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

Enforced expression of the HOXB4 transcription factor and downregulation of p21(Cip1/Waf) (p21) can each independently increase proliferation of murine hematopoietic stem cells (HSCs). We asked whether the increase in HSC self-renewal generated by overexpression of HOXB4 is enhanced in p21-deficient HSCs. HOXB4 was overexpressed in hematopoietic cells from wild-type (wt) and p21-/- mice. Bone marrow (BM) cells were transduced with a retroviral vector expressing HOXB4 together with GFP (MIGB4),or a control vector containing GFP alone (MIG) and maintained in liquid culture for up to 11 days. At day 11 of the expansion culture,the number of primary CFU-GM (colony-forming unit granulocyte-macrophage) colonies and the repopulating ability were significantly increased in MIGB4 p21-/- BM (p21B4) cells compared with MIGB4-transduced wt BM (wtB4) cells. To test proliferation of HSCs in vivo,we performed competitive repopulation experiments and obtained significantly higher long-term engraftment of expanded p21B4 cells compared with wtB4 cells. The 5-day expansion of p21B4 HSCs generated 100-fold higher numbers of competitive repopulating units compared with wtMIG and threefold higher numbers compared with wtB4. The findings demonstrate that increased expression of HOXB4,in combination with suppression of p21 expression,could be a useful strategy for effective and robust expansion of HSCs. View Publication

The discovery of a major hematopoietic stem cell pool in midgestation mouse embryo has defined the placenta as an important hematopoietic anatomical site. In this study,we examined the flow cytometric pattern of mouse placenta cells on embryonic days (E) 10.5 to E15.5,in view of CD45 and c-Kit expression. We also determined which population of these cells shows differentiation potential toward multiple hematopoietic lineages by performing coculture with OP9 stromal cells and colony-forming assay in methylcellulose. Only CD45(+)c-Kit(+) population showed the ability to form hematopoietic colonies including multiple lineages. To distinguish which fraction of placenta cells have the hematopoietic activity,we used GFP transgenic mice in which the fetal part of the placenta is GFP positive and the maternal part is GFP negative. E11.5 and E13.5 CD45(+)c-Kit(+) placental cells that have ability to form hematopoietic colonies are the fetal GFP positive placental cells. E11.5 and E13.5 CD45(+)c-Kit(+) placental cells that have an ability to form hematopoietic colonies mainly reside in Hoechst dye-effluxing side population area (SP). Taken together,in the placenta of mouse embryo,we conclude that SP cells in the CD45(+)c-Kit(+) fetal placental cells have the ability to form hematopoietic colonies. View Publication

The G protein-coupled receptor (GPCR),chemokine CXC-type receptor 4 (CXCR4),and its ligand,CXCL12,mediate the retention of polymorphonuclear neutrophils (PMNs) and hematopoietic stem and progenitor cells (HSPCs) in the bone marrow. Agents that disrupt CXCL12-mediated chemoattraction of CXCR4-expressing cells mobilize PMNs and HSPCs into the peripheral circulation and are therapeutically useful for HSPC collection before autologous bone marrow transplantation (ABMT). Our aim was to develop unique CXCR4-targeted therapeutics using lipopeptide GPCR modulators called pepducins. A pepducin is a synthetic molecule composed of a peptide derived from the amino acid sequence of one of the intracellular (IC) loops of a target GPCR coupled to a lipid tether. We prepared and screened a small CXCR4-targeted pepducin library and identified several pepducins with in vitro agonist activity,including ATI-2341,whose peptide sequence derives from the first IC loop. ATI-2341 induced CXCR4- and G protein-dependent signaling,receptor internalization,and chemotaxis in CXCR4-expressing cells. It also induced dose-dependent peritoneal recruitment of PMNs when administered i.p. to mice. However,when administered systemically by i.v. bolus,ATI-2341 acted as a functional antagonist and dose-dependently mediated release of PMNs from the bone marrow of both mice and cynomolgus monkeys. ATI-2341-mediated release of granulocyte/macrophage progenitor cells from the bone marrow was confirmed by colony-forming assays. We conclude that ATI-2341 is a potent and efficacious mobilizer of bone marrow PMNs and HSPCs and could represent a previously undescribed therapeutic approach for the recruitment of HSPCs before ABMT. View Publication

BACKGROUND Ageing is a complex phenomenon that leads to decreased proliferative activity,loss of function of the cells,and cellular senescence. Senescence of the immune system exacerbates individual's immune response,both humoral and cellular but increases the frequency of infections. We hypothesized that physiological ageing of adaptive immune system occurs in recipients of allogeneic hematopoietic cells transplant (allo-HCT) at faster rate when compared to their respective donors since the small number of donor cells undergo immense proliferative stress restoring recipients hematopoiesis. We compared molecular characterizations of ageing between recipients and donors of allo-HCT: telomeric length and immunophenotypic changes in main lymphocyte subsets - CD4+,CD8+,CD19+,CD56+. RESULTS Median telomeric length (TL) of CD8+ lymphocytes was significantly longer in donors compared to recipients (on average 2,1 kb and 1,7 kb respectively,p??=??0,02). Similar trends were observed for CD4+ and CD19+ although the results did not reach statistical significance. We have also found trends in the immunophenotype between recipients and donors in the subpopulations of CD4+ (na{\{i}}ve and effector memory) CD8+ Eomes+ and B-lymphocytes (B1 and B2). Lower infection risk recipients had also a significantly greater percentage of NK cells (22 3%) than high-risk patients (9 3%) p??=??0 04. CONCLUSION Our data do not support the initial hypothesis of accelerated aging in the long term all-HCT recipients with the exception of the recipients lymphocytes (mainly CD8+) which present some molecular features characteristic for physiological ageing (telomeric shortening immunophenotype) when compared to their respective donors. However a history of lower infection numbers in HCT recipients seems to be associated with increased percentage of NK cells. The history of GVHD seems not to affect the rate of ageing. Therefore it is safe to conclude that the observed subtle differences between recipients' and donors' cells result mainly from the proliferative stress in the early period after allo-HCT and the difference between hosts' and recipients' microenvironments." View Publication

PURPOSE: Although most patients with estrogen receptor α (ER)-positive breast cancer initially respond to endocrine therapy,many ultimately develop resistance to antiestrogens. However,mechanisms of antiestrogen resistance and biomarkers predictive of such resistance are underdeveloped. EXPERIMENTAL DESIGN: We adapted four ER(+) human breast cancer cell lines to grow in an estrogen-depleted medium. A gene signature of estrogen independence was developed by comparing expression profiles of long-term estrogen-deprived (LTED) cells to their parental counterparts. We evaluated the ability of the LTED signature to predict tumor response to neoadjuvant therapy with an aromatase inhibitor and disease outcome following adjuvant tamoxifen. We utilized Gene Set Analysis (GSA) of LTED cell gene expression profiles and a loss-of-function approach to identify pathways causally associated with resistance to endocrine therapy. RESULTS: The LTED gene expression signature was predictive of high tumor cell proliferation following neoadjuvant therapy with anastrozole and letrozole,each in different patient cohorts. This signature was also predictive of poor recurrence-free survival in two studies of patients treated with adjuvant tamoxifen. Bioinformatic interrogation of expression profiles in LTED cells revealed a signature of MYC activation. The MYC activation signature and high MYC protein levels were both predictive of poor outcome following tamoxifen therapy. Finally,knockdown of MYC inhibited LTED cell growth. CONCLUSIONS: A gene expression signature derived from ER(+) breast cancer cells with acquired hormone independence predicted tumor response to aromatase inhibitors and associated with clinical markers of resistance to tamoxifen. Activation of the MYC pathway was associated with this resistance. View Publication

High levels of aldehyde dehydrogenase (ALDH) activity have been proposed to be a common feature of stem cells. Adult hematopoietic,neural,and cancer stem cells have all been reported to have high ALDH activity,detected using Aldefluor,a fluorogenic substrate for ALDH. This activity has been attributed to Aldh1a1,an enzyme that is expressed at high levels in stem cells and that has been suggested to regulate stem cell function. Nonetheless,Aldh1a1 function in stem cells has never been tested genetically. We observed that Aldh1a1 was preferentially expressed in mouse hematopoietic stem cells (HSCs) and expression increased with age. Hematopoietic cells from Aldh1a1-deficient mice exhibited increased sensitivity to cyclophosphamide in a non-cell-autonomous manner,consistent with its role in cyclophosphamide metabolism in the liver. However,Aldh1a1 deficiency did not affect hematopoiesis,HSC function,or the capacity to reconstitute irradiated recipients in young or old adult mice. Aldh1a1 deficiency also did not affect Aldefluor staining of hematopoietic cells. Finally,Aldh1a1 deficiency did not affect the function of stem cells from the adult central or peripheral nervous systems. Aldh1a1 is not a critical regulator of adult stem cell function or Aldefluor staining in mice. View Publication

Because hematopoietic stem cells are rich in aldehyde dehydrogenase (ALDH) activity,we developed a fluorescent substrate for ALDH,termed BODIPY aminoacetaldehyde (BAAA),and tested its potential for isolating primitive human hematopoietic cells. A population of cells with low orthogonal light scattering and bright fluorescence intensity (SSC(lo)ALDH(br) cells) could be readily fractionated from human umbilical cord blood cells costained with BAAA and the multidrug-resistance inhibitor verapamil. The SSC(lo)ALDH(br) population was depleted of lineage-committed cells,40-90% pure for CD34(+)CD38(lo/-) cells,and enriched 50- to 100-fold for primitive hematopoietic progenitors detected in short- and long-term culture analyses. Together,these observations indicate that fractionating human hematopoietic stem cells on the basis of ALDH activity using BAAA is an effective method for isolating primitive human hematopoietic progenitors. This technique may be useful for isolating stem cells from other tissues as well. View Publication

Pluripotent stem cell-derived cardiomyocytes are currently being investigated for in vitro human heart models and as potential therapeutics for heart failure. In this study,we have developed a differentiation protocol that minimizes the need for specific human embryonic stem cell (hESC) line optimization. We first reduced the heterogeneity that exists within the starting population of bulk cultured hESCs by using cells adapted to single-cell passaging in a 2-dimensional (2D) culture format. Compared with bulk cultures,single-cell cultures comprised larger fractions of TG30(hi)/OCT4(hi) cells,corresponding to an increased expression of pluripotency markers OCT4 and NANOG,and reduced expression of early lineage-specific markers. A 2D temporal differentiation protocol was then developed,aimed at reducing the inherent heterogeneity and variability of embryoid body-based protocols,with induction of primitive streak cells using bone morphogenetic protein 4 and activin A,followed by cardiogenesis via inhibition of Wnt signaling using the small molecules IWP-4 or IWR-1. IWP-4 treatment resulted in a large percentage of cells expressing low amounts of cardiac myosin heavy chain and expression of early cardiac progenitor markers ISL1 and NKX2-5,thus indicating the production of large numbers of immature cardiomyocytes (˜65,000/cm(2) or ˜1.5 per input hESC). This protocol was shown to be effective in HES3,H9,and,to a lesser,extent,MEL1 hESC lines. In addition,we observed that IWR-1 induced predominantly atrial myosin light chain (MLC2a) expression,whereas IWP-4 induced expression of both atrial (MLC2a) and ventricular (MLC2v) forms. The intrinsic flexibility and scalability of this 2D protocol mean that the output population of primitive cardiomyocytes will be particularly accessible and useful for the investigation of molecular mechanisms driving terminal cardiomyocyte differentiation,and potentially for the future treatment of heart failure. View Publication

Gene therapy for a wide variety of disorders would be greatly enhanced by the development of vectors that could be targeted for gene delivery to specific populations of cells. We describe here high-efficiency targeted transduction based on a novel targeting strategy that exploits the ability of retroviruses to incorporate host cell proteins into the surface of the viral particle as they bud through the plasma membrane. Ecotropic retroviral particles produced in cells engineered to express the membrane-bound form of stem cell factor (mbSCF) transduce both human cell lines and primary cells with high efficiency in a strictly c-kit (SCF receptor)-dependent fashion. The availability of efficient targeted vectors provides a platform for the development of a new generation of therapies using in vivo gene delivery. View Publication

Ex vivo expansion of hematopoietic stem cells (HSCs) is important for many clinical applications,and knowledge of the surface phenotype of ex vivo-expanded HSCs will be critical to their purification and analysis. Here,we developed a simple culture system for bone marrow (BM) HSCs using low levels of stem cell factor (SCF),thrombopoietin (TPO),insulin-like growth factor 2 (IGF-2),and fibroblast growth factor-1 (FGF-1) in serum-free medium. As measured by competitive repopulation analyses,there was a more than 20-fold increase in numbers of long-term (LT)-HSCs after a 10-day culture of total BM cells. Culture of BM side population" (SP) cells� View Publication

Cytoplasmic APOBEC3G has been reported to block wild-type human immunodeficiency virus type 1 (HIV-1) infection in some primary cells. It is not known whether cytoplasmic APOBEC3G has residual activity in activated T cells,even though virion-packaged APOBEC3G does restrict HIV-1 in activated T cells. Because we found that APOBEC3G expression is greater in activated CD4(+) T-helper type 1 (Th1) lymphocytes than in T-helper type 2 (Th2) lymphocytes,we hypothesized that residual target cell restriction of incoming Vif-positive virions that lack APOBEC3G,if present,would be greater in Th1 than Th2 lymphocytes. Infection of activated Th1 cells with APOBEC3-negative virions did result in decreased amounts of early and late reverse transcription products and integrated virus relative to infection of activated Th2 cells. Two-long terminal repeat (2-LTR) circles,which are formed in the nucleus when reverse transcripts do not integrate,were increased after APOBEC3-negative virus infection of activated Th1 cells relative to infection of activated Th2 cells. In contrast,2-LTR circle forms were decreased after infection of APOBEC3G-negative cells with APOBEC3G-containing virions relative to APOBEC3G-negative virions and with Th1 cell-produced virions relative to Th2 cell-produced virions. Increasing APOBEC3G in Th2 cells and decreasing APOBEC3G in Th1 cells modulated the target cell phenotypes,indicating causation by APOBEC3G. The comparison between activated Th1 and Th2 cells indicates that cytoplasmic APOBEC3G in activated Th1 cells partially restricts reverse transcription and integration of incoming Vif-positive,APOBEC3G-negative HIV-1. The differing effects of cytoplasmic and virion-packaged APOBEC3G on 2-LTR circle formation indicate a difference in their antiviral mechanisms. View Publication