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

Src homology 2 domain-containing phosphatase 2 (Shp2),encoded by Ptpn11,is a member of the nonreceptor protein-tyrosine phosphatase family,and functions in cell survival,proliferation,migration,and differentiation in many tissues. Here we report that loss of Ptpn11 in murine hematopoietic cells leads to bone marrow aplasia and lethality. Mutant mice show rapid loss of hematopoietic stem cells (HSCs) and immature progenitors of all hematopoietic lineages in a gene dosage-dependent and cell-autonomous manner. Ptpn11-deficient HSCs and progenitors undergo apoptosis concomitant with increased Noxa expression. Mutant HSCs/progenitors also show defective Erk and Akt activation in response to stem cell factor and diminished thrombopoietin-evoked Erk activation. Activated Kras alleviates the Ptpn11 requirement for colony formation by progenitors and cytokine/growth factor responsiveness of HSCs,indicating that Ras is functionally downstream of Shp2 in these cells. Thus,Shp2 plays a critical role in controlling the survival and maintenance of HSCs and immature progenitors in vivo. View Publication

Hematopoietic stem cells (HSCs) can be isolated from murine bone marrow by their ability to efflux the Hoechst 33342 dye. This method defines an extremely small and hematopoietically potent subset of cells known as the side population (SP). Recent studies suggest that transplanted single SP cells are capable of lymphohematopoietic repopulation at near absolute efficiencies. Here,we carefully reevaluate the hematopoietic potential of individual SP cells and find substantially lower rates of reconstitution. Our strategy involved the cotransplantation of single SP cells along with different populations of competitor cells that varied in their self-renewal capacity. Even with minimized HSC competition,SP cells were only able to reconstitute up to 35% of recipient mice. Furthermore,through immunophenotyping and clonal in vitro assays we find that SP cells are virtually homogeneous. Isolation of HSCs on the basis of Hoechst exclusion and a single cell-surface marker allows enrichment levels similar to that obtained with complex multicolor strategies. Altogether,our results indicate that even an extremely homogeneous HSC population,based on phenotype and dye efflux,cannot reconstitute mice at absolute efficiencies. View Publication

Parthenogenetic embryonic stem (ES) cells with two oocyte-derived genomes (uniparental) have been proposed as a source of autologous tissue for transplantation. The therapeutic applicability of any uniparental cell type is uncertain due to the consequences of genomic imprinting that in mammalian uniparental tissues causes unbalanced expression of imprinted genes. We transplanted uniparental fetal liver cells into lethally irradiated adult mice to test their capacity to replace adult hematopoietic tissue. Both maternal (gynogenetic) and paternal (androgenetic) derived cells conveyed long-term,multilineage reconstitution of hematopoiesis in recipients,with no associated pathologies. We also establish that uniparental ES cells can differentiate into transplantable hematopoietic progenitors in vitro that contribute to long-term hematopoiesis in recipients. Hematopoietic tissue in recipients maintained fidelity of parent-of-origin methylation marks at the Igf2/H19 locus; however,variability occurred in the maintenance of parental-specific methylation marks at other loci. In summary,despite genomic imprinting and its consequences on development that are particularly evident in the androgenetic phenotype,uniparental cells of both parental origins can form adult-transplantable stem cells and can repopulate an adult organ. View Publication

Taking advantage of fluorescent substrates for their metabolic marker aldehyde dehydrogenase (ALDH),hematopoietic stem cells (HSC) were defined as SSC(lo)ALDH(br) - reflecting their low orthogonal light scattering and bright fluorescence intensity in flow cytometry. Based thereon,we investigated the usefulness of ALDH activity for characterizing HSC graft quality,particularly under stress conditions. We first compared the expression of ALDH vs CD34 in bone marrow and peripheral blood stem cell (PBSC) samples over 7 days. We noted that (i) only ALDH activity but not CD34 expression strongly reflected colony-forming ability over time,and that (ii) PBSC grafts stored at room temperature lost most of their progenitor cells within just 48 h. We then retrospectively related ALDH and CD34 expression as well as granulocyte-macrophage colony-forming units (CFU-GM) potential for 19 cryopreserved allogeneic PBSC grafts to engraftment data. Strikingly,in all six patients who received markedly decreased numbers of SSC(lo)ALDH(br) cells,this was associated not only with almost complete loss of CFU-GM potential but also with delayed establishment/permanent absence of full hematopoietic donor cell chimerism,whereas all other patients showed early complete donor chimerism. In conclusion,we suggest to measure ALDH activity as a surrogate marker for HSC activity,and to transport and store PBSC under controlled cooling conditions. View Publication

BACKGROUND: Conventional gene-therapy applications of hematopoietic stem cells (HSCs) involve purification of CD34+ progenitor cells from the mobilized peripheral blood,ex vivo transduction of the gene of interest into them,and reinfusion of the transduced CD34+ progenitor cells into patients. Eliminating the process of purification would save labor,time and money,while enhancing HSCs viability,transplantability and pluripotency. Lentiviral vectors have been widely used in gene therapy because they infect both dividing and nondividing cells and provide sustained transgene expression. One of the exceptions to this rule is quiescent primary lymphocytes,in which reverse transcription of viral DNA is not completed. METHODS: In the present study,we tested the possibility of targeting CD34+ progenitor cells within nonpurified human mobilized peripheral blood mononuclear cells (mPBMCs) utilizing vesicular stomatitis virus G (VSV-G) pseudotyped lentiviral vectors,based on the assumption that the CD34+ progenitor cells would be preferentially transduced. To further enhance the specificity of vector transduction,we also examined utilizing a modified Sindbis virus envelope (2.2) pseudotyped lentiviral vector,developed in our laboratory,that allows targeted transduction to specific cell receptors via antibody recognition. RESULTS: Both the VSV-G and 2.2 pseudotyped vectors achieved measurable results when they were used to target CD34+ progenitor cells in nonpurified mPBMCs. CONCLUSIONS: Overall,the data obtained demonstrate the potential of ex vivo targeting of CD34+ progenitor cells without purification. View Publication

Cord blood (CB) cells are a useful source of hematopoietic cells for transplantation. The hematopoietic activities of CB cells are different from those of bone marrow and peripheral blood (PB) cells. Platelet recovery is significantly slower after transplantation with CB cells than with cells from other sources. However,the cellular mechanisms underlying these differences have not been elucidated. We compared the surface marker expression profiles of PB and CB hematopoietic cells. We focused on two surface markers of hematopoietic cell immaturity,i.e.,CD34 and AC133. In addition to differences in surface marker expression,the PB and CB cells showed nonidentical differentiation pathways from AC133(+)CD34(+) (immature) hematopoietic cells to terminally differentiated cells. The majority of the AC133(+)CD34(+) PB cells initially lost AC133 expression and eventually became AC133(-)CD34(-) cells. In contrast,the AC133(+)CD34(+) CB cells did not go through the intermediate AC133(-)CD34(+) stage and lost both markers simultaneously. Meanwhile,the vast majority of megakaryocyte progenitors were of the AC133(-)CD34(+) phenotype. We conclude that the delayed recovery of platelets after CB transplantation is due to both subpopulation distribution and the process of differentiation from AC133(+)CD34(+) cells. 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

Autosomal recessive osteopetrosis (ARO) is a group of genetic disorders that involve defects that preclude the normal function of osteoclasts,which differentiate from hematopoietic precursors. In half of human cases,ARO is the result of mutations in the TCIRG1 gene,which codes for a subunit of the vacuolar proton pump that plays a fundamental role in the acidification of the cell-bone interface. Functional mutations of this pump severely impair the resorption of bone mineral. Although postnatal hematopoietic stem cell transplantation can partially rescue the hematological phenotype of ARO,other stigmata of the disease,such as secondary neurological and growth defects,are not reversed. For this reason,ARO is a paradigm for genetic diseases that would benefit from effective prenatal treatment. Using the oc/oc mutant mouse,a murine model whose osteopetrotic phenotype closely recapitulates human TCIRG1-dependent ARO,we report that in utero transplantation of adult bone marrow hematopoietic stem cells can correct the ARO phenotype in a limited number of mice. Here we report that in utero injection of allogeneic fetal liver cells,which include hematopoietic stem cells,into oc/oc mouse fetuses at 13.5 days post coitum produces a high level of engraftment,and the oc/oc phenotype is completely rescued in a high percentage of these mice. Therefore,oc/oc pathology appears to be particularly sensitive to this form of early treatment of the ARO genetic disorder. View Publication

The efficacy of donor HSCT is partly reduced as a result of slow post-transplantation immune recovery. In particular,T cell regeneration is generally delayed,resulting in high infection-related mortality in the first years post-transplantation. Adoptive transfer of in vitro-generated human T cell progenitors seems a promising approach to accelerate T cell recovery in immunocompromised patients. AA may enhance T cell proliferation and differentiation in a controlled,feeder-free environment containing Notch ligands and defined growth factors. Our experiments show a pivotal role for AA during human in vitro T cell development. The blocking of NOS diminished this effect,indicating a role for the citrulline/NO cycle. AA promotes the transition of proT1 to proT2 cells and of preT to DP T cells. Furthermore,the addition of AA to feeder cocultures resulted in development of DP and SP T cells,whereas without AA,a preT cell-stage arrest occurred. We conclude that neither DLL4-expressing feeder cells nor feeder cell conditioned media are required for generating DP T cells from CB and G-CSF-mobilized HSCs and that generation and proliferation of proT and DP T cells are greatly improved by AA. This technology could potentially be used to generate T cell progenitors for adoptive therapy. View Publication

Ex vivo expansion of hematopoietic stem cells (HSCs) has been explored in the fields of stem cell biology,gene therapy,and clinical transplantation. Here,we demonstrate efficient ex vivo expansion of HSCs measured by long-term severe combined immunodeficient (SCID) repopulating cells (SRCs) from human cord blood CD133-sorted cells using a soluble form of Delta1. After a 3-week culture on immobilized Delta1 supplemented with stem cell factor,thrombopoietin,Flt-3 ligand,interleukin (IL)-3,and IL-6/soluble IL-6 receptor chimeric protein (FP6) in a serum- and stromal cell-free condition,we achieved approximately sixfold expansion of SRCs when evaluated by limiting dilution/transplantation assays. The maintenance of full multipotency and self-renewal capacity during culture was confirmed by transplantation to nonobese diabetic/SCID/gammac(null) mice,which showed myeloid,B,T,and natural killer cells as well as CD133(+)CD34(+) cells,and hematopoietic reconstitution in the secondary recipients. Interestingly,the CD133-sorted cells contained approximately 4.5 times more SRCs than the CD34-sorted cells. The present study provides a promising method to expand HSCs and encourages future trials on clinical transplantation. View Publication

Use of oncoretroviral vectors in gene therapy for hemoglobinopathies has been impeded by low titer vectors,genetic instability,and poor expression. Fifteen self- inactivating (SIN) lentiviral vectors using 4 erythroid promoters in combination with 4 erythroid enhancers with or without the woodchuck hepatitis virus postregulatory element (WPRE) were generated using the enhanced green fluorescent protein as a reporter gene. Vectors with high erythroid-specific expression in cell lines were tested in primary human CD34(+) cells and in vivo in the murine bone marrow (BM) transplantation model. Vectors containing the ankyrin-1 promoter showed high-level expression and stable proviral transmission. Two vectors containing the ankyrin-1 promoter and 2 erythroid enhancers (HS-40 plus GATA-1 or HS-40 plus 5-aminolevulinate synthase intron 8 [I8] enhancers) and WPRE expressed at levels higher than the HS2/beta-promoter vector in bulk unilineage erythroid cultures and individual erythroid blast-forming units derived from human BM CD34(+) cells. Sca1(+)/lineage(-) Ly5.1 mouse hematopoietic cells,transduced with these 2 ankyrin-1 promoter vectors,were injected into lethally irradiated Ly5.2 recipients. Eleven weeks after transplantation,high-level expression was seen from both vectors in blood (63%-89% of red blood cells) and erythroid cells in BM (70%-86% engraftment),compared with negligible expression in myeloid and lymphoid lineages in blood,BM,spleen,and thymus (0%-4%). The I8/HS-40-containing vector encoding a hybrid human beta/gamma-globin gene led to 43% to 113% human gamma-globin expression/copy of the mouse alpha-globin gene. Thus,modular use of erythroid-specific enhancers/promoters and WPRE in SIN-lentiviral vectors led to identification of high-titer,stably transmitted vectors with high-level erythroid-specific expression for gene therapy of red cell diseases. View Publication

To test the hypothesis that aging has negative effects on stem-cell homing and engraftment,young or old C57BL/6 bone marrow (BM) cells were injected,using a limiting-dilution,competitive transplantation method,into old or young Ly5 congenic mice. Numbers of hematopoietic stem cells (HSCs) and progenitor cells (HPCs) recovered from BM or spleen were measured and compared with the numbers initially transplanted. Although the frequency of marrow competitive repopulation units (CRUs) increased approximately 2-fold from 2 months to 2 years of age,the BM homing efficiency of old CRUs was approximately 3-fold lower than that of young CRUs. Surprisingly,the overall size of individual stem-cell clones generated in recipients receiving a single CRU was not affected by donor age. However,the increased ages of HSC donors and HSC transplant recipients caused marked skewing of the pattern of engraftment toward the myeloid lineage,indicating that HSC-intrinsic and HSC-extrinsic (microenvironmental) age-related changes favor myelopoiesis. This correlated with changes after transplantation in the rate of recovery of circulating leukocytes,erythrocytes,and platelets. Recovery of the latter was especially blunted in aged recipients. Collectively,these findings may have implications for clinical HSC transplantation in which older persons increasingly serve as donors for elderly patients. View Publication