Hematopoietic capacity of preterm cord blood hematopoietic stem/progenitor cells

Full-term cord blood (TCB) hematopoietic stem/progenitor cells (HSC/HPCs) are used for stem cell transplantation and are well characterized. However, the properties of preterm cord blood (PCB) HSC/HPCs remain unclear. In the present study, we compared HSC/HPCs from TCB and PCB with respect to their expression of surface markers, homing capacity and ability to repopulate HSCs in the NOD/Shi-scid mice bone marrow. The proportion of CD34+CD38− cells was significantly higher in PCB. On the other hand, the engraftment rate of TCB CD34+ cells into NOD/Shi-scid mice was significantly higher than PCB CD34+ cells. The expression of VLA4 was stronger among TCB CD34+ cells than PCB CD34+ cells. Moreover, there was a positive correlation between the proportion of CD34+CXCR4+ cells and gestational age. These data suggest that the homing ability of HSCs increases during gestation, so that TCB may be a better source of HSCs for transplantation than PCB.     

人核糖核酸抑制因子基因在人脐血干细胞中的转染表达及对小鼠黑色素瘤基因治疗的研究

探讨人核糖核酸抑制因子 (hRI)基因在人脐血干细胞中的转染及表达情况 ,及转染后对小鼠B16黑色素瘤生长的影响。用免疫磁珠分离系统 (MACS)分离纯化人脐血CD34⁺ 细胞后 ,用制备的含hRI基因的逆转录病毒上清转染脐血CD34⁺ 细胞 ,采用克隆形成法和PCR法检测转染效率 ,Western blot和免疫荧光法检测基因表达 ,同时观察RI对荷瘤C57BL小鼠B16黑色素瘤生长的影响。应用MACS能高度纯化人脐血CD34⁺ 细胞 ,使分选后的脐血CD34⁺ 细胞纯度平均达96.15%。hRI基因能够转染到脐血CD34⁺ 细胞上 ,转染效率达 35% ,Western blot和免疫荧光检测转染后CD34⁺ 细胞hRI基因有阳性表达。经转hRICD34⁺ 细胞治疗 ,使小鼠B16黑色素瘤的生长速度减慢 ,成瘤率和瘤重降低 ,成瘤潜伏期延长。     

Efficient transduction of monocyte- and CD34+-derived Langerhans cells with lentiviral vectors in the absence of phenotypic and functional maturation

BACKGROUND: Gene delivery in dendritic cells (DC) has raised considerable interest to modulate DC functions and induce therapeutic immunity or tolerance in an antigen-specific fashion. Among immature DC, Langerhans cells (LC) are attractive candidates for antigen delivery using lentiviral vectors (LV). METHODS: LC derived from monocytes (Mo-LC), or derived from CD34+ cells (CD34-LC) in the presence of cytokine cocktail, were transduced with LV expressing enhanced green fluorescent protein (E-GFP) under the control of the ubiquitous phosphoglycerate kinase (PGK) promoter at a multiplicity of infection of 18, at days 0 to 3 for Mo-LC, or at days 0 to 12 for CD34-LC. We assessed gene transfer levels from the percentage of E-GFP+ cells in the final cultures, and examined the morphology, immunophenotype, state of differentiation and function of transduced LC. RESULTS: Day 0 transduction of monocytes or CD34+ progenitors before cytokine pre-activation and LC differentiation resulted in stable gene expression in 7.8% of Mo-LC and 24% of CD34-LC. Monocyte-derived DC (Mo-DC) differentiated in serum-free medium were also efficiently transduced up to 13.2%. Interestingly, Mo-LC cells committed towards LC phenotype were permissive for transduction up to day 3. Transduction levels of CD34-LC peaked at day 6 to 44% and decreased thereafter. LV transduction did not perturb viability, phenotype and function of E-GFP-expressing LC. CONCLUSIONS: LC generated ex vivo can serve as vaccine vehicles in humans through efficient transduction by LV. These LC will be helpful to assess in vitro the immunogenicity of gene therapy vectors, from the characterization of their phenotypic and functional maturation.     

Providing a microenvironment for the development of human CD34+ hematopoietic cells in SCID mice

In order to develop a convenient small-animal model that can support the differentiation of human bone-marrow-derived CD34+ cells, we transplanted SCID mice with an immortalized human stromal cell line, Lof(11–10). The Lof(11–10) cell line has been characterized to produce human cytokines capable of supporting primitive human hematopoietic cell proliferation in vitro. Intraperitoneal injection of Lof(11–10) cells into irradiated SCID mice by itself resulted in a dose-dependent survival of the mice from lethal irradiation. The radioprotective survival was reflected by an increase in the growth and number of mouse bone-marrow-derived committed hematopoietic progenitors. The Lof(11–10) cells localized to the spleen, but not to the bone marrow of these animals and resulted in detectable levels of circulating human IL-6 in their plasma. Secondary intravenous injections of either human or simian CD34+ cells into the Lof(11–10)-transplanted SCID mice resulted in engraftment of injected cells within the bone marrow of these mice. The utility of this small-animal model that allows the growth and differentiation of human CD34+ cells and its potential use in clinical gene therapy protocols are discussed.     

Up-regulation of miR-210 by vascular endothelial growth factor in ex vivo expanded CD34+ cells enhances cell-mediated angiogenesis

Ex vivo culture has been proposed as a means to augment and repair autologous cells in patients with chronic diseases, but the mechanisms governing improvement in cell function are not well understood. Although microRNAs (miRs) are increasingly appreciated as key regulators of cellular function, a role for these factors in CD34+ cell-mediated angiogenesis has not been elucidated. Vascular endothelial growth factor (VEGF) was previously shown to induce expression of certain miRs associated with angiogenesis in endothelial cells and promote survival and number of vascular colony forming units of haematopoietic stem cells (HSCs). We sought to evaluate the role of VEGF in expansion and angiogenic function of CD34+ cells and to identify specific miRs associated with angiogenic properties of expanded cells. Umbilical cord blood CD34+ cells were effectively expanded (18- to 22-fold) in culture medium containing stem cell factor (SCF), Flt-3 ligand (Flt-3), thrombopoietin (TPO) and interleukin-6 (IL-6) with (postEX/+VEGF) and without VEGF (postEX/noVEGF). Tube formation in matrigel assay and tissue perfusion/capillary density in mice ischaemic hindlimb were significantly improved by postEX/+VEGF cells compared with fresh CD34+ and postEX/noVEGF cells. MiR-210 expression was significantly up-regulated in postEX/+VEGF cells. MiR-210 inhibitor abrogated and 210 mimic recapitulated the pro-angiogenic effects by treatment of postEX/+VEGF and postEX/noVEGF cells respectively. Collectively, these observations highlight a critical role for VEGF in enhancing the angiogenic property of expanded cells, and identify miR-210 as a potential therapeutic target to enhance CD34+ stem cell function for the treatment of ischaemic vascular disease.     

Characterization of a human stromal cell line supporting hematopoietic progenitor cell proliferation: Effect of HIV expression

Our objective was to determine the role that bone marrow-derived stromal cells have on human hematopoiesis in HIV infection. In particular, we dissected the heterogeneous bone marrow microenvironment to study the effect HIV expression might have on the cell population capable of producing the cytokines which will support human CD34+ cell differentiation. A stromal cell line, Lof(11-10), was established from human bone marrow by transfecting a plasmid containing the SV40 large T-antigen and isolating foci exhibiting a transformed phenotype. The Lof(11-10) cell line was characterized to determine its susceptibility to HIV infection, to identify its cytokine production profile, and to test the ability of conditioned media from this line to support CD34+ cell differentiation in the presence and absence of HIV expression. Nine cytokines were detected by RT-PCR and ELISA analysis. Conditioned media obtained from the Lof(11-10) cell line was able to support CD34+ cell differentiation. However, because the Lof(11-10) cells are not infectible by HIV, molecular clones of HIV were introduced into these cells by transfection. There was no qualitative difference in the levels of cytokine production between HIV-expressing and control Lof(11-10) cells. Furthermore, conditioned media derived from HIV-expressing and control Lof(11-10) cells added to bone marrow-derived CD34+ progenitor cells yielded similar colony formation in methylcellulose assays. Our data suggest that HIV infection of the cytokine-producing cells within the bone marrow microenvironment, as represented by the Lof(11-10) cell line, results in both normal cytokine production and hematopoiesis in spite of HIV expression. This report adds to the evidence against stromal cells being a significant target of HIV and establishes a system for comparison with more relevant models.     

HIV-gp120 induced cell death in hematopoietic progenitor CD34+ cells

Haematologic abnormalities accompany the majority of HIV-1 infections. At present it is unclear whether this is due directly to HIV infection of hematopoietic progenitor cells, or whether this results from an indirect mechanism secondary to HIV infection. Here we provide evidence for an indirect mechanism, whereby hematopoietic progenitor cells undergo HIV gp120-induced apoptosis (programmed cell death) even in the absence of HIV infection. Freshly isolated, purified human hematopoietic progenitor CD34+ cells, derived from both umbilical cord blood and bone marrow, co-expressed the CD4 marker at low density on their surface. Although these CD34+CD4+ cells theoretically should be capable of productive infection by HIV, we found that HIV-IIIB could not establish productive infection in these cells. Nonetheless, gp120 from IIIB could bind the cells. Thus, binding of gp120 did not correlate with infectivity. Furthermore, binding of gp120 was a specific event, leading to apoptosis upon crosslinking with anti-gp120 through a fas-dependent mechanism. If apoptosis is also observed in vivo even in uninfected hematopoietic cells, this could contribute significantly to the impairment in hematopoietic cell number and function. Our data suggest a novel indirect mechanism for depletion of CD34+ and CD34+-derived cells even in the absence of productive viral infection of these cells.     

Expansion of CD34+ cells from human umbilical cord blood by FL and/or TPO gene transfected human marrow stromal cell lines

To elucidate the effect of gene transfected marrow stromal cell on expansion of human cord blood CD34+ cells, a culture system was established in which FL and TPO genes were transfected into human stromal cell line HFCL. To establish gene transfected stromal cells co-culture system, cord blood CD34+ cells were purified by using a magnetic beads sorting system. The number of all cells and the number of CD34+ cells and CFC (CFU-GM and BFU-E) were counted in different culture systems. The results showed that in all 8 culture systems, SCF+IL-3+HFT manifested the most potent combination, with the number of total nucleated cells increasing by (893.3±52.1)-fold, total progenitor cells (CFC) by (74.5±5.2)-fold and CD34+ cells by 15.7-fold.Maximal expansions of CFC and CD34+ cells were observed at the end of the second week of culture. Within 14 days of culture, (78.1 ± 5.5)-fold and (57.0 ± 19.7)-fold increases in CFU-GM and BFU-E were obtained. Moreover, generation of LTC-IC from amplified CD34+ cells within 28 days was found only in two combinations, I.e. SCF+IL-3+FL+TPO and SCF+IL-3+HFT, and there was no significant difference between these two groups statistically. These results suggest that human umbilical cord blood CD34+ cells can be extensively expanded ex vivo by using gene transfected stromal cells along with cytokines.     

Characteristics of hematopoietic stem cells of umbilical cord blood

Umbilical cord blood collected from the postpartum placenta and cord is a rich source of hematopoietic stem cells (HSCs) and is an alternative to bone marrow transplantation. In this review we wanted to describe the differences (in phenotype, cytokine production, quantity and quality of cells) between stem cells from umbilical cord blood, bone marrow and peripheral blood. HSCs present in cord blood are more primitive than their counterparts in bone marrow or peripheral blood, and have several advantages including high proliferation. With using proper cytokine combination, HSCs can be effectively developed into different cell lines. This process is used in medicine, especially in hematology.     

Wnt3a 转基因基质细胞的建立及其对脐血CD34+ 造血干/祖细胞扩增作用的研究

Wnt 信号通路在造血干/祖细胞自我更新的过程中发挥至关重要的作用 . 纯化的 Wnt3a 蛋白可以实现造血干/祖细胞的扩增 . 通过病毒转染原代小鼠骨髓基质细胞,建立转基因滋养层细胞 . 通过共培养对转基因滋养层细胞扩增 CD34+ 造血干/祖细胞的作用进行了研究 . 实验结果显示 , 与普通滋养层加细胞因子组相比,经转基因滋养层加细胞因子组培养的 CD34+造血干/祖细胞集落形成能力 (CFC) 是其 (1.55±0.06) 倍;混合集落形成能力是其 (1.95±0.26) 倍;高增殖潜能集落形成能力 (HPP-CFC) 是其 (1.45±0.40) 倍; LTC-IC 活性是其 (3.83±0.86) 倍 . 结果表明,转基因滋养层细胞通过分泌具有天然活性的 Wnt3a 蛋白能在体外有效地扩增造血干/祖细胞的数量 .     

Co-culture of human CD34+ cells with mesenchymal stem cells increases the survival of CD34+ cells against the 5-aza-deoxycytidine- or trichostatin A-induced cell death

It has been suggested that epigenetic regulation plays an important role in maintaining the stemness and lineage differentiation of hematopoietic stem cells (HSCs), 5-aza-deoxycytidine (aza-D) and Trichostatin A (TSA) being candidate additives for HSC ex vivo expansion. Although they have potent activity to maintain the stemness, they can also cause serious cell death. This study examined the effects of mesenchymal stem cells (MSCs) on the maintenance of CD34+ cells driven by aza-D and TSA in culture with the combined cytokines of thrombopoietin, flt-3 ligand, stem cell factor, interleukin-3, and interleukin-6. In cultures without MSCs, although aza-D and TSA retained the CD34 frequency 4 to 8 times more than in the cytokines alone, a large portion of cells underwent apoptotic cell death. Consequently, CD34+ cell expansion could not be achieved in any condition without MSCs. In cultures with MSCs, the total cell number was higher in aza-D or TSA than in any conditions in the cultures without MSCs. The CD34 frequency was also similar to the level in the cultures in aza-D or TSA without the MSCs. These results suggest that a co-culture of CD34+ cells with the MSCs might not simply deliver the proliferation signals but also stemness and survival signals, and overlap the action of epigenetic regulators.     

体外培养脐血单个核细胞与CD34+富集细胞

对比MNC和CD34 +富集细胞在SCF +IL 3+IL 6 +FL +Tpo细胞因子组合下的体外扩增特性 ,发现 :CD34 +富集细胞具有很高的扩增潜力 ,在本实验条件下其总细胞持续扩增了 8周 ,扩增倍数达 312 70 9± 86 40 5倍 ;而MNC在培养至第 4周扩增就已呈现下降趋势 ,最大仅扩增了 5 3 3± 6 2倍。对比集落和CD34 +细胞的扩增发现 ,MNC的集落密度和CD34 +细胞含量由第 0天至第 7天有一个上升的过程 ,而CD34 +富集细胞在培养过程中 ,集落密度和CD34 +细胞含量却始终呈下降趋势。在体外培养过程中 ,CD34 +富集细胞的CFU GM和CD34 +细胞最大分别扩增了 185 7± 14 1和 191 7± 188 8倍 ,明显高于MNC的 12 4± 3 2和 5 0 6± 33 2倍 ;而CD34 +富集细胞和MNC的BFU E则只实现了少量扩增 ,分别为 7 2± 5 2和 10 1± 3 4倍。结果显示 ,从CD34 +富集细胞出发扩增造血干 祖细胞 ,可以得到更多的CD34 +细胞和CFU GM集落形成细胞     

Expression of CD34 in hematopoietic cancer cell lines reflects tightly regulated stem/progenitor-like state

Hematopoietic cancer stem cells preserve cellular hierarchy in a manner similar to normal stem cells, yet the underlying regulatory mechanisms are poorly understood. It is known that both normal and malignant stem/progenitor cells express CD34. Here, we demonstrate that several cell lines (HL-60, U266) derived from hematopoietic malignancies contain not only CD34(-) but also CD34(+) subpopulations. The CD34(+) cells displayed a stem/progenitor-like phenotype since, in contrast to CD34(-) cells, they frequently underwent cellular division and rapidly formed colonies in methylcellulose-based medium. Strikingly, a constant fraction of the CD34(+) and CD34(-) cell subpopulations, when separated, rapidly switched their phenotype. Consequently, both separated fractions could generate tumors in immunocompromised NOD/LtSz-scid/scid mice. Cultures in vitro showed that the proportion of CD34(+) stem/progenitor-like cells in the population was decreased by cell-cell contact and increased by soluble factors secreted by the cells. Using cytokine arrays, we identified some of these factors, notably thymopoietin that was able to increase the proportion of CD34(+) cells and overall colony-forming capacity in tested cell lines. This action of thymopoietin was conserved in mononuclear cells from bone marrow. Therefore, we propose that hematopoietic cancer cell lines containing subpopulations of CD34(+) cells can provide an in vitro model for studies of cancer stem/progenitor cells.     

Protection of bone marrow,mononuclear, and CD34+ cells by enclosing within the biochemical compound solution during and after transplantation

We have chosen collagen, chitosan acetate, hyaluronic acid, and propolis as model biochemical compound solution to determine the influence of cell carrier mechanics on cell viability and functionality during and after transplantation. Suspending of bone marrow (BM), mononuclear (MN), and CD34+ cells into a biochemical compounds solution is an attractive tool to achieve to protect and ensure reproducible deliver. Hyperglycemic rats were randomly divided into 2 groups: to receive no cell treatment or approximately 1 × 10⁵ of BM, MN, and CD34+ cells within the PBS or biochemical compound solution. These cells were infused into the hyperglycemic rats on day 10 and again on day 20. At each time point, the animals were anaesthetized with ether, and 200 μL of blood was drawn from the tail vein. Samples were collected to determine whether BM, MN, and CD34+ cell affected glucose content and insulin production. Our results exhibit the use of biochemical compound solution method to overcome the cell transplantation problem during and after injection of these cells into rats. These findings are supported by resulting in significantly greater insulin production and more decreased glucose content than cells injected in PBS only (P < 0.05). These effects displayed the following hierarchy: hyaluronic acid > chitosan acetate > collagen > propolis solution. Our results showed that these compounds demonstrated a capacity to encapsulate the BM, MN, and CD34+ cells. It is proven by decreasing glucose content and increasing insulin secretion by pancreatic cells. The uniqueness of our study is the improvement of current transplantation efficiency.     

S-亚硝基谷胱甘肽诱导脐带血CD34+细胞来源的巨核细胞产生血小板

为了探讨一氧化氮供体S-亚硝基谷胱甘肽（S—nitrosoglutathione,GSNO）对脐带血CD34^＋细胞分化来源的巨三核细胞产生血小板的可能作用,我们采用免疫磁珠法从8例健康产妇足月顺产的胎儿脐带血中分选CD34^＋细胞,并在含血小板生成素（thrombopoietin,TPO,50ng／ml）、白细胞介素-3（IL-3,10ng／ml）、干细胞因子（stem cell factor,SCF,50ng／ml）和重组人粒-巨噬细胞刺激因子（rHu GM—CSF,20ng／ml）的无血清培养基中培养14d。随后,用免疫磁珠法分选CD61^＋细胞。CD61^＋细胞在含有（实验组）和缺乏（对照组）GSNO（20mg／ml）的无血清培养基[含TPO（50ng／ml）、IL-3（10ng／ml）、SCF（50ng／ml）]中培养不同时间（30min、2h）。采用流式细胞仪检测培养体系中的血小板数;电子显微镜观察巨核细胞的形态学;倒置显微镜和流式细胞仪观察凝血酶诱导的血小板凝集;ELISA方法检测巨核细胞中cGMP的含量。结果显示,与对照组比较,实验组血小板数量明显增加（P〈0．05）;电子显微镜下可见巨核细胞有明显伪足形成和突出;凝血酶诱导后在倒置显微镜和流式细胞仪上均可观察到血小板凝集现象;GSNO作用后巨核细胞中的cGMP明显升高（P〈0．05）。这些结果提示,GSNO可以促进脐带血CD34^＋细胞来源的巨核细胞产生具有一定功能的血小板,其产生的机制可能部分与cGMP途径有关。     

Eltrombopag, a thrombopoietin receptor agonist, enhances human umbilical cord blood hematopoietic stem/primitive progenitor cell expansion and promotes multi-lineage hematopoiesis

Umbilical cord blood (UCB) transplantation has emerged as a promising therapy, but it is challenged by scarcity of stem cells. Eltrombopag is a non-peptide, thrombopoietin (TPO) receptor agonist, which selectively activates c-Mpl in humans and chimpanzees. We investigated eltrombopag's effects on human UCB hematopoietic stem cell (HSC) and hematopoietic progenitor cell (HPC) expansion, and its effects on hematopoiesis in vivo. Eltrombopag selectively augmented the expansion of human CD45+, CD34+, and CD41+ cells in bone marrow compartment without effects on mouse bone marrow cells in the NOD/SCID mice xenotransplant model. Consequently, eltrombopag increased peripheral human platelets and white blood cells. We further examined effects in the STAT and AKT signaling pathways in serum-free cultures. Eltrombopag expanded human CD34+ CD38-, CD34+, and CD41+ cells. Both eltrombopag and recombinant human TPO (rhTPO) induced phosphorylation of STAT5 of CD34+ CD41-, CD34- CD41+, and CD34- CD41- cells. rhTPO preferentially induced pSTAT3, pAKT, and more pSTAT5 in CD34- C41+ cells, while eltrombopag had no effects on pSTAT3. In conclusion, eltrombopag enhanced expansion of HSCs/HPCs of human UCB in vivo and in vitro, and promoted multi-lineage hematopoiesis through the expansion of bone marrow HSCs/HPCs of human UCB in vivo. Eltrombopag differed somewhat from rhTPO in the signal transduction pathways by favoring earlier HSC/HPC populations.