wingless signaling cooperate in regulation of dendritic cell differentiation.
Dendritic cell (DC) differentiation is regulated by stroma via a network of soluble and cell-bound factors. Notch is one of the major elements of this network. Its role in DC differentiation,however,is controversial. Here,we demonstrate that activation of Notch signaling in hematopoietic progenitor cells (HPCs) promoted differentiation of conventional DCs via activation of the canonical Wingless (Wnt) pathway. Inhibition of the Wnt pathway abrogated the effect of Notch on DC differentiation. The fact that activation of the Wnt pathway in Notch-1-deficient embryonic stem cells restored DC differentiation indicates that Wnt signaling is downstream of the Notch pathway in regulating DC differentiation. Notch signaling activated the Wnt pathway in HPCs via expression of multiple members of the Frizzled family of Wnt receptors,which was directly regulated by the CSL (RPB-Jkappa) transcription factor. Thus,these data suggest a model of DC differentiation via cooperation between Wnt and Notch pathways.
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产品类型:
产品号#:
72872
72874
产品名:
SB216763
Chin ACP et al. (JUN 2010)
Stem cells and development 19 6 753--61
Defined and serum-free media support undifferentiated human embryonic stem cell growth.
Four commercially available serum-free and defined culture media tested on 2 human embryonic stem cell (hESC) lines were all found to support undifferentiated growth for textgreater10 continuous passages. For hESC cultured with defined StemPro and mTeSR1 media,the cells were maintained feeder-free on culture dishes coated with extracellular matrices (ECMs) with no requirement of feeder-conditioned media (CM). For xeno-free serum replacer (XSR),HEScGRO,and KnockOut media,mitotically inactivated human foreskin feeders (hFFs) were required for hESC growth. Under the different media conditions,cells continued to exhibit alkaline phosphatase activity and expressed undifferentiated hESC markers Oct-4,stage-specific embryonic antigens 4 (SSEA-4),and Tra-1-60. In addition,hESC maintained the expression of podocalyxin-like protein-1 (PODXL),an antigen recently reported in another study to be present in undifferentiated hESC. The cytotoxic antibody mAb 84 binds via PODXL expressed on hESC surface and kills textgreater90% of hESC within 45 min of incubation. When these cells were spontaneously differentiated to form embryoid bodies,derivatives representing the 3 germ layers were obtained. Injection of hESC into animal models resulted in teratomas and the formation of tissue types indicative of ectodermal,endodermal,and mesodermal lineages were observed. Our data also suggested that StemPro and mTeSR1 media were more optimal for hESC proliferation compared to cells grown on CM because the growth rate of hESC increased by 30%-40%,higher split ratio was thus required for weekly passaging. This is advantageous for the large-scale cultivation of hESC required in clinical applications.
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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
Stewart A et al. (JUN 2010)
Journal of cellular physiology 223 3 658--66
BMP-3 promotes mesenchymal stem cell proliferation through the TGF-beta/activin signaling pathway.
Adipogenesis plays a key role in the pathogenesis of obesity. It begins with the commitment of mesenchymal stem cells (MSCs) to the adipocyte lineage,followed by terminal differentiation of preadipocytes to mature adipocytes. A critical,but poorly understood,component of adipogenesis involves proliferation of MSCs and preadipocytes. The present study was undertaken to examine the hypothesis that bone morphogenetic protein-3 (BMP-3) promotes adipogenesis using C3H10T1/2 MSCs and 3T3-L1 preadipocytes as in vitro model systems. We demonstrated that although it did not promote the commitment of MSCs to the adipocyte lineage or the differentiation of preadipocytes to adipocytes,BMP-3-stimulated proliferation by threefold in both cell types. Owing to a lack of information on MSC proliferation,we then delineated the molecular mechanisms underlying BMP-3-stimulated MSC proliferation. We showed that BMP-3 activated the transforming growth factor-beta (TGF-beta)/activin but not ERK1/2,p38 MAPK,or JNK signaling pathways in C3H10T1/2 cells. Furthermore,the TGF-beta/activin receptor kinase inhibitor SB-431542 blocked BMP-3-stimulated proliferation. Importantly,siRNA-mediated knockdown of the key TGF-beta/activin signaling pathway components,ActRIIB,ALK4,or Smad2,abrogated the mitogenic effects of BMP-3 on MSCs. Together,these results demonstrate that BMP-3 stimulates MSC proliferation via the TGF-beta/activin signaling pathway,thus revealing a novel role for this divergent and poorly understood member of the TGF-beta superfamily in regulating MSC proliferation.
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产品类型:
产品号#:
72632
72634
产品名:
SB202190
SB202190
Bratt-Leal A et al. (JAN 2011)
Biomaterials 32 1 48--56
Incorporation of biomaterials in multicellular aggregates modulates pluripotent stem cell differentiation.
Biomaterials are increasingly being used to engineer the biochemical and biophysical properties of the extracellular stem cell microenvironment in order to tailor niche characteristics and direct cell phenotype. To date,stem cell-biomaterial interactions have largely been studied by introducing stem cells into artificial environments,such as 2D cell culture on biomaterial surfaces,encapsulation of cell suspensions within hydrogel materials,or cell seeding on 3D polymeric scaffolds. In this study,microparticles fabricated from different materials,such as agarose,PLGA and gelatin,were stably integrated,in a dose-dependent manner,within aggregates of pluripotent stem cells (PSCs) prior to differentiation as a means to directly examine stem cell-biomaterial interactions in 3D. Interestingly,the presence of the materials within the stem cell aggregates differentially modulated the gene and protein expression patterns of several differentiation markers without adversely affecting cell viability. Microparticle incorporation within 3D stem cell aggregates can control the spatial presentation of extracellular environmental cues (i.e. soluble factors,extracellular matrix and intercellular adhesion molecules) as a means to direct the differentiation of stem cells for tissue engineering and regenerative medicine applications. In addition,these results suggest that the physical presence of microparticles within stem cell aggregates does not compromise PSC differentiation,but in fact the choice of biomaterials can impact the propensity of stem cells to adopt particular differentiated cell phenotypes.
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Complex regulatory networks influence pluripotent cell state transitions in human iPSCs
Stem cells exist in vitro in a spectrum of interconvertible pluripotent states. Analyzing hundreds of hiPSCs derived from different individuals,we show the proportions of these pluripotent states vary considerably across lines. We discover 13 gene network modules (GNMs) and 13 regulatory network modules (RNMs),which are highly correlated with each other suggesting that the coordinated co-accessibility of regulatory elements in the RNMs likely underlie the coordinated expression of genes in the GNMs. Epigenetic analyses reveal that regulatory networks underlying self-renewal and pluripotency are more complex than previously realized. Genetic analyses identify thousands of regulatory variants that overlapped predicted transcription factor binding sites and are associated with chromatin accessibility in the hiPSCs. We show that the master regulator of pluripotency,the NANOG-OCT4 Complex,and its associated network are significantly enriched for regulatory variants with large effects,suggesting that they play a role in the varying cellular proportions of pluripotency states between hiPSCs. Our work bins tens of thousands of regulatory elements in hiPSCs into discrete regulatory networks,shows that pluripotency and self-renewal processes have a surprising level of regulatory complexity,and suggests that genetic factors may contribute to cell state transitions in human iPSC lines. Stem cells exist in vitro in a spectrum of interconvertible pluripotent states. Here,authors show that pluripotency and self-renewal processes have a high level of regulatory complexity and suggest that genetic factors contribute to cell state transitions in human iPSC lines.
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产品类型:
产品号#:
85850
85857
产品名:
mTeSR™1
mTeSR™1
S. Kaesler et al. (Dec 2025)
International Journal of Molecular Sciences 27 1
Modulation of Mast Cell Activation via MRGPRX2 by Natural Oat Extract
The Mas-related G protein-coupled receptor (MRGPR) X2 is expressed on skin mast cells and can be stimulated by an unusually broad spectrum of ligands,including specific drugs and even endogenous peptides. MRGPRX2 activation can induce mast cell degranulation and consequently mediator release,leading to inflammatory and hypersensitivity reactions. In addition,MRGPRX2 mediates pain and itching sensations,leading to increased efforts to identify MRGPRX2 inhibitors,including plant-derived compounds. Components within oat extracts have been shown to mediate anti-inflammatory and itch-relieving properties,but a possible inhibitory effect on MRGPRX2 activation has not yet been investigated. We aimed to fill this gap and explored whether an oat kernel extract can modulate MRGPRX2 activation. For this purpose,we established a mast cell model with the human LAD2 cell line and used it to investigate the consequences of exposure to oat extract. While we did not observe any influence on cell viability,we analyzed the impact of oat extract on MRGPRX2-mediated mast cell activation and degranulation initiated by the three confirmed MRGPRX2 ligands c48/80,substance P,and cortistatin 14. Exposure to oat extract resulted in a significant reduction in mast cell degranulation for all three ligands,as assessed by the release of β-hexosaminidase,tryptase,cell surface expression of CD63 and CD107a,and phosphorylation of ERK. All results were confirmed with primary human mast cells. Thus,we demonstrated for the first time that oat extract leads to a significant reduction in MRGPRX2 activation,pointing to a previously unrecognized capacity of natural compounds to modulate this pathway.
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Dalley AJ et al. (JAN 2013)
Journal of oral pathology & medicine : official publication of the International Association of Oral Pathologists and the American Academy of Oral Pathology 42 1 37--46
Organotypic culture of normal, dysplastic and squamous cell carcinoma-derived oral cell lines reveals loss of spatial regulation of CD44 and p75 NTR in malignancy.
Oral squamous cell carcinomas (OSCC) often arise from dysplastic lesions. The role of cancer stem cells in tumour initiation is widely accepted,yet the potential existence of pre-cancerous stem cells in dysplastic tissue has received little attention. Cell lines from oral diseases ranging in severity from dysplasia to malignancy provide opportunity to investigate the involvement of stem cells in malignant progression from dysplasia. Stem cells are functionally defined by their ability to generate hierarchical tissue structures in consortium with spatial regulation. Organotypic cultures readily display tissue hierarchy in vitro; hence,in this study,we compared hierarchical expression of stem cell-associated markers in dermis-based organotypic cultures of oral epithelial cells from normal tissue (OKF6-TERT2),mild dysplasia (DOK),severe dysplasia (POE-9n) and OSCC (PE/CA P J15). Expression of CD44,p75(NTR),CD24 and ALDH was studied in monolayers by flow cytometry and in organotypic cultures by immunohistochemistry. Spatial regulation of CD44 and p75(NTR) was evident for organotypic cultures of normal (OKF6-TERT2) and dysplasia (DOK and POE-9n) but was lacking for OSCC (PE/CA PJ15)-derived cells. Spatial regulation of CD24 was not evident. All monolayer cultures exhibited CD44,p75(NTR),CD24 antigens and ALDH activity (ALDEFLUOR(®) assay),with a trend towards loss of population heterogeneity that mirrored disease severity. In monolayer,increased FOXA1 and decreased FOXA2 expression correlated with disease severity,but OCT3/4,Sox2 and NANOG did not. We conclude that dermis-based organotypic cultures give opportunity to investigate the mechanisms that underlie loss of spatial regulation of stem cell markers seen with OSCC-derived cells.
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