Marshall LJ et al. (DEC 2010)
The Journal of general virology 91 Pt 12 3042--52
Transcription factor Spi-B binds unique sequences present in the tandem repeat promoter/enhancer of JC virus and supports viral activity.
Progressive multifocal leukoencephalopathy (PML) is an often fatal demyelinating disease caused by lytic infection of oligodendrocytes with JC virus (JCV). The development of PML in non-immunosuppressed individuals is a growing concern with reports of mortality in patients treated with mAb therapies. JCV can persist in the kidneys,lymphoid tissue and bone marrow. JCV gene expression is restricted by non-coding viral regulatory region sequence variation and cellular transcription factors. Because JCV latency has been associated with cells undergoing haematopoietic development,transcription factors previously reported as lymphoid specific may regulate JCV gene expression. This study demonstrates that one such transcription factor,Spi-B,binds to sequences present in the JCV promoter/enhancer and may affect early virus gene expression in cells obtained from human brain tissue. We identified four potential Spi-B-binding sites present in the promoter/enhancer elements of JCV sequences from PML variants and the non-pathogenic archetype. Spi-B sites present in the promoter/enhancers of PML variants alone bound protein expressed in JCV susceptible brain and lymphoid-derived cell lines by electromobility shift assays. Expression of exogenous Spi-B in semi- and non-permissive cells increased early viral gene expression. Strikingly,mutation of the Spi-B core in a binding site unique to the Mad-4 variant was sufficient to abrogate viral activity in progenitor-derived astrocytes. These results suggest that Spi-B could regulate JCV gene expression in susceptible cells,and may play an important role in JCV activity in the immune and nervous systems.
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Liu J et al. (NOV 2015)
Nature Protocols 10 11 1842--59
Efficient delivery of nuclease proteins for genome editing in human stem cells and primary cells.
Targeted nucleases,including zinc-finger nucleases (ZFNs),transcription activator-like (TAL) effector nucleases (TALENs) and clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated protein 9 (Cas9),have provided researchers with the ability to manipulate nearly any genomic sequence in human cells and model organisms. However,realizing the full potential of these genome-modifying technologies requires their safe and efficient delivery into relevant cell types. Unlike methods that rely on expression from nucleic acids,the direct delivery of nuclease proteins to cells provides rapid action and fast turnover,leading to fewer off-target effects while maintaining high rates of targeted modification. These features make nuclease protein delivery particularly well suited for precision genome engineering. Here we describe procedures for implementing protein-based genome editing in human embryonic stem cells and primary cells. Protocols for the expression,purification and delivery of ZFN proteins,which are intrinsically cell-permeable; TALEN proteins,which can be internalized via conjugation with cell-penetrating peptide moieties; and Cas9 ribonucleoprotein,whose nucleofection into cells facilitates rapid induction of multiplexed modifications,are described,along with procedures for evaluating nuclease protein activity. Once they are constructed,nuclease proteins can be expressed and purified within 6 d,and they can be used to induce genomic modifications in human cells within 2 d.
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产品类型:
产品号#:
05850
05857
05870
05875
07920
17952
17952RF
19052
19052RF
18000
15470
15450
15420
15460
15425
15465
15430
15415
85850
85857
85870
85875
100-0696
07922
产品名:
ACCUTASE™
EasySep™人CD4+ T细胞分选试剂盒
RoboSep™ 人CD4+ T细胞分选试剂盒
EasySep™人CD4+ T细胞富集试剂盒
RoboSep™ 人CD4+ T细胞富集试剂盒含滤芯吸头
EasySep™磁极
mTeSR™1
mTeSR™1
EasySep™人CD4+ T细胞分离试剂盒
ACCUTASE™
Long T et al. (MAR 2014)
Biomaterials 35 9 2752--9
The effect of mesenchymal stem cell sheets on structural allograft healing of critical sized femoral defects in mice.
Structural bone allografts are widely used in the clinic to treat critical sized bone defects,despite lacking the osteoinductive characteristics of live autografts. To address this,we generated revitalized structural allografts wrapped with mesenchymal stem/progenitor cell (MSC) sheets,which were produced by expanding primary syngenic bone marrow derived cells on temperature-responsive plates,as a tissue-engineered periosteum. In vitro assays demonstrated maintenance of the MSC phenotype in the sheets,suggesting that short-term culturing of MSC sheets is not detrimental. To test their efficacy in vivo,allografts wrapped with MSC sheets were transplanted into 4-mm murine femoral defects and compared to allografts with direct seeding of MSCs and allografts without cells. Evaluations consisted of X-ray plain radiography,3D microCT,histology,and biomechanical testing at 4- and 6-weeks post-surgery. Our findings demonstrate that MSC sheets induce prolonged cartilage formation at the graft-host junction and enhanced bone callus formation,as well as graft-host osteointegration. Moreover,a large periosteal callus was observed spanning the allografts with MSC sheets,which partially mimics live autograft healing. Finally,biomechanical testing showed a significant increase in the structural and functional properties of MSC sheet grafted femurs. Taken together,MSC sheets exhibit enhanced osteogenicity during critical sized bone defect repair,demonstrating the feasibility of this tissue engineering solution for massive allograft healing.
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产品类型:
产品号#:
19771
产品名:
EasySep™ 小鼠间充质干/祖细胞富集试剂盒
Lian X et al. (NOV 2014)
Stem cell reports 3 5 804--816
Efficient differentiation of human pluripotent stem cells to endothelial progenitors via small-molecule activation of WNT signaling.
Human pluripotent stem cell (hPSC)-derived endothelial cells and their progenitors may provide the means for vascularization of tissue-engineered constructs and can serve as models to study vascular development and disease. Here,we report a method to efficiently produce endothelial cells from hPSCs via GSK3 inhibition and culture in defined media to direct hPSC differentiation to CD34(+)CD31(+) endothelial progenitors. Exogenous vascular endothelial growth factor (VEGF) treatment was dispensable,and endothelial progenitor differentiation was β-catenin dependent. Furthermore,by clonal analysis,we showed that CD34(+)CD31(+)CD117(+)TIE-2(+) endothelial progenitors were multipotent,capable of differentiating into calponin-expressing smooth muscle cells and CD31(+)CD144(+)vWF(+)I-CAM1(+) endothelial cells. These endothelial cells were capable of 20 population doublings,formed tube-like structures,imported acetylated low-density lipoprotein,and maintained a dynamic barrier function. This study provides a rapid and efficient method for production of hPSC-derived endothelial progenitors and endothelial cells and identifies WNT/β-catenin signaling as a primary regulator for generating vascular cells from hPSCs.
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产品类型:
产品号#:
05850
05857
05870
05875
73042
73044
85850
85857
85870
85875
产品名:
CHIR98014
CHIR98014
mTeSR™1
mTeSR™1
Leung CG et al. (JUL 2007)
The Journal of experimental medicine 204 7 1603--11
Requirements for survivin in terminal differentiation of erythroid cells and maintenance of hematopoietic stem and progenitor cells.
Survivin,which is the smallest member of the inhibitor of apoptosis protein (IAP) family,is a chromosomal passenger protein that mediates the spindle assembly checkpoint and cytokinesis,and also functions as an inhibitor of apoptosis. Frequently overexpressed in human cancers and not expressed in most adult tissues,survivin has been proposed as an attractive target for anticancer therapies and,in some cases,has even been touted as a cancer-specific gene. Survivin is,however,expressed in proliferating adult cells,including human hematopoietic stem cells,T-lymphocytes,and erythroid cells throughout their maturation. Therefore,it is unclear how survivin-targeted anticancer therapies would impact steady-state blood development. To address this question,we used a conditional gene-targeting strategy and abolished survivin expression from the hematopoietic compartment of mice. We show that inducible deletion of survivin leads to ablation of the bone marrow,with widespread loss of hematopoietic progenitors and rapid mortality. Surprisingly,heterozygous deletion of survivin causes defects in erythropoiesis in a subset of the animals,with a dramatic reduction in enucleated erythrocytes and the presence of immature megaloblastic erythroblasts. Our studies demonstrate that survivin is essential for steady-state hematopoiesis and survival of the adult,and further,that a high level of survivin expression is critical for proper erythroid differentiation.
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产品类型:
产品号#:
19756
19756RF
产品名:
Yalcintepe L et al. (NOV 2006)
Blood 108 10 3530--7
Expression of interleukin-3 receptor subunits on defined subpopulations of acute myeloid leukemia blasts predicts the cytotoxicity of diphtheria toxin interleukin-3 fusion protein against malignant progenitors that engraft in immunodeficient mice.
The interleukin-3 receptor (IL-3R) subunits are overexpressed on acute myeloid leukemia (AML) blasts compared with normal hematopoietic cells and are thus potential targets for novel therapeutic agents. Both fluorescence-activated cell sorter (FACS) analysis and quantitative real-time reverse transcription-polymerase chain reaction (QRT-PCR) were used to quantify expression of the IL-3Ralpha and beta(c) subunits on AML cells. QRT-PCR for both subunits was most predictive of killing of AML colony-forming cells (AML-CFCs) by diphtheria toxin-IL-3 fusion protein (DT(388)IL3). Among 19 patient samples,the relative level of the IL-3Ralpha was higher than the IL-3Rbeta(c) and highest in CD34(+)CD38(-)CD71(-) cells,enriched for candidate leukemia stem cells,compared with cell fractions depleted of such progenitors. Overall,the amount of IL-3Rbeta(c) subunit did not vary among sorted subpopulations. However,expression of both subunits varied by more than 10-fold among different AML samples for all subpopulations studied. The level of IL-3Rbeta(c) expression versus glyceraldehyde-3-phosphate dehydrogenase (GAPDH) (set at 1000) ranged from 0.14 to 13.56 in CD34(+)CD38(-)CD71(-) cells from different samples; this value was correlated (r = .76,P = .05) with the ability of DT(388)IL3 to kill AML progenitors that engraft in beta(2)-microglobin-deficient nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice (n = 7). Thus,quantification of IL-3R subunit expression on AML blasts predicts the effectiveness IL-3R-targeted therapy in killing primitive leukemic progenitors.
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产品类型:
产品号#:
18056
18056RF
产品名:
Hidalgo A et al. (JAN 2005)
Blood 105 2 567--75
Enforced fucosylation of neonatal CD34+ cells generates selectin ligands that enhance the initial interactions with microvessels but not homing to bone marrow.
Hematopoietic progenitor/stem cell homing to the bone marrow requires the concerted action of several adhesion molecules. Endothelial P- and E-selectins play an important role in this process,but their ligands on a large subset of neonate-derived human CD34+ cells are absent,leading to a reduced ability to interact with the bone marrow (BM) microvasculature. We report here that this deficiency results from reduced alpha1,3-fucosyltransferase (FucT) expression and activity in these CD34+ cells. Incubation of CD34+ cells with recombinant human FucTVI rapidly corrected the deficiency in nonbinding CD34+ cells and further increased the density of ligands for both P- and E-selectins on all cord blood-derived CD34+ cells. Intravital microscopy studies revealed that these FucTVI-treated CD34+ cells displayed a marked enhancement in their initial interactions with the BM microvasculature,but unexpectedly,homing into the BM was not improved by FucTVI treatment. These data indicate that,although exogenous FucT enzyme activity can rapidly modulate selectin binding avidity of cord blood CD34+ cells,further studies are needed to understand how to translate a positive effect on progenitor cell adhesion in bone marrow microvessels into one that significantly influences migration and lodgement into the parenchyma.
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产品类型:
产品号#:
18056
18056RF
产品名:
Wognum AW et al. ( )
Archives of medical research 34 6 461--75
Identification and isolation of hematopoietic stem cells.
Hematopoietic stem cells (HSCs) are defined by their ability to repopulate all of the hematopoietic lineages in vivo and sustain the production of these cells for the life span of the individual. In the absence of reliable direct markers for HSCs,their identification and enumeration depends on functional long-term,multilineage,in vivo repopulation assays. The extremely low frequency of HSCs in any tissue and the absence of a specific HSC phenotype have made their purification and characterization a highly challenging goal. HSCs and primitive hematopoietic cells can be distinguished from mature blood cells by their lack of lineage-specific markers and presence of certain other cell-surface antigens,such as CD133 (for human cells) and c-kit and Sca-1 (for murine cells). Functional analyses of purified subpopulations of primitive hematopoietic cells have led to the development of several procedures for isolating cell populations that are highly enriched in cells with in vivo stem cell activity. Simplified methods for obtaining these cells at high yield have been important to the practical exploitation of such advances. This article reviews recent progress in identifying human and mouse HSCs and current techniques for their purification.
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产品类型:
产品号#:
18056
18056RF
产品名:
Boyer L et al. (MAR 2008)
Journal of immunological methods 332 1-2 82--91
Increased production of megakaryocytes near purity from cord blood CD34+ cells using a short two-phase culture system.
Expansion of hematopoietic progenitor cells (HPC) ex vivo remains an important focus in fundamental and clinical research. The aim of this study was to determine whether the implementation of such expansion phase in a two-phase culture strategy prior to the induction of megakaryocyte (Mk) differentiation would increase the yield of Mks produced in cultures. Toward this end,we first characterized the functional properties of five cytokine cocktails to be tested in the expansion phase on the growth and differentiation kinetics of CD34+-enriched cells,and on their capacity to expand clonogenic progenitors in cultures. Three of these cocktails were chosen based on their reported ability to induce HPC expansion ex vivo,while the other two represented new cytokine combinations. These analyses revealed that none of the cocktails tested could prevent the differentiation of CD34+ cells and the rapid expansion of lineage-positive cells. Hence,we sought to determine the optimum length of time for the expansion phase that would lead to the best final Mk yields. Despite greater expansion of CD34+ cells and overall cell growth with a longer expansion phase,the optimal length for the expansion phase that provided greater Mk yield at near maximal purity was found to be 5 days. Under such settings,two functionally divergent cocktails were found to significantly increase the final yield of Mks. Surprisingly,these cocktails were either deprived of thrombopoietin or of stem cell factor,two cytokines known to favor megakaryopoiesis and HPC expansion,respectively. Based on these results,a short resource-efficient two-phase culture protocol for the production of Mks near purity (textgreater95%) from human CD34+ CB cells has been established.
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产品类型:
产品号#:
04436
09500
14056
14066
04960
04902
04900
04961
04901
04963
04962
04970
04971
产品名:
MethoCult™ SF H4436
BIT 9500血清替代物
MegaCult™-C胶原和无细胞因子培养基
胶原蛋白溶液
MegaCult™-C无细胞因子培养基
MegaCult™-C胶原和含细胞因子培养基
MegaCult™-C含细胞因子培养基
双室载玻片套件
MegaCult™-C CFU-Mk染色试剂盒
MegaCult™-C无细胞因子全套试剂盒
MegaCult™-C含细胞因子全套试剂盒
Phetfong J et al. (JUL 2016)
Cell and Tissue Research 365 1 101--112
Cell type of origin influences iPSC generation and differentiation to cells of the hematoendothelial lineage
The use of induced pluripotent stem cells (iPSCs) as a source of cells for cell-based therapy in regenerative medicine is hampered by the limited efficiency and safety of the reprogramming procedure and the low efficiency of iPSC differentiation to specialized cell types. Evidence suggests that iPSCs retain an epigenetic memory of their parental cells with a possible influence on their differentiation capacity in vitro. We reprogramme three cell types,namely human umbilical cord vein endothelial cells (HUVECs),endothelial progenitor cells (EPCs) and human dermal fibroblasts (HDFs),to iPSCs and compare their hematoendothelial differentiation capacity. HUVECs and EPCs were at least two-fold more efficient in iPSC reprogramming than HDFs. Both HUVEC- and EPC-derived iPSCs exhibited high potentiality toward endothelial cell differentiation compared with HDF-derived iPSCs. However,only HUVEC-derived iPSCs showed efficient differentiation to hematopoietic stem/progenitor cells. Examination of DNA methylation at promoters of hematopoietic and endothelial genes revealed evidence for the existence of epigenetic memory at the endothelial genes but not the hematopoietic genes in iPSCs derived from HUVECs and EPCs indicating that epigenetic memory involves an endothelial differentiation bias. Our findings suggest that endothelial cells and EPCs are better sources for iPSC derivation regarding their reprogramming efficiency and that the somatic cell type used for iPSC generation toward specific cell lineage differentiation is of importance.
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