B-cell precursors differentiated from cord blood CD34+ cells are more immature than those derived from granulocyte colony-stimulating factor-mobilized peripheral blood CD34+ cells

Umbilical cord blood (CB) has been widely used instead of bone marrow (BM) and peripheral blood (PB) for stem cell transplantation (SCT). However, problems of sustained immunodeficiency after CB transplantation remain to be resolved. To elucidate the mechanism of immunodeficiency, we compared the characteristics of B cells differentiated in vitro from CD34+ cells of CB with those of PB. Purified CD34+ cells from CB and PB were cultured on murine stroma cell-line MS-5 with stem cell factor and granulocyte colony-stimulating factor for 6 weeks. The B-cell precursors (pre-B cells) that differentiated in this culture system, were analysed as to their immunoglobulin heavy chain (IgH) variable region gene repertoire and the expression of B-cell differentiation-related genes. CD10+ CD19+ pre-B cells were differentiated from both PB and CB. Although the usages of IgH gene segments in pre-B cells differentiated from CB and PB were similar, the N region was significantly shorter in CB-derived than PB-derived cells. Productive rearrangements were significantly fewer in cells of CB than PB in the third week. Among a number of B-cell differentiation-related genes, the terminal deoxynucleotidyl transferase (TdT) gene was not expressed in CB-derived cells during the culture. These results indicated that immature features of pre-B cells from CB, such as lack of TdT expression, and a short N region and few productive rearrangements in the IgH gene, might cause the delay in mature B-cell production.     

Comparison of retroviral transduction efficiency in CD34+ cells derived from bone marrow versus G-CSF-mobilized or G-CSF plus stem cell factor-mobilized peripheral blood in nonhuman primates

Hematopoietic stem cells (HSCs) are ideal targets for genetic manipulation in the treatment of several congenital and acquired disorders affecting the hematopoietic compartment. Although G-CSF-mobilized peripheral blood CD34(+) cells are the favored source of hematopoietic stem cells in clinical transplantation, this source of stem cells does not provide meaningful engraftment levels of genetically modified cells compared with G-CSF + stem cell factor (SCF)-mobilized cells in nonhuman primates. Furthermore, the use of G-CSF mobilization can have disastrous consequences in patients with sickle cell disease, a long-held target disorder for HSC-based gene therapy approaches. We therefore conducted a study to compare the levels of genetically modified cells attainable after retroviral transduction of CD34(+) cells collected from a bone marrow (BM) harvest with CD34(+) cells collected from a leukapheresis product after mobilization with G-CSF (n = 3) or G-CSF in combination with SCF (n = 3) in the rhesus macaque autologous transplantation model. Transductions were performed using retroviral vector supernatant on fibronectin-coated plates for 96 hours in the presence of stimulatory cytokines. BM was equal to or better than G-CSF-mobilized peripheral blood as a source of HSCs for retroviral transduction. Although the highest marking observed was derived from G-SCF + SCF-mobilized peripheral blood in two animals, marking in the third originated only from the BM fraction. These results demonstrate that steady-state BM is at least equivalent to G-CSF-mobilized peripheral blood as a source of HSCs for retroviral gene transfer and the only currently available source for patients with sickle cell disease.     

脐血与成人骨髓淋巴细胞及其亚群比较

比较脐血与骨髓T淋巴细胞、B淋巴细胞和NK细胞亚群的分布特点及血清sIL-2R和IgG水平的不同,探讨脐血移植后免疫重建延迟、GVHD及GVL效应的发生机制。应用流式细胞仪分别检测脐血及骨髓CD3+、CD3+CD5+、CD3+CD45RA+、CD3+CD45RO+、CD3+CD25+、CD19+、CD19+CD10+、CD19+CD40+、CD19+CD23+、CD3-CD16+CD56-及CD3-CD16+CD56+细胞的含量。应用双抗夹心酶联免疫吸附法(ELISA)及速率免疫散射比浊法分别检测脐血及骨髓血清中sIL-2R及IgG水平。CD3+T细胞数在脐血及骨髓中无显著差异(P>0.05)。脐血中CD3+CD45RA+、CD19+、CD19+CD10+及CD3-CD16+CD56-细胞数显著高于骨髓(P<0.05)。脐血中CD3+CD5+、CD3+CD45RO+、CD3+CD25+、CD19+CD40+、CD19+CD23+及CD3-CD16+CD56+细胞数显著低于骨髓(P<0.05)。脐血血清中sIL-2R及IgG水平显著低于骨髓(P<0.05)。脐血中成熟T细胞、成熟B细胞及成熟NK细胞亚群的细胞数显著低于骨髓,这可能是脐血移植后免疫重建延迟、GVHD发生率低及GVL效应低的原因之一。     

In vitro expansion of human basophils by interleukin-3 from granulocyte colony-stimulating factor-mobilized peripheral blood stem cells

BACKGROUND: A number of studies support the belief that human basophils play an important role in allergic inflammation. The exact mechanism of basophil activation at the site of allergic inflammation, however, has not been well understood, mainly due to their low number in blood and difficulty in obtaining a sufficient number of highly purified basophils for investigation. OBJECTIVE: The purpose of this study is to expand human basophils in vitro with high yield and purity by culturing peripheral blood stem cells (PBSCs). METHODS: We collected PBSC-rich mononuclear cells containing CD34+ cells (0.15-4.9%) by leukapheresis from patients with malignant lymphoma and lung cancer during haematopoietic recovery after chemotherapy plus granulocyte colony-stimulating factor-induced mobilization. PBSC-rich mononuclear cells were cultured in the presence of IL-3. RESULTS: When PBSC-rich mononuclear cells containing more than 1% of CD34+ cells were cultured, 20.0-83.3% of the cells, mostly with a yield of >10%, were metachromatic cells after 3 weeks of culture. These cells resembled mature peripheral blood basophils morphologically when examined by light and electron microscopy. Flow cytometric analysis showed that they expressed both FcepsilonRI and FcgammaRII. FcepsilonRI cross-linking resulted in intracellular calcium mobilization, histamine release and synthesis of cysteinyl leukotrienes. The intracellular histamine content and the release of these chemical mediators triggered by anti-IgE antibodies were comparable to those of peripheral blood basophils. CONCLUSION: These findings suggest that PBSC-derived basophils expanded in vitro are morphologically and functionally mature and will be a useful tool for the analysis of basophil functions.     

Rhodamine 123 efflux in human subpopulations of hematopoietic stem cells: comparison between bone marrow, umbilical cord blood and mobilized peripheral blood CD34+ cells

Hematopoietic stem cells (HSC) can be identified by the expression of the CD34 molecule. CD34+ cells are found in bone marrow (BM), umbilical cord blood (UCB) and in mobilized peripheral blood (PB). CD34+ cells express P-glycoprotein (Pgp), a product of the multidrug resistance (MDR) gene. Pgp activity can be measured by the efflux of the dye Rhodamine 123 (Rho 123) and can be blocked by verapamil. Transport activity in HSC suggests that Pgp could have a functional role in stem cell differentiation. This study compared the number of CD34+ cells with Pgp activity measured by efflux of Rho 123 in the hematopoietic population obtained from different sources. Samples were analysed for their content of CD34+ cells, and BM had a significantly higher amount of CD34+ cells compared to UCB, mobilized PB and normal PB. When the frequency of Rholow cells was studied among the CD34+ population, an enrichment of cells with Pgp activity was observed. The frequency in BM was significantly lower than that in UCB and mobilized PB. The low retention of Rho 123 could be modified by verapamil, indicating that the measurements reflected dye efflux due to Pgp activity. Although UCB and mobilized PB had a lower number of CD34+ cells compared to BM, the total number of CD34+ cells with Pgp activity was similar in the three tissues. The different profiles may indicate the existence of subpopulations of stem cells or different stages of cellular differentiation detected by the extrusion of the dye Rho 123.     

Comparison of hematopoietic activities of human bone marrow and umbilical cord blood CD34 positive and negative cells.

Although the hematopoietic activities of human CD34+ bone marrow (BM) and cord blood (CB) cells have been well characterized, the phenotype of nonobese-diabetic severe combined immunodeficient (NOD/SCID) mice repopulating cells (SRCs) in CB and BM has not yet been fully examined. To address this issue, various hematopoietic activities were compared in terms of total and CD34+ CB and BM cells. Clonal culture of fluorescence-activated cell sorter (FACS) CD34+ CB and BM cells revealed a higher incidence of colony-forming cells with greater proliferation capacity in CB over BM CD34+ cells. CB CD34+ cells also demonstrated higher secondary plating efficiency over BM cells. In addition, we demonstrated that mice transplanted with CB mononuclear cells (MNCs) showed significantly higher levels of chimerism than those transplanted with BM MNCs. However, recipients of FACS-sorted CD34+ CB cells showed significantly lower levels of chimerism than those that received total CB MNCs, suggesting a role of facilitating cells in the CD34- cell population. To further analyze the role of CD34- cells, the NOD/SCID repopulating ability of FACS-sorted CB CD34-c-kit+Lin- and CD34-c-kit-Lin- cells were examined. However, SRCs were not detected in those cells. Taken together, these data suggest that CB is a better source of hematopoietic stem cells and that there are cells in the CD34- fraction that facilitate repopulation of hematopoiesis in the NOD/SCID environment.     

Dielectrophoretic separation and enrichment of CD34+cell subpopulation from bone marrow and peripheral blood stem cells

Dielectrophoresis has been used to enrich selected cell subpopulations in a mixed cell population by exploiting differential dielectric properties. Six-fold enrichment of stem cells expressing the CD34+ antigen has been achieved for bone marrow samples and peripheral blood, without the requirment for initial chemical treatment associated with immunoadsorption techniques.     

Expansion and differentiation of CD14+CD16(-) and CD14+ +CD16+ human monocyte subsets from cord blood CD34+ hematopoietic progenitors

To determine whether monocytes can be generated from CD34+ hematopoietic progenitors in large numbers, cord blood CD34+ cells were first expanded for 3-10 days in X-VIVO 10 medium supplemented with FCS, stem cell factor (SCF), thrombopoietin (TPO), and Flt-3 Ligand (Flt-3L), and then differentiated in IMDM medium supplemented with FCS, SCF, Flt-3L, IL-3 and M-CSF for 7-14 days. These two step cultures resulted in up to a 600-fold mean increase of total CD14+ cells. Using this approach, two subpopulations of monocytes were obtained: CD14+CD16(-) and CD14++CD16+ occurring at 2:1 ratio. 1.25(OH)2 Vitamin D3 added to the differentiation medium altered this ratio by decreasing proportion of CD14++CD16+ monocytes. In comparison to CD14+CD16(-), the CD14++CD16+ cells showed different morphology and an enhanced expression of CD11b, CD33, CD40, CD64, CD86, CD163, HLA-DR, and CCR5. Both subpopulations secreted TNF and IL-12p40 but little or no IL-10. CD14++CD16+ monocytes released significantly more IL-12p40, were better stimulators of MLR but showed less S. aureus phagocytosis. These subpopulations are clearly different from those present in the blood and may be novel monocyte subsets that represent different stages in monocyte differentiation with distinct biological function.     

Absolute values of dendritic cell subsets in bone marrow,cord blood,and peripheral blood enumerated by a novel method

Dendritic cells (DCs) are pivotal in inducing immunity or alternatively downregulating immune reactivity. In humans, the opposing phenotypic subsets of CD11c(+)/CD123(-) "myeloid" DCs and CD123(+)/CD11c(-) "lymphoid" DCs have been proposed to orchestrate these immune responses. In this study we determined the absolute numbers of both subsets in three resting hematopoietic tissues by employing a novel flow cytometry method, eliminating processing steps and calculations based on mononuclear cell percentages. Internal bead standards along with the cells of interest were simultaneously acquired directly from unmanipulated whole blood specimens. We found significant differences (p < 0.001) between the mean absolute numbers of CD123(+)/CD11c(-) lymphoid DCs among the three sources, with the fewest present in peripheral blood (8.2/ micro l), about 50% more in cord blood (12.2/ micro l), and fivefold more in bone marrow (40.2/ micro l). Cord blood and bone marrow CD11c(+)/CD123(-) myeloid DC counts did not differ from each other (23.5/ micro l and 28.9/ micro l, respectively) but peripheral blood contained significantly fewer (15.5/ micro l, p = 0.006). CD11c(+)/CD123(-) DCs had significantly higher surface expression of HLA-DR (p < 0.001) in all three sources. To test for association with the DC subsets, T, B, and natural killer (NK) lymphocytes were also enumerated. In bone marrow only, significant correlations were found between the size of the CD123(+)/CD11c(-) lymphoid DC pool and NK cells (p = 0.0029) and B cells (p = 0.0033). These data support the hypothesis that a common CD123(+)/CD11c(-) DC, NK cell, and B cell progenitor is resident in marrow, and this cell may be identical to the common lymphoid progenitor previously described in mice and/or the human CD34(+)/Lin(-)/CD10(+) progenitor.     

G-CSF对外周血树突状细胞亚群比例的影响

目的 :了解G CSF对小鼠外周血树突状细胞 (DC)亚群比例的影响。方法 :以不同剂量 (0、5 .0、10 .0或 15 .0 μg)的G CSF ,分别皮下注射于BALB/c小鼠 ,连续 6d ,每天 1次。第 6天分离外周血DC ,用流式细胞仪检测DC1(CD11c+ CD8a-)和DC2 (CD11c+ CD8a+ )的比例并计算其绝对值。结果 :经不同剂量的G CSF刺激后 ,外周血DC1的绝对值无显著变化 ,而DC2的绝对值增加 5倍 (9.6× 10 6/Lvs 5 5 .1× 10 6/L ,P <0 .0 1) ,DC1/DC2比值降低 (4.2vs 0 .7,P <0 .0 1)。结论 :G CSF在体内可提高外周血DC2的绝对数 ,对DC1的数无明显影响 ,从而使DC1/DC2的比例倒置     

Comparison of lymphokine secretion and mRNA expression in the CD45RA+ and CD45RO+ subsets of human peripheral blood CD4+ and CD8+ lymphocytes

Flow cytometric analysis of human peripheral blood T lymphocytes demonstrated that the majority of the CD4⁺ cells were CD29⁺ or CD45RO⁺ “mature” cells while the CD8⁺ cells were primarily CD45RA⁺ “naive” cells. After an initial separation into CD4⁺ and CD8⁺ cells and a secondary separation into CD45 subsets, lymphokine secretion was assessed after phorbol 12-myristate 13-acetate and ionomycin or fixed anti-CD3 stimulation. Within the respective CD45 subsets, CD4⁺ cells produced more interleukin (IL)-2, IL-4, and IL-6; but the CD8⁺ cells secreted more interferon-γ and granulocyte/macrophage-colony-stimulating factor. Tumor necrosis factor-α secretion was similar in the matched CD45 subsets. Northern analysis revealed a parallel pattern of lymphokine mRNA expression in the four lymphocyte subsets. These results suggest that human CD8⁺ peripheral blood lymphocytes have a significant capacity to secrete lymphokines, and that the low lymphokine production observed in unseparated CD8⁺ cells reflects the higher percentage of less functional CD45RA⁺ cells.     

骨髓CD34+细胞体外扩增诱导树突状细胞实验研究

目的探讨应用不同细胞因子组合方案从骨髓CD34+细胞体外扩增诱导树突状细胞(DC)的可行性及评价不同诱导方案诱导DC的效果.方法免疫磁珠法纯化骨髓CD34+细胞.在有血清条件下应用两步法SCF+FL+TPO+IL-3扩增2周,然后以GM-CSF+IL-4+TNF-α(GI方案)或GM-CSF+TNF-α(GT方案)诱导DC;或者一步法SCF+FL+TPO+IL-3+GM-CSF+TNF-α直接作用2周扩增诱导DC.通过相差显微镜、电子显微镜、流式细胞仪分析、异硫氰酸荧光素标记的葡聚糖(FITC-DX)内吞实验检测DC的生物学特性.结果诱导后细胞较0 d或诱导前细胞高表达DC相关标记(CD1a、CD80、CD86、CD40、CD54、HLA-DR).两步法GI方案诱导10 d,总细胞扩增倍数、CDla+DC扩增倍数分别为(198±178)倍和(122±129)倍,与GT方案比较无统计学意义,但诱导细胞CD1a、CD80、CD86的表达明显高于后者.一步法扩增诱导2周时总细胞数扩增(43±16)倍,CD1a+DC数是0 d接种细胞的(4±2)倍.结论两步法能从正常CD34+细胞诱导产生大量DC,GI方案优于GT方案.两者扩增效率均优于一步法.     

粒细胞集落刺激因子动员2型糖尿病患者外周血CD34+细胞的变化

背景：与正常人比较,2型糖尿病患者外周血CD34+细胞含量已有明显下降。 目的：分析2型糖尿病患者外周血动员后CD34+细胞比例的变化。 方法：将234例2型糖尿病患者按病程分为5组(<1年,1~5年,>5~<10年,10~15年和≥15年),予以粒细胞集落刺激因子动员。动员5 d后,使用流式细胞仪检测外周血CD34⁺细胞的含量,并利用Person简单相关及多元回归方法分析其与病程、血脂、尿酸的关系。 结果与结论：糖尿病者外周血动员后CD34⁺细胞水平与三酰甘油相关(r=-0.202,P=0.002),与载脂蛋白B相关(r=-0.276,P=0.000),与尿酸相关(r=-0.297,P=0.000)。经统计分析发现,糖尿病者外周血动员后CD34⁺细胞数随糖尿病病程进展而逐渐下降。     

转FL、GM-CSF基因的人骨髓基质细胞促进脐血CD34+细胞体外扩增

研究转FL、GM-CSF基因的基质细胞对脐血CD34+细胞的扩增效应.将转FL、GM-CSF基因的入骨髓基质细胞系与脐血CD34+细胞共培养,观察细胞总数、CD34+细胞数、CFU-GM的变化情况.培养到第4周时,第(4)组(SCF+IL-3+IL-6+GM-CSF+FL)和第(8)组(HFCL/hGM-CSF+HFCL/hFL+SCF+IL-3+IL-6)的细胞总数增加到最大,分别扩增了717±24.47和709±63.63,第1周,第(5)组(HFCL+SCF+IL-3+IL-6)扩增了10.5±2.08倍,较第(8)组减少(P＜0.05).第1周时,CD34+细胞总数第(4)组和第(8)组分别扩增了8.44倍和11.5倍(P＜0.05),CD34+细胞百分率第(7)组(FCL/hFL+SCF+IL-3+II,-6)为50.2%,第(6)组(HFCL/hGM-CSF+SCF+IL-3+IL-6)为28.95%(P＜0.01).第2周,各组CFU-GM增加显著,以第(4)组和第(8)组增加最为明显,以后随扩增时间延长,造血细胞集落数、集落体积逐渐减少.表明转FL、GM-CSF基因的基质细胞,能有效的协同其他细胞因子对脐血CD34+细胞产生明显的扩增作用,能显著改变基质细胞造血功能.     

Effect of tresperimus on in vitro human cord blood CD34+ cell differentiation

Tresperimus, an analogue of 15-deoxyspergualin (15-DSG), is immunosuppressive and prevents lethal graft-versus-host disease following allogeneic bone marrow transplantation in mice. Here, we present an in vitro dose response study examining the ability of tresperimus to support clonogenesis in cultured CD34+ cord blood stem cells. Our findings revealed that only the lowest dose examined, 0.5 microg tresperimus/ml, supports normal myelopoiesis, erythropoiesis and megakaryopoiesis. Greater concentrations of the drug induced dose-dependent inhibition of clonogenesis. This latter effect was not due to apoptosis and was reversible by drug withdrawal. We conclude that tresperimus at 0.5 microg/ml supports the clonogenic potential of cord blood CD34+ cells. Dose-dependent inhibition of clonogenesis was completely reversible following drug withdrawal. These results may be of clinical interest as tresperimus is currently used in phase I-III studies for the prevention of graft versus host disease in recipients of allogeneic bone marrow.     

Local delivery of granulocyte colony stimulating factor-mobilized CD34-positive progenitor cells using bioscaffold for modality of unhealing bone fracture

We recently reported that i.v. transplantation of adult human circulating CD34+ cells, an endothelial/hematopoietic progenitor-enriched cell population, contributes to fracture healing through the enhancement of vasculogenesis and osteogenesis. However, the scarcity of CD34+ cells in the adult human is a critical issue for the future clinical application of this method. To overcome this issue, we assessed in vitro and in vivo capacity of granulocyte colony-stimulating factor-mobilized peripheral blood (GM-PB) human CD34+ cells for vasculogenesis and osteogenesis. First, we confirmed the differentiation capability of GM-PB CD34+ cells into osteoblasts in vitro. Second, local transplantation of GM-PB CD34+ cells on atelocollagen scaffold was performed in nude rats in a model of unhealing fractures. Immunostaining for human leukocyte antigen-ABC of tissue samples 1 week after fracture and cell therapy showed the superior incorporation after local transplantation compared with systemic infusion. Third, the effects of local transplantation of 10(5) (Hi), 10(4) (Mid), or 10(3) (Lo) doses of GM-PB CD34+ cells or phosphate-buffered saline (PBS) on fracture healing were compared. Extrinsic vasculogenic and osteogenic differentiation of GM-PB CD34+ cells, enhancement of the intrinsic angio-osteogenesis by recipient cells, augmentation of blood flow recovery at the fracture sites, and radiological and histological confirmation of fracture healing were observed only in the Hi and Mid groups but not in the Lo and PBS groups. These results strongly suggest that local transplantation of GM-PB CD34+ cells with atelocollagen scaffold is a feasible strategy for therapeutic vasculogenesis and osteogenesis needed for fracture healing. Disclosure of potential conflicts of interest is found at the end of this article.     

脐血和新生儿外周血CD4+CD25+调节性T细胞的表型特征及意义

目的 探讨脐血和新生儿外周血中CD4 CD25 调节性T细胞的表型特征及其意义.方法以18份脐血和9份新生儿外周血为标本,细胞膜表面抗原采用单抗直接标记法,检测胞内抗原(CD152、FoxP3)时先标记膜表面抗原,固定破膜后再标记胞内抗原,应用多参数流式细胞仪进行检测和结果分析.结果脐血和新生儿外周血中的CD4 CD25 T细胞显示为独立的细胞群,脐血中该群细胞占CD4 T细胞比例为(9.26±2.43)%,新生儿外周血中的比例则为(9.35±2.30)%;在表型方面,大部分是CD45RA 的细胞,同时表达CD62L、胞浆内的CD152,也表达FoxP3,CD4 CD25 FoxP3 占CD4 T细胞比例为(1.92±0.28)%.结论 脐血和新生儿外周血中存在着一群单纯且水平较高的CD4 CD25 调节性T细胞,它们可能在发挥对母体非遗传性抗原的耐受及防止母体对胎儿的排斥反应中具有独特的作用.