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

Homing of hematopoietic stem cells (HSCs) into the bone marrow (BM) is a prerequisite for establishment of hematopoiesis during development and following transplantation. However,the molecular interactions that control homing of HSCs,in particular,of fetal HSCs,are not well understood. Herein,we studied the role of the alpha6 and alpha4 integrin receptors for homing and engraftment of fetal liver (FL) HSCs and hematopoietic progenitor cells (HPCs) to adult BM by using integrin alpha6 gene-deleted mice and function-blocking antibodies. Both integrins were ubiquitously expressed in FL Lin(-)Sca-1(+)Kit(+) (LSK) cells. Deletion of integrin alpha6 receptor or inhibition by a function-blocking antibody inhibited FL LSK cell adhesion to its extracellular ligands,laminins-411 and -511 in vitro,and significantly reduced homing of HPCs to BM. In contrast,the anti-integrin alpha6 antibody did not inhibit BM homing of HSCs. In agreement with this,integrin alpha6 gene-deleted FL HSCs did not display any homing or engraftment defect compared with wild-type littermates. In contrast,inhibition of integrin alpha4 receptor by a function-blocking antibody virtually abrogated homing of both FL HSCs and HPCs to BM,indicating distinct functions for integrin alpha6 and alpha4 receptors during homing of fetal HSCs and HPCs. View Publication

Mesenchymal stem cells (MSCs) may be used as powerful tools for the repair and regeneration of damaged tissues. However,isolating tissue specific-derived MSCs may cause pain and increased infection rates in patients,and repetitive isolations may be required. To overcome these difficulties,we have examined alternative methods for MSC production. Here,we show that induced pluripotent stem cells (iPSCs) may be differentiated into mesenchymal stem cells (iMSCs) following exposure to SB431542. Purified iMSCs were administered to mdx mice to study skeletal muscle regeneration in a murine model of muscular dystrophy. Purified iMSCs displayed fibroblast-like morphology,formed three-dimensional spheroid structures,and expressed characteristic mesenchymal stem cell surface markers such as CD29,CD33,CD73,CD90,and CD105. Moreover,iMSCs were capable of differentiating into adipogenic,osteogenic,and chondrogenic lineages. Transplanting iMSC cells to tibialis anterior skeletal muscle tissue in mdx mice lowered oxidative damage as evidenced by a reduction in nitrotyrosine levels,and normal dystrophin expression levels were restored. This study demonstrates the therapeutic potential of purified iMSCs in skeletal muscle regeneration in mdx mice,and suggests that iPSCs are a viable alternate source for deriving MSCs as needed. textcopyright 2014 Elsevier Inc. View Publication

BACKGROUND: Persistent mixed chimerism represents a state in which recipient and donor cells stably co-exist after hematopoietic stem cell transplantation. However,since in most of the studies reported in literature the engraftment state was observed in the nucleated cells,in this study we determined the donor origin of the mature erythrocytes of patients with persistent mixed chimerism after transplantation for hemoglobinopathies. Results were compared with the engraftment state observed in singly picked out burst-forming unit - erythroid colonies and in the nucleated cells collected from the peripheral blood and from the bone marrow. DESIGN AND METHODS: The donor origin of the erythrocytes was determined analyzing differences on the surface antigens of the erythrocyte suspension after incubation with anti-ABO and/or anti-C,-c,-D,-E and -e monoclonal antibodies by a flow cytometer. Analysis of short tandem repeats was used to determine the donor origin of nucleated cells and burst-forming unit - erythroid colonies singly picked out after 14 days of incubation. RESULTS: The proportions of donor-derived nucleated cells in four transplanted patients affected by hemoglobinopathies were 71%,46%,15% and 25% at day 1364,1385,1314 and 932,respectively. Similar results were obtained for the erythroid precursors,analyzing the donor/recipient origin of the burst-forming unit - erythroid colonies. In contrast,on the same days of observation,the proportions of donor-derived erythrocytes in the four patients with persistent mixed chimerism were 100%,100%,73% and 90%. Conclusions Our results showed that most of the erythrocytes present in four long-term transplanted patients affected by hemoglobinopathies and characterized by the presence of few donor engrafted nucleated cells were of donor origin. The indication that small proportions of donor engrafted cells might be sufficient for clinical control of the disease in patients affected by hemoglobinopathies is relevant,although the biological mechanisms underlying these observations need further investigation. View Publication

Teratoma formation,the standard in vivo pluripotency assay,is also frequently used as a tumorigenicity assay. A common concern in therapeutic stem cell applications is the tumorigenicity potential of a small number of cell impurities in the final product. Estimation of this small number is hampered by the inaccurate methodology of the tumorigenicity assay. Hence,a protocol for tumorigenicity assay that can deliver a defined number of cells,without error introduced by leakage or migration of cells is needed. In this study,we tested our modified transplantation method that allows for transplant of small numbers of pluripotent stem cells (PSCs) under the kidney capsule with minimal cell leakage. A glass capillary with a finely shaped tip and an attached mouth pipette was used to inject PSCs into the rodent kidney capsule. H9 embryonic and induced PSCs were tagged with Fluc and green fluorescence protein reporter genes and divided in different cell doses for transplantation. Bioluminescence imaging (BLI) on the day of surgery showed that the cell signal was confined to the kidney and signal intensity correlated with increasing transplant cell numbers. The overall cell leakage rate was 17% and the rodent survival rate was 96%. Teratoma formation was observed in rodents transplanted with cell numbers between 1 × 10(5)-2 × 10(6). We conclude that this modified procedure for transplanting PSCs under the kidney capsule allows for transplantation of a defined number of PSCs with significant reduction of error associated with cell leakage from the transplant site. View Publication

Supplementation of mesenchymal stem cells (MSCs) during hematopoietic stem cell (HSC) transplantation alleviates complications such as graft-versus-host disease,leading to a speedy recovery of hematopoiesis. To meet this clinical demand,a fast MSC expansion method is required. In the present study,we examined the feasibility of using a rotary bioreactor system to expand MSCs from isolated bone marrow mononuclear cells. The cells were cultured in a rotary bioreactor with Myelocult medium containing a combination of supplementary factors,including stem cell factor and interleukin-3 and -6. After 8 days of culture,total cell numbers,Stro-1(+)CD44(+)CD34(-) MSCs,and CD34(+)CD44(+)Stro-1(-) HSCs were increased 9-,29-,and 8-fold,respectively. Colony-forming efficiency-fibroblast per day of the bioreactor-treated cells was 1.44-fold higher than that of the cells without bioreactor treatment. The bioreactor-expanded MSCs showed expression of primitive MSC markers endoglin (SH2) and vimentin,whereas markers associated with lineage differentiation,including osteocalcin (osteogenesis),type II collagen (chondrogenesis),and C/EBP-alpha (CCAAT/enhancer-binding protein-alpha) (adipogenesis),were not detected. Upon induction,the bioreactor-expanded MSCs were able to differentiate into osteoblasts,chondrocytes,and adipocytes. We conclude that the rotary bioreactor with the modified Myelocult medium reported in this study may be used to rapidly expand MSCs. View Publication

Human cord blood (CB)-derived CD133+ cells carry characteristics of primitive hematopoietic cells and proffer an alternative for CD34+ cells in hematopoietic stem cell (HSC) transplantation. To characterize the CD133+ cell population on a genetic level,a global expression analysis of CD133+ cells was performed using oligonucleotide microarrays. CD133+ cells were purified from four fresh CB units by immunomagnetic selection. All four CD133+ samples showed significant similarity in their gene expression pattern,whereas they differed clearly from the CD133- control samples. In all,690 transcripts were differentially expressed between CD133+ and CD133- cells. Of these,393 were increased and 297 were decreased in CD133+ cells. The highest overexpression was noted in genes associated with metabolism,cellular physiological processes,cell communication,and development. A set of 257 transcripts expressed solely in the CD133+ cell population was identified. Colony-forming unit (CFU) assay was used to detect the clonal progeny of precursors present in the studied cell populations. The results demonstrate that CD133+ cells express primitive markers and possess clonogenic progenitor capacity. This study provides a gene expression profile for human CD133+ cells. It presents a set of genes that may be used to unravel the properties of the CD133+ cell population,assumed to be highly enriched in HSCs. View Publication

Here we describe the in vitro generation of a novel adherent cell fraction derived from highly enriched,mobilized CD133(+) peripheral blood cells after their culture with Flt3/Flk2 ligand and interleukin-6 for 3 to 5 weeks. These cells lack markers of hematopoietic stem cells,endothelial cells,mesenchymal cells,dendritic cells,and stromal fibroblasts. However,all adherent cells expressed the adhesion molecules VE-cadherin,CD54,and CD44. They were also positive for CD164 and CD172a (signal regulatory protein-alpha) and for a stem cell antigen defined by the recently described antibody W7C5. Adherent cells can either spontaneously or upon stimulation with stem cell factor give rise to a transplantable,nonadherent CD133(+)CD34(-) stem cell subset. These cells do not generate in vitro hematopoietic colonies. However,their transplantation into nonobese diabetic/severe combined immunodeficiency (NOD/SCID) mice induced substantially higher long-term multilineage engraftment compared with that of freshly isolated CD34(+) cells,suggesting that these cells are highly enriched in SCID-repopulating cells. In addition to cells of the myeloid lineage,nonadherent CD34(-) cells were able to give rise to human cells with B-,T-,and natural killer-cell phenotype. Hence,these cells possess a distinct in vivo differentiation potential compared with that of CD34(+) stem cells and may therefore provide an alternative to CD34(+) progenitor cells for transplantation. View Publication