Vauchez K et al. (NOV 2009)
Molecular therapy : the journal of the American Society of Gene Therapy 17 11 1948--58
Aldehyde dehydrogenase activity identifies a population of human skeletal muscle cells with high myogenic capacities.
Aldehyde dehydrogenase 1A1 (ALDH) activity is one hallmark of human bone marrow (BM),umbilical cord blood (UCB),and peripheral blood (PB) primitive progenitors presenting high reconstitution capacities in vivo. In this study,we have identified ALDH(+) cells within human skeletal muscles,and have analyzed their phenotypical and functional characteristics. Immunohistofluorescence analysis of human muscle tissue sections revealed rare endomysial cells. Flow cytometry analysis using the fluorescent substrate of ALDH,Aldefluor,identified brightly stained (ALDH(br)) cells with low side scatter (SSC(lo)),in enzymatically dissociated muscle biopsies,thereafter abbreviated as SMALD(+) (for skeletal muscle ALDH(+)) cells. Phenotypical analysis discriminated two sub-populations according to CD34 expression: SMALD(+)/CD34(-) and SMALD(+)/CD34(+) cells. These sub-populations did not initially express endothelial (CD31),hematopoietic (CD45),and myogenic (CD56) markers. Upon sorting,however,whereas SMALD(+)/CD34(+) cells developed in vitro as a heterogeneous population of CD56(-) cells able to differentiate in adipoblasts,the SMALD(+)/CD34(-) fraction developed in vitro as a highly enriched population of CD56(+) myoblasts able to form myotubes. Moreover,only the SMALD(+)/CD34(-) population maintained a strong myogenic potential in vivo upon intramuscular transplantation. Our results suggest that ALDH activity is a novel marker for a population of new human skeletal muscle progenitors presenting a potential for cell biology and cell therapy.
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产品号#:
01700
01705
01701
01702
产品名:
ALDEFLUOR™ 试剂盒
ALDEFLUOR™ DEAB试剂, 1.5 mM, 1 mL
ALDEFLUOR™检测缓冲液
Steiner LA et al. (OCT 2009)
Molecular and cellular biology 29 20 5399--412
Chromatin architecture and transcription factor binding regulate expression of erythrocyte membrane protein genes.
Erythrocyte membrane protein genes serve as excellent models of complex gene locus structure and function,but their study has been complicated by both their large size and their complexity. To begin to understand the intricate interplay of transcription,dynamic chromatin architecture,transcription factor binding,and genomic organization in regulation of erythrocyte membrane protein genes,we performed chromatin immunoprecipitation (ChIP) coupled with microarray analysis and ChIP coupled with massively parallel DNA sequencing in both erythroid and nonerythroid cells. Unexpectedly,most regions of GATA-1 and NF-E2 binding were remote from gene promoters and transcriptional start sites,located primarily in introns. Cooccupancy with FOG-1,SCL,and MTA-2 was found at all regions of GATA-1 binding,with cooccupancy of SCL and MTA-2 also found at regions of NF-E2 binding. Cooccupancy of GATA-1 and NF-E2 was found frequently. A common signature of histone H3 trimethylation at lysine 4,GATA-1,NF-E2,FOG-1,SCL,and MTA-2 binding and consensus GATA-1-E-box binding motifs located 34 to 90 bp away from NF-E2 binding motifs was found frequently in erythroid cell-expressed genes. These results provide insights into our understanding of membrane protein gene regulation in erythropoiesis and the regulation of complex genetic loci in erythroid and nonerythroid cells and identify numerous candidate regions for mutations associated with membrane-linked hemolytic anemia.
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产品号#:
09600
09650
产品名:
StemSpan™ SFEM
StemSpan™ SFEM
Eminli S et al. (SEP 2009)
Nature genetics 41 9 968--76
Differentiation stage determines potential of hematopoietic cells for reprogramming into induced pluripotent stem cells.
The reprogramming of somatic cells into induced pluripotent stem (iPS) cells upon overexpression of the transcription factors Oct4,Sox2,Klf4 and cMyc is inefficient. It has been assumed that the somatic differentiation state provides a barrier for efficient reprogramming; however,direct evidence for this notion is lacking. Here,we tested the potential of mouse hematopoietic cells at different stages of differentiation to be reprogrammed into iPS cells. We show that hematopoietic stem and progenitor cells give rise to iPS cells up to 300 times more efficiently than terminally differentiated B and T cells do,yielding reprogramming efficiencies of up to 28%. Our data provide evidence that the differentiation stage of the starting cell has a critical influence on the efficiency of reprogramming into iPS cells. Moreover,we identify hematopoietic progenitors as an attractive cell type for applications of iPS cell technology in research and therapy.
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产品号#:
02690
05850
05857
05870
05875
09600
09650
85850
85857
85870
85875
70008
70008.1
70008.2
70008.3
70008.4
70008.5
70008.6
200-0002
200-0001
200-0000
产品名:
StemSpan™ CC100
StemSpan™ SFEM
StemSpan™ SFEM
mTeSR™1
mTeSR™1
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
冻存的人脐带血CD34+细胞
DiMascio L et al. (MAR 2007)
The Journal of Immunology 178 6 3511--3520
Identification of Adiponectin as a Novel Hemopoietic Stem Cell Growth Factor
The hemopoietic microenvironment consists of a diverse repertoire of cells capable of providing signals that influence hemopoietic stem cell function. Although the role of osteoblasts and vascular endothelial cells has recently been characterized,the function of the most abundant cell type in the bone marrow,the adipocyte,is less defined. Given the emergence of a growing number of adipokines,it is possible that these factors may also play a role in regulating hematopoiesis. Here,we investigated the role of adiponectin,a secreted molecule derived from adipocytes,in hemopoietic stem cell (HSC) function. We show that adiponectin is expressed by components of the HSC niche and its receptors AdipoR1 and AdipoR2 are expressed by HSCs. At a functional level,adiponectin influences HSCs by increasing their proliferation,while retaining the cells in a functionally immature state as determined by in vitro and in vivo assays. We also demonstrate that adiponectin signaling is required for optimal HSC proliferation both in vitro and in long term hemopoietic reconstitution in vivo. Finally we show that adiponectin stimulation activates p38 MAPK,and that inhibition of this pathway abrogates adiponectin's proliferative effect on HSCs. These studies collectively identify adiponectin as a novel regulator of HSC function and suggest that it acts through a p38 dependent pathway.
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产品号#:
03434
03444
72632
72634
产品名:
MethoCult™ GF M3434
MethoCult™ GF M3434
SB202190
SB202190
Qiu C et al. (FEB 2008)
Blood 111 4 2400--8
Globin switches in yolk sac-like primitive and fetal-like definitive red blood cells produced from human embryonic stem cells.
We have previously shown that coculture of human embryonic stem cells (hESCs) for 14 days with immortalized fetal hepatocytes yields CD34(+) cells that can be expanded in serum-free liquid culture into large numbers of megaloblastic nucleated erythroblasts resembling yolk sac-derived cells. We show here that these primitive erythroblasts undergo a switch in hemoglobin (Hb) composition during late terminal erythroid maturation with the basophilic erythroblasts expressing predominantly Hb Gower I (zeta(2)epsilon(2)) and the orthochromatic erythroblasts hemoglobin Gower II (alpha(2)epsilon(2)). This suggests that the switch from Hb Gower I to Hb Gower II,the first hemoglobin switch in humans is a maturation switch not a lineage switch. We also show that extending the coculture of the hESCs with immortalized fetal hepatocytes to 35 days yields CD34(+) cells that differentiate into more developmentally mature,fetal liver-like erythroblasts,that are smaller,express mostly fetal hemoglobin,and can enucleate. We conclude that hESC-derived erythropoiesis closely mimics early human development because the first 2 human hemoglobin switches are recapitulated,and because yolk sac-like and fetal liver-like cells are sequentially produced. Development of a method that yields erythroid cells with an adult phenotype remains necessary,because the most mature cells that can be produced with current systems express less than 2% adult beta-globin mRNA.
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产品号#:
09600
09650
18056
18056RF
产品名:
StemSpan™ SFEM
StemSpan™ SFEM
Dí et al. (DEC 2007)
Cardiovascular research 76 3 517--27
Plasticity of CD133+ cells: role in pulmonary vascular remodeling.
OBJECTIVE: Studies in pulmonary arteries (PA) of patients with chronic obstructive pulmonary disease (COPD) suggest that bone marrow-derived endothelial progenitor cells (CD133(+)) may infiltrate the intima and differentiate into smooth muscle cells (SMC). This study aimed to evaluate the plasticity of CD133(+) cells to differentiate into SMC and endothelial cells (EC) in both cell culture and human isolated PA. METHODS: Plasticity of granulocyte-colony stimulator factor (G-CSF)-mobilized peripheral blood CD133(+) cells was assessed in co-cultures with primary lines of human PA endothelial cells (PAEC) or SMC (PASMC) and in isolated human PA. We also evaluated if the phenotype of differentiated progenitor cells was acquired by fusion or differentiation. RESULTS: The in vitro studies demonstrated CD133(+) cells may acquire the morphology and phenotype of the cells they were co-cultured with. CD133(+) cells co-incubated with human isolated PA were able to migrate into the intima and differentiate into SMC. Progenitor cell differentiation was produced without fusion with mature cells. CONCLUSIONS: We provide evidence of plasticity of CD133(+) cells to differentiate into both endothelial cells and SMC,reinforcing the idea of their potential role in the remodeling process of PA in COPD. This process was conducted by transdifferentiation and not by cell fusion.
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Thein SL et al. (JUL 2007)
Proceedings of the National Academy of Sciences of the United States of America 104 27 11346--51
Intergenic variants of HBS1L-MYB are responsible for a major quantitative trait locus on chromosome 6q23 influencing fetal hemoglobin levels in adults.
Individual variation in fetal hemoglobin (HbF,alpha(2)gamma(2)) response underlies the remarkable diversity in phenotypic severity of sickle cell disease and beta thalassemia. HbF levels and HbF-associated quantitative traits (e.g.,F cell levels) are highly heritable. We have previously mapped a major quantitative trait locus (QTL) controlling F cell levels in an extended Asian-Indian kindred with beta thalassemia to a 1.5-Mb interval on chromosome 6q23,but the causative gene(s) are not known. The QTL encompasses several genes including HBS1L,a member of the GTP-binding protein family that is expressed in erythroid progenitor cells. In this high-resolution association study,we have identified multiple genetic variants within and 5' to HBS1L at 6q23 that are strongly associated with F cell levels in families of Northern European ancestry (P = 10(-75)). The region accounts for 17.6% of the F cell variance in northern Europeans. Although mRNA levels of HBS1L and MYB in erythroid precursors grown in vitro are positively correlated,only HBS1L expression correlates with high F cell alleles. The results support a key role for the HBS1L-related genetic variants in HbF control and illustrate the biological complexity of the mechanism of 6q QTL as a modifier of fetal hemoglobin levels in the beta hemoglobinopathies.
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产品号#:
09600
09650
产品名:
StemSpan™ SFEM
StemSpan™ SFEM
North TE et al. (JUN 2007)
Nature 447 7147 1007--11
Haematopoietic stem cell (HSC) homeostasis is tightly controlled by growth factors,signalling molecules and transcription factors. Definitive HSCs derived during embryogenesis in the aorta-gonad-mesonephros region subsequently colonize fetal and adult haematopoietic organs. To identify new modulators of HSC formation and homeostasis,a panel of biologically active compounds was screened for effects on stem cell induction in the zebrafish aorta-gonad-mesonephros region. Here,we show that chemicals that enhance prostaglandin (PG) E2 synthesis increased HSC numbers,and those that block prostaglandin synthesis decreased stem cell numbers. The cyclooxygenases responsible for PGE2 synthesis were required for HSC formation. A stable derivative of PGE2 improved kidney marrow recovery following irradiation injury in the adult zebrafish. In murine embryonic stem cell differentiation assays,PGE2 caused amplification of multipotent progenitors. Furthermore,ex vivo exposure to stabilized PGE2 enhanced spleen colony forming units at day 12 post transplant and increased the frequency of long-term repopulating HSCs present in murine bone marrow after limiting dilution competitive transplantation. The conserved role for PGE2 in the regulation of vertebrate HSC homeostasis indicates that modulation of the prostaglandin pathway may facilitate expansion of HSC number for therapeutic purposes.
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产品号#:
72192
72194
72372
产品名:
前列腺素E2(Prostaglandin E2)
前列腺素E2(Prostaglandin E2)
16,16-二甲基前列腺素E2
Han X-D et al. (MAY 2007)
Proceedings of the National Academy of Sciences of the United States of America 104 21 9007--11
Fetal gene therapy of alpha-thalassemia in a mouse model.
Fetuses with homozygous alpha-thalassemia usually die at the third trimester of pregnancy or soon after birth. Hence,the disease could potentially be a target for fetal gene therapy. We have previously established a mouse model of alpha-thalassemia. These mice mimic the human alpha-thalassemic conditions and can be used as preclinical models for fetal gene therapy. We tested a lentiviral vector containing the HS 2,3,and 4 of the beta-LCR,a central polypurine tract element,and the beta-globin gene promoter directing either the EGFP or the human alpha-globin gene. We showed that the GFP expression was erythroid-specific and detected in BFU-E colonies and the erythroid progenies of CFU-GEMM. For in utero gene delivery,we did yolk sac vessel injection at midgestation of mouse embryos. The recipient mice were analyzed after birth for human alpha-globin gene expression. In the newborn,human alpha-globin gene expression was detected in the liver,spleen,and peripheral blood. The human alpha-globin gene expression was at the peak at 3-4 months,when it reached 20% in some recipients. However,the expression declined at 7 months. Colony-forming assays in these mice showed low abundance of the transduced human alpha-globin gene in their BFU-E and CFU-GEMM and the lack of its transcript. Thus,lentiviral vectors can be an effective vehicle for delivering the human alpha-globin gene into erythroid cells in utero,but,in the mouse model,delivery at late midgestation could not transduce hematopoietic stem cells adequately to sustain gene expression.
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产品号#:
03434
03444
产品名:
MethoCult™ GF M3434
MethoCult™ GF M3434
Heuser M et al. (SEP 2007)
Blood 110 5 1639--47
MN1 overexpression induces acute myeloid leukemia in mice and predicts ATRA resistance in patients with AML.
Overexpression of wild-type MN1 is a negative prognostic factor in patients with acute myeloid leukemia (AML) with normal cytogenetics. We evaluated whether MN1 plays a functional role in leukemogenesis. We demonstrate using retroviral gene transfer and bone marrow (BM) transplantation that MN1 overexpression rapidly induces lethal AML in mice. Insertional mutagenesis and chromosomal instability were ruled out as secondary aberrations. MN1 increased resistance to all-trans retinoic acid (ATRA)-induced cell-cycle arrest and differentiation by more than 3000-fold in vitro. The differentiation block could be released by fusion of a transcriptional activator (VP16) to MN1 without affecting the ability to immortalize BM cells,suggesting that MN1 blocks differentiation by transcriptional repression. We then evaluated whether MN1 expression levels in patients with AML (excluding M3-AML) correlated with resistance to ATRA treatment in elderly patients uniformly treated within treatment protocol AMLHD98-B. Strikingly,patients with low MN1 expression who received ATRA had a significantly prolonged event-free (P = .008) and overall (P = .04) survival compared with patients with either low MN1 expression and no ATRA,or high MN1 expression with or without ATRA. MN1 is a unique oncogene in hematopoiesis that both promotes proliferation/self-renewal and blocks differentiation,and may become useful as a predictive marker in AML treatment.
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产品号#:
03234
产品名:
MethoCult™ M3234
Sjogren A-KM et al. (MAY 2007)
The Journal of clinical investigation 117 5 1294--304
GGTase-I deficiency reduces tumor formation and improves survival in mice with K-RAS-induced lung cancer.
Protein geranylgeranyltransferase type I (GGTase-I) is responsible for the posttranslational lipidation of CAAX proteins such as RHOA,RAC1,and cell division cycle 42 (CDC42). Inhibition of GGTase-I has been suggested as a strategy to treat cancer and a host of other diseases. Although several GGTase-I inhibitors (GGTIs) have been synthesized,they have very different properties,and the effects of GGTIs and GGTase-I deficiency are unclear. One concern is that inhibiting GGTase-I might lead to severe toxicity. In this study,we determined the effects of GGTase-I deficiency on cell viability and K-RAS-induced cancer development in mice. Inactivating the gene for the critical beta subunit of GGTase-I eliminated GGTase-I activity,disrupted the actin cytoskeleton,reduced cell migration,and blocked the proliferation of fibroblasts expressing oncogenic K-RAS. Moreover,the absence of GGTase-I activity reduced lung tumor formation,eliminated myeloproliferative phenotypes,and increased survival of mice in which expression of oncogenic K-RAS was switched on in lung cells and myeloid cells. Interestingly,several cell types remained viable in the absence of GGTase-I,and myelopoiesis appeared to function normally. These findings suggest that inhibiting GGTase-I may be a useful strategy to treat K-RAS-induced malignancies.
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产品号#:
03234
产品名:
MethoCult™ M3234
Cain JA et al. (MAY 2007)
Blood 109 9 3906--14
Myeloproliferative disease induced by TEL-PDGFRB displays dynamic range sensitivity to Stat5 gene dosage.
Expression of the constitutively activated TEL/PDGFbetaR fusion protein is associated with the t(5;12)(q33;p13) chromosomal translocation found in a subset of patients with chronic myelomonocytic leukemia. TEL/PDGFbetaR activates multiple signal transduction pathways in cell-culture systems,and expression of the TEL-PDGFRB fusion gene induces myeloproliferative disease (MPD) in mice. We used gene-targeted mice to characterize the contribution of signal transducer and activator of transcription (Stat) and Src family genes to TEL-PDGFRB-mediated transformation in methylcellulose colony and murine bone marrow transduction/transplantation assays. Fetal liver hematopoietic stem and progenitor cells harboring targeted deletion of both Stat5a and Stat5b (Stat5ab(null/null)) genes were refractory to transformation by TEL-PDGFRB in methylcellulose colony assays. Notably,these cell populations were maintained in Stat5ab(null/null) fetal livers and succumbed to transformation by c-Myc. Surprisingly,targeted disruption of either Stat5a or Stat5b alone also impaired TEL-PDGFRB-mediated transformation. Survival of TPiGFP--textgreaterStat5a(-/-) and TPiGFP--textgreaterStat5a(+/-) mice was significantly prolonged,demonstrating significant sensitivity of TEL-PDGFRB-induced MPD to the dosage of Stat5a. TEL-PDGFRB-mediated MPD was incompletely penetrant in TPiGFP--textgreaterStat5b(-/-) mice. In contrast,Src family kinases Lyn,Hck,and Fgr and the Stat family member Stat1 were dispensable for TEL-PDGFRB disease. Together,these data demonstrate that Stat5a and Stat5b are dose-limiting mediators of TEL-PDGFRB-induced myeloproliferation.
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