搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

Injury induces the recruitment of bone marrow-derived cells (BMDCs) that contribute to the repair and regeneration process. The behavior of BMDCs in injured tissue has a profound effect on repair,but the regulation of BMDC behavior is poorly understood. Aberrant recruitment/retention of these cells in wounds of diabetic patients and animal models is associated with chronic inflammation and impaired healing. BMD Gr-1(+)CD11b(+) cells function as immune suppressor cells and contribute significantly to tumor-induced neovascularization. Here we report that Gr-1(+)CD11b(+) cells also contribute to injury-induced neovascularization,but show altered recruitment/retention kinetics in the diabetic environment. Moreover,diabetic-derived Gr-1(+)CD11b(+) cells fail to stimulate neovascularization in vivo and have aberrant proliferative,chemotaxis,adhesion,and differentiation potential. Previously we demonstrated that gene transfer of HOXA3 to wounds of diabetic mice is taken up by and expressed by recruited BMDCs. This is associated with a suppressed inflammatory response,enhanced neovascularization,and accelerated wound healing. Here we show that sustained expression of Hoxa3 in diabetic-derived BMD Gr-1(+)CD11b(+) cells reverses their diabetic phenotype. These findings demonstrate that manipulation of adult stem/progenitor cells ex vivo could be used as a potential therapy in patients with impaired wound healing. View Publication

PTPN11 encodes the protein tyrosine phosphatase SHP-2,which relays signals from growth factor receptors to Ras and other effectors. Germline PTPN11 mutations underlie about 50% of Noonan syndrome (NS),a developmental disorder that is associated with an elevated risk of juvenile myelomonocytic leukemia (JMML). Somatic PTPN11 mutations were recently identified in about 35% of patients with JMML; these mutations introduce amino acid substitutions that are largely distinct from those found in NS. We assessed the functional consequences of leukemia-associated PTPN11 mutations in murine hematopoietic cells. Expressing an E76K SHP-2 protein induced a hypersensitive pattern of granulocyte-macrophage colony-forming unit (CFU-GM) colony growth in response to granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin 3 (IL-3) that was dependent on SHP-2 catalytic activity. E76K SHP-2 expression also enhanced the growth of immature progenitor cells with high replating potential,perturbed erythroid growth,and impaired normal differentiation in liquid cultures. In addition,leukemia-associated SHP-2 mutations conferred a stronger phenotype than a germline mutation found in patients with NS. Mutant SHP-2 proteins induce aberrant growth in multiple hematopoietic compartments,which supports a primary role of hyperactive Ras in the pathogenesis of JMML. View Publication

Dyskeratosis congenita (DC) is an inherited bone marrow (BM) failure syndrome associated with mutations in telomerase genes and the acquisition of shortened telomeres in blood cells. To investigate the basis of the compromised hematopoiesis seen in DC,we analyzed cells from granulocyte colony-stimulating factor mobilized peripheral blood (mPB) collections from 5 members of a family with autosomal dominant DC with a hTERC mutation. Premobilization BM samples were hypocellular,and percentages of CD34(+) cells in marrow and mPB collections were significantly below values for age-matched controls in 4 DC subjects. Directly clonogenic cells,although present at normal frequencies within the CD34(+) subset,were therefore absolutely decreased. In contrast,even the frequency of long-term culture-initiating cells within the CD34(+) DC mPB cells was decreased,and the telomere lengths of these cells were also markedly reduced. Nevertheless,the different lineages of mature cells were produced in normal numbers in vitro. These results suggest that marrow failure in DC is caused by a reduction in the ability of hematopoietic stem cells to sustain their numbers due to telomere impairment rather than a qualitative defect in their commitment to specific lineages or in the ability of their lineage-restricted progeny to execute normal differentiation programs. View Publication

The detection of primitive hematopoietic cells based on repopulation of immune-deficient mice is a powerful tool to characterize the human stem-cell compartment. Here,we identify a newly discovered human repopulating cell,distinct from previously identified repopulating cells,that initiates multilineage hematopoiesis in NOD/SCID mice. We call such cells CD34neg-SCID repopulating cells,or CD34neg-SRC. CD34neg-SRC are restricted to a Lin-CD34-CD38- population without detectable surface markers for multiple lineages and CD38 or those previously associated with stem cells (HLA-DR,Thy-1 and CD34). In contrast to CD34+ subfractions,Lin-CD34-CD38- cells have low clonogenicity in short-and long-term in vitro assays. The number of CD34neg-SRC increased in short-term suspension cultures in conditions that did not maintain SRC derived from CD34+ populations,providing independent biological evidence of their distinctiveness. The identification of this newly discovered cell demonstrates complexity of the organization of the human stem-cell compartment and has important implications for clinical applications involving stem-cell transplantation. View Publication

Bromodomain-containing protein 4 (BRD4) is an important epigenetic reader implicated in the pathogenesis of a number of different cancers and other diseases. Brd4-null mouse embryos die shortly after implantation and are compromised in their ability to maintain the inner cell mass,which gives rise to embryonic stem cells (ESCs). Here we report that BRD4 regulates expression of the pluripotency factor Nanog in mouse ESCs and preimplantation embryos,as well as in human ESCs and embryonic cancer stem cells. Inhibition of BRD4 function using a chemical inhibitor,small interfering RNAs,or a dominant-negative approach suppresses Nanog expression,and abolishes the self-renewal ability of ESCs. We also find that BRD4 associates with BRG1 (brahma-related gene 1,aka Smarca4 (SWI/SNF-related,matrix-associated,actin-dependent regulator of chromatin,subfamily a,member 4)),a key regulator of ESC self-renewal and pluripotency,in the Nanog regulatory regions to regulate Nanog expression. Our study identifies Nanog as a novel BRD4 target gene,providing new insights for the biological function of BRD4 in stem cells and mouse embryos. Knowledge gained from these non-cancerous systems will facilitate future investigations of how Brd4 dysfunction leads to cancers.Cell Death and Differentiation advance online publication,22 August 2014; doi:10.1038/cdd.2014.124. View Publication

Effects of angiotensin (Ang)-(1-7),an AngII metabolite,on bone marrow-derived hematopoietic cells were studied. We identified Ang-(1-7) to stimulate proliferation of human CD34(+) and mononuclear cells in vitro. Under in vivo conditions,we monitored proliferation and differentiation of human cord blood mononuclear cells in NOD/SCID mice. Ang-(1-7) stimulated differentially human cells in bone marrow and accumulated them in the spleen. The number of HLA-I(+) and CD34(+) cells in the bone marrow was increased 42-fold and 600-fold,respectively. These results indicate a decisive impact of Ang-(1-7) on hematopoiesis and its promising therapeutic potential in diseases requiring progenitor stimulation. View Publication

Hematopoietic stem cells (HSC) can be harmed by disease,chemotherapy,radiation,and normal aging. We show in this study that damage also occurs in mice repeatedly treated with very low doses of LPS. Overall health of the animals was good,and there were relatively minor changes in marrow hematopoietic progenitors. However,HSC were unable to maintain quiescence,and transplantation revealed them to be myeloid skewed. Moreover,HSC from treated mice were not sustained in serial transplants and produced lymphoid progenitors with low levels of the E47 transcription factor. This phenomenon was previously seen in normal aging. Screening identified mAbs that resolve HSC subsets,and relative proportions of these HSC changed with age and/or chronic LPS treatment. For example,minor CD150(Hi)CD48(-) populations lacking CD86 or CD18 expanded. Simultaneous loss of CD150(Lo/-)CD48(-) HSC and gain of the normally rare subsets,in parallel with diminished transplantation potential,would be consistent with age- or TLR-related injury. In contrast,HSC in old mice differed from those in LPS-treated animals with respect to VCAM-1 or CD41 expression and lacked proliferation abnormalities. HSC can be exposed to endogenous and pathogen-derived TLR ligands during persistent low-grade infections. This stimulation might contribute in part to HSC senescence and ultimately compromise immunity. View Publication

The question of whether dedicated progenitor cells exist in adult vertebrate pancreas remains controversial. Centroacinar cells and terminal duct (CA/TD) cells lie at the junction between peripheral acinar cells and the adjacent ductal epithelium,and are frequently included among cell types proposed as candidate pancreatic progenitors. However these cells have not previously been isolated in a manner that allows formal assessment of their progenitor capacities. We have found that a subset of adult CA/TD cells are characterized by high levels of ALDH1 enzymatic activity,related to high-level expression of both Aldh1a1 and Aldh1a7. This allows their isolation by FACS using a fluorogenic ALDH1 substrate. FACS-isolated CA/TD cells are relatively depleted of transcripts associated with differentiated pancreatic cell types. In contrast,they are markedly enriched for transcripts encoding Sca1,Sdf1,c-Met,Nestin,and Sox9,markers previously associated with progenitor populations in embryonic pancreas and other tissues. FACS-sorted CA/TD cells are uniquely able to form self-renewing pancreatospheres" in suspension culture� View Publication

The regulatory pathways necessary for the maintenance of adult hematopoietic stem cells (HSCs) remain poorly defined. By using loss-of-function approaches,we report a selective and cell-autonomous requirement for the p300/CBP-binding transcriptional coactivator Cited2 in adult HSC maintenance. Conditional deletion of Cited2 in the adult mouse results in loss of HSCs causing multilineage bone marrow failure and increased lethality. In contrast,conditional ablation of Cited2 after lineage specification in lymphoid and myeloid lineages has no impact on the maintenance of these lineages. Additional deletion of Ink4a/Arf (encoding p16(Ink4a) and p19(Arf)) or Trp53 (encoding p53,a downstream target of p19(Arf)) in a Cited2-deficient background restores HSC functionality and rescues mice from bone marrow failure. Furthermore,we show that the critical role of Cited2 in primitive hematopoietic cells is conserved in humans. Taken together,our studies provide genetic evidence that Cited2 selectively maintains adult HSC functions,at least in part,via Ink4a/Arf and Trp53. View Publication

The generation of hematopoietic cells from human embryonic stem cells (hESC) has raised the possibility of using hESC as an alternative donor source for transplantation. However,functional defects identified in hESC-derived cells limit their use for full lymphohematopoietic reconstitution. The purpose of the present study was to define and quantitate key functional and molecular differences between CD34(+) hematopoietic progenitor subsets derived from hESC and CD34(+) subsets from umbilical cord blood (UCB) representing definitive hematopoiesis. Two distinct sub-populations were generated following mesodermal differentiation from hESC,a CD34(bright) (hematoendothelial) and CD34(dim) (hematopoietic-restricted) subset. Limiting dilution analysis revealed profound defects in clonal proliferation relative to UCB particularly in B lymphoid conditions. Transcription factors normally expressed at specific commitment stages during B lymphoid development from UCB-CD34(+) cells were aberrantly expressed in hESC-derived CD34(+) cells. Moreover,strong negative regulators of lymphopoiesis such as the adaptor protein LNK and CCAAT/enhancer-binding protein-α (CEBPα),were exclusively expressed in hESC-CD34(+) subsets. Knockdown of LNK lead to an increase in hematopoietic progenitors generated from hESCs. The aberrant molecular profile seen in hESC-CD34(+) cells represents persistence of transcripts first expressed in undifferentiated hESC and/or CD326-CD56(+) mesoderm progenitors,and may contribute to the block in definitive hematopoiesis from hESC. View Publication

Gene therapy has proven its potential to cure diseases of the hematopoietic system. However,severe adverse events observed in clinical trials have demanded improved gene-transfer conditions. Whereas progress has been made to reduce the genotoxicity of integrating gene vectors,the role of pretransplantation cultivation is less well investigated. We observed that the STIF (stem cell factor [SCF],thrombopoietin [TPO],insulin-like growth factor-2 [IGF-2],and fibroblast growth factor-1 [FGF-1]) cytokine cocktail developed to effectively expand murine hematopoietic stem cells (HSCs) also supports the expansion of leukemia-initiating insertional mutants caused by gammaretroviral gene transfer. We compared 4 protocols to examine the impact of prestimulation and posttransduction culture in STIF in the context of lentiviral gene transfer. Observing 56 transplanted mice for up to 9.5 months,we found consistent engraftment and gene-marking rates after prolonged ex vivo expansion. Although a lentiviral vector with a validated insertional-mutagenic potential was used,longitudinal analysis identifying textgreater 7000 integration sites revealed polyclonal fluctuations,especially in expanded" groups� View Publication

A population of CD133(+)Lin(-)CD45(-) very small embryonic/epiblast-like stem cells (VSELs) has been purified by multiparameter sorting from umbilical cord blood (UCB). To speed up isolation of these cells,we employed anti-CD133-conjugated paramagnetic beads followed by staining with Aldefluor to detect aldehyde dehydrogenase (ALDH) activity; we subsequently sorted CD45(-)/GlyA(-)/CD133(+)/ALDH(high) and CD45(-)/GlyA(-)/CD133(+)/ALDH(low) cells,which are enriched for VSELs,and CD45(+)/GlyA /CD133(+)/ALDH(high) and CD45(+)/GlyA(-)/CD133(+)/ALDH(low) cells,which are enriched for hematopoietic stem/progenitor cells (HSPCs). Although freshly isolated CD45(-) VSELs did not grow hematopoietic colonies,the same cells,when activated/expanded over OP9 stromal support,acquired hematopoietic potential and grew colonies composed of CD45(+) hematopoietic cells in methylcellulose cultures. We also observed that CD45(-)/GlyA(-)/CD133(+)/ALDH(high) VSELs grew colonies earlier than CD45(-)/GlyA(-)/CD133(+)/ALDH(low) VSELs,which suggests that the latter cells need more time to acquire hematopoietic commitment. In support of this possibility,real-time polymerase chain reaction analysis confirmed that,whereas freshly isolated CD45(-)/GlyA(-)/CD133(+)/ALDH(high) VSELs express more hematopoietic transcripts (for example,c-myb),CD45(-)/GlyA(-)/CD133(+)/ALDH(low) VSELs exhibit higher levels of pluripotent stem cell markers (for example,Oct-4). More importantly,hematopoietic cells derived from VSELs that were co-cultured over OP9 support were able to establish human lympho-hematopoietic chimerism in lethally irradiated non-obese diabetic/severe combined immunodeficiency mice 4-6 weeks after transplantation. Overall,our data suggest that UCB-VSELs correspond to the most primitive population of HSPCs in UCB. View Publication