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Manual
MegaCult™-C Assays for Quantitation of Human & Mouse Megakaryocytic Progenitor Cells
Catalog #Product Name:00217Applications of the Hematopoietic Progenitor Assay Training Course04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04962MegaCult™-C Staining Kit for CFU-Mk04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04974MegaCult™-C Collagen and Medium with Lipids04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines00217Applications of the Hematopoietic Progenitor Assay Training Course -
BrochureHematopoietic Stem and Progenitor Cells - Products for Your Research
Cell Culture Media and SupplementsErythroClear, MethoCult, MyeloCult, SmartDish, StemSpan, STEMvision -
Scientific PosterDetection of Human Bipotential Erythroid-Megakaryocytic Progenitors in Serum-Free Collagen Gels
Cell Culture Media and SupplementsISEH 2003 -
Mini ReviewHematopoietic Stem and Progenitor Cells (HSPCs): Isolation, Culture, and Assays
Hematopoietic Stem and Progenitor Cells -
39:40WebinarCustomizing the Hematopoietic CFC Assay In Drug Development
Publish Date: October 04, 2013 Views: 0 -
Safety Data Sheet (SDS)
04900_04950-SDS_GHS.pdf
Catalog #Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04964MegaCult™-C Collagen and Medium without Cytokines04970MegaCult™-C Complete Kit Without Cytokines04972MegaCult™-C Complete Kit without Cytokines -
Safety Data Sheet (SDS)
DX21455-SDS_2_0_0.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04913MegaCult™-C Evans Blue Stain -
Safety Data Sheet (SDS)
04915-SDS_GHS.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04915MegaCult™-C 10% BSA -
Safety Data Sheet (SDS)
DX20867-SDS_2_0_0.pdf
Catalog #Product Name:04962MegaCult™-C Staining Kit for CFU-Mk04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04809MegaCult™-C Alkaline Phosphatase Substrate Tablets -
Safety Data Sheet (SDS)
DX22498-SDS_1_0_0.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04807MegaCult™-C Human Serum -
Safety Data Sheet (SDS)
DX20865-SDS_2_0_0.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04803MegaCult™-C Primary Antibody -
Safety Data Sheet (SDS)
DX20866-SDS_2_0_0.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04804MegaCult™-C Control Antibody -
Safety Data Sheet (SDS)
DX20872-SDS_2_0_0.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04906MegaCult™-C Biotin-Conjugated Goat Anti-Mouse IgG -
Safety Data Sheet (SDS)
DX20871-SDS_2_0_0.pdf
Catalog #Product Name:04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04905MegaCult™-C Avidin-Alkaline Phosphatase Conjugate -
Safety Data Sheet (SDS)
DX20870-SDS_2_0_0.pdf
Catalog #Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04964MegaCult™-C Collagen and Medium without Cytokines04965MegaCult™-C Collagen and Medium with Cytokines04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines04972MegaCult™-C Complete Kit without Cytokines04973MegaCult™-C Complete Kit with Cytokines04974MegaCult™-C Collagen and Medium with Lipids05740NeuroCult™ NCFC Assay Kit (Mouse)05742NeuroCult™ NCFC Assay Kit (Rat)05810ES-Cult™ Endothelial Collagen and Medium Kit04902Collagen Solution -
Product Information Sheet (PIS)
29551-PIS_1_3_1.pdf
Catalog #LotLanguageProduct Name:04960AllENMegaCult™-C Collagen and Medium Without Cytokines04970AllENMegaCult™-C Complete Kit Without Cytokines04900AllENMegaCult™-C Medium Without Cytokines -
ReferenceKunisato A et al. (JAN 2011) Stem cells and development 20 1 159--168
Direct generation of induced pluripotent stem cells from human nonmobilized blood.
The use of induced pluripotent stem cells (iPSCs) is an exciting frontier in the study and treatment of human diseases through the generation of specific cell types. Here we show the derivation of iPSCs from human nonmobilized peripheral blood (PB) and bone marrow (BM) mononuclear cells (MNCs) by retroviral transduction of OCT3/4, SOX2, KLF4, and c-MYC. The PB- and BM-derived iPSCs were quite similar to human embryonic stem cells with regard to morphology, expression of surface antigens and pluripotency-associated transcription factors, global gene expression profiles, and differentiation potential in vitro and in vivo. Infected PB and BM MNCs gave rise to iPSCs in the presence of several cytokines, although transduction efficiencies were not high. We found that 5 × 10(5) PB MNCs, which corresponds to less than 1 mL of PB, was enough for the generation of several iPSC colonies. Generation of iPSCs from MNCs of nonmobilized PB, with its relative efficiency and ease of harvesting, could enable the therapeutic use of patient-specific pluripotent stem cells. View PublicationCatalog #:Product Name:05850mTeSR™185850mTeSR™1 -
ReferenceTober J et al. (FEB 2007) Blood 109 4 1433--41
The megakaryocyte lineage originates from hemangioblast precursors and is an integral component both of primitive and of definitive hematopoiesis.
In the adult, platelets are derived from unipotential megakaryocyte colony-forming cells (Meg-CFCs) that arise from bipotential megakaryocyte/erythroid progenitors (MEPs). To better define the developmental origin of the megakaryocyte lineage, several aspects of megakaryopoiesis, including progenitors, maturing megakaryocytes, and circulating platelets, were examined in the murine embryo. We found that a majority of hemangioblast precursors during early gastrulation contains megakaryocyte potential. Combining progenitor assays with immunohistochemical analysis, we identified 2 waves of MEPs in the yolk sac associated with the primitive and definitive erythroid lineages. Primitive MEPs emerge at E7.25 along with megakaryocyte and primitive erythroid progenitors, indicating that primitive hematopoiesis is bilineage in nature. Subsequently, definitive MEPs expand in the yolk sac with Meg-CFCs and definitive erythroid progenitors. The first GP1bbeta-positive cells in the conceptus were identified in the yolk sac at E9.5, while large, highly reticulated platelets were detected in the embryonic bloodstream beginning at E10.5. At this time, the number of megakaryocyte progenitors begins to decline in the yolk sac and expand in the fetal liver. We conclude that the megakaryocyte lineage initially originates from hemangioblast precursors during early gastrulation and is closely associated both with primitive and with definitive erythroid lineages in the yolk sac prior to the transition of hematopoiesis to intraembryonic sites. View PublicationCatalog #:Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04970MegaCult™-C Complete Kit Without Cytokines -
ReferencePessina A et al. (FEB 2009) Toxicology in vitro : an international journal published in association with BIBRA 23 1 194--200
Application of human CFU-Mk assay to predict potential thrombocytotoxicity of drugs.
Megakaryocytopoiesis gives rise to platelets by proliferation and differentiation of lineage-specific progenitors, identified in vitro as Colony Forming Unit-Megakaryocytes (CFU-Mk). The aim of this study was to refine and optimize the in vitro Standard Operating Procedure (SOP) of the CFU-Mk assay for detecting drug-induced thrombocytopenia and to prevalidate a model for predicting the acute exposure levels that cause maximum tolerated decreases in the platelets count, based on the correlation with the maximal plasma concentrations (C max) in vivo. The assay was linear under the SOP conditions, and the in vitro endpoints (percentage of colonies growing) were reproducible within and across laboratories. The protocol performance phase was carried out testing 10 drugs (selected on the base of their recognised or potential in vivo haematotoxicity, according to the literature). Results showed that a relationship can be established between the maximal concentration in plasma (C max) and the in vitro concentrations that inhibited the 10-50-90 percent of colonies growth (ICs). When C max is lower than IC10, it is possible to predict that the chemicals have no direct toxicity effect on CFU-Mk and could not induce thrombocytopenia due to bone marrow damage. When the C max is higher than IC90 and/or IC50, thrombocytopenia can occur due to direct toxicity of chemicals on CFU-Mk progenitors. View PublicationCatalog #:Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04970MegaCult™-C Complete Kit Without Cytokines -
ReferenceMigliaccio AR et al. (FEB 2003) The Journal of experimental medicine 197 3 281--96
GATA-1 as a regulator of mast cell differentiation revealed by the phenotype of the GATA-1low mouse mutant.
Here it is shown that the phenotype of adult mice lacking the first enhancer (DNA hypersensitive site I) and the distal promoter of the GATA-1 gene (neo Delta HS or GATA-1(low) mutants) reveals defects in mast cell development. These include the presence of morphologically abnormal alcian blue(+) mast cells and apoptotic metachromatic(-) mast cell precursors in connective tissues and peritoneal lavage and numerous (60-70% of all the progenitors) unique" trilineage cells committed to erythroid� View PublicationCatalog #:Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines -
ReferenceHisa T et al. (JAN 2004) The EMBO journal 23 2 450--9
Hematopoietic, angiogenic and eye defects in Meis1 mutant animals.
Meis1 and Hoxa9 expression is upregulated by retroviral integration in murine myeloid leukemias and in human leukemias carrying MLL translocations. Both genes also cooperate to induce leukemia in a mouse leukemia acceleration assay, which can be explained, in part, by their physical interaction with each other as well as the PBX family of homeodomain proteins. Here we show that Meis1-deficient embryos have partially duplicated retinas and smaller lenses than normal. They also fail to produce megakaryocytes, display extensive hemorrhaging, and die by embryonic day 14.5. In addition, Meis1-deficient embryos lack well-formed capillaries, although larger blood vessels are normal. Definitive myeloerythroid lineages are present in the mutant embryos, but the total numbers of colony-forming cells are dramatically reduced. Mutant fetal liver cells also fail to radioprotect lethally irradiated animals and they compete poorly in repopulation assays even though they can repopulate all hematopoietic lineages. These and other studies showing that Meis1 is expressed at high levels in hematopoietic stem cells (HSCs) suggest that Meis1 may also be required for the proliferation/self-renewal of the HSC. View PublicationCatalog #:Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines -
ReferenceMoody JL et al. (JUN 2004) Blood 103 12 4503--10
Anemia, thrombocytopenia, leukocytosis, extramedullary hematopoiesis, and impaired progenitor function in Pten+/-SHIP-/- mice: a novel model of myelodysplasia.
The myeloproliferative disorder of mice lacking the Src homology 2 (SH2)-containing 5' phosphoinositol phosphatase, SHIP, underscores the need for closely regulating phosphatidylinositol 3-kinase (PI3K) pathway activity, and hence levels of phosphatidylinositol species during hematopoiesis. The role of the 3' phosphoinositol phosphatase Pten in this process is less clear, as its absence leads to embryonic lethality. Despite Pten heterozygosity being associated with a lymphoproliferative disorder, we found no evidence of a hematopoietic defect in Pten(+/-) mice. Since SHIP shares the same substrate (PIP(3)) with Pten, we hypothesized that the former might compensate for Pten haploinsufficiency in the marrow. Thus, we examined the effect of Pten heterozygosity in SHIP(-/-) mice, predicting that further dysregulation of PIP(3) metabolism would exacerbate the pheno-type of the latter. Indeed, compared with SHIP(-/-) mice, Pten(+/-)SHIP(-/-) animals developed a myelodysplastic phenotype characterized by increased hepatosplenomegaly, extramedullary hematopoiesis, anemia, and thrombocytopenia. Consistent with a marrow defect, clonogenic assays demonstrated reductions in committed myeloid and megakaryocytic progenitors in these animals. Providing further evidence of a Pten(+/-)SHIP(-/-) progenitor abnormality, reconstitution of irradiated mice with marrows from these mice led to a marked defect in short-term repopulation of peripheral blood by donor cells. These studies suggest that the regulation of the levels and/or ratios of PI3K-derived phosphoinositol species by these 2 phosphatases is critical to normal hematopoiesis. View PublicationCatalog #:Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines -
ReferenceFé et al. (MAR 2006) The Journal of clinical investigation 116 3 715--23
Blocking the alpha 4 integrin-paxillin interaction selectively impairs mononuclear leukocyte recruitment to an inflammatory site.
Antagonists to alpha4 integrin show promise for several autoimmune and inflammatory diseases but may exhibit mechanism-based toxicities. We tested the capacity of blockade of alpha4 integrin signaling to perturb functions involved in inflammation, while limiting potential adverse effects. We generated and characterized mice bearing a Y991A mutation in alpha4 integrin [alpha4(Y991A) mice], which blocks paxillin binding and inhibits alpha4 integrin signals that support leukocyte migration. In contrast to the embryonic-lethal phenotype of alpha4 integrin-null mice, mice bearing the alpha4(Y991A) mutation were viable and fertile; however, they exhibited defective recruitment of mononuclear leukocytes into thioglycollate-induced peritonitis. Alpha4 integrins are essential for definitive hematopoiesis; however, the alpha4(Y991A) mice had intact lymphohematopoiesis and, with the exception of reduced Peyer's patches, normal architecture and cellularity of secondary lymphoid tissues. We conclude that interference with alpha4 integrin signaling can selectively impair mononuclear leukocyte recruitment to sites of inflammation while sparing vital functions of alpha4 integrins in development and hematopoiesis. View PublicationCatalog #:Product Name:03434MethoCult™ GF M343404960MegaCult™-C Collagen and Medium Without Cytokines04970MegaCult™-C Complete Kit Without Cytokines -
ReferenceWernig G et al. (JUN 2006) Blood 107 11 4274--81
Expression of Jak2V617F causes a polycythemia vera-like disease with associated myelofibrosis in a murine bone marrow transplant model.
An acquired somatic mutation, Jak2V617F, was recently discovered in most patients with polycythemia vera (PV), chronic idiopathic myelofibrosis (CIMF), and essential thrombocythemia (ET). To investigate the role of this mutation in vivo, we transplanted bone marrow (BM) transduced with a retrovirus expressing either Jak2 wild-type (wt) or Jak2V617F into lethally irradiated syngeneic recipient mice. Expression of Jak2V617F, but not Jak2wt, resulted in clinicopathologic features that closely resembled PV in humans. These included striking elevation in hemoglobin level/hematocrit, leukocytosis, megakaryocyte hyperplasia, extramedullary hematopoiesis resulting in splenomegaly, and reticulin fibrosis in the bone marrow. Histopathologic and flow cytometric analyses showed an increase in maturing myeloid lineage progenitors, although megakaryocytes showed decreased polyploidization and staining for acetylcholinesterase. In vitro analysis of primary cells showed constitutive activation of Stat5 and cytokine-independent growth of erythroid colony-forming unit (CFU-E) and erythropoietin hypersensitivity, and Southern blot analysis for retroviral integration indicated that the disease was oligoclonal. Furthermore, we observed strain-specific differences in phenotype, with Balb/c mice demonstrating markedly elevated leukocyte counts, splenomegaly, and reticulin fibrosis compared with C57Bl/6 mice. We conclude that Jak2V617F expression in bone marrow progenitors results in a PV-like syndrome with myelofibrosis and that there are strain-specific modifiers that may in part explain phenotypic pleiotropy of Jak2V617F-associated myeloproliferative disease in humans. View PublicationCatalog #:Product Name:04960MegaCult™-C Collagen and Medium Without Cytokines04961MegaCult™-C Collagen and Medium with Cytokines04970MegaCult™-C Complete Kit Without Cytokines04971MegaCult™-C Complete Kit with Cytokines