遗传性红细胞增多症相关HIF2α基因点突变对人CD34+造血干祖细胞体外红系分化的影响

该文旨在研究与遗传性红细胞增多症相关的低氧诱导因子HIF2α基因点突变对人造血干祖细胞红系分化的影响。通过构建人HIF2α基因编码区、携带疾病相关的两个点突变体(M535V和G537R)以及文献中报道的HIF2α基因阳性对照突变(P531A)慢病毒表达载体,分别包装病毒并感染人脐血来源的CD34+造血干祖细胞,并进行常氧及5%低氧条件下的红系定向诱导分化培养。利用FACS流式分析比较红系分化进程特征分子CD71和CD235a的表达变化,结合荧光定量PCR检测HIF2α调控的红系分化相关的靶基因表达水平。结果显示,构建的HIF2α及突变体的慢病毒载体经病毒包装后感染K562细胞可在RNA和蛋白水平实现过表达;与对照组相比,感染表达HIF2α基因或其突变体病毒后的脐血CD34+HSPC在常氧及5%O_2条件下诱导红系分化培养的细胞CD71和CD235a的表达动态均无明显改变,但HIF调控的红系分化相关基因EPOR和VEGFA的表达水平有一定升高。综上,在体外红系分化培养体系中,慢病毒介导的HIF2α及突变体的过表达不直接影响造血干祖细胞的红系分化进程,提示疾病相关的HIF2α基因突变造成的红系分化异常增多的细胞内外调控机制需要更进一步的深入研究。     

低氧对CD34~ 造血干/祖细胞增殖分化及其对细胞因子依赖性的影响

采用免疫磁珠法分离脐血CD34 造血干 /祖细胞 ,进行低氧和常氧条件下单个核细胞 (MNC)及CD34 细胞的半固体及液体培养 ,计细胞总数和集落产率 ,并通过流式细胞仪检测细胞表型和细胞周期 ,以探讨造血干/祖细胞在低氧环境下增殖分化性能的改变及其对细胞因子反应性的变化。结果显示 :CD34 细胞在低氧条件下生成的BFU E集落数 ( 32 4 8± 41 4/10 4 细胞 )明显增多 (对照为 191 2± 34 5 /10 4 细胞 ,P <0 0 1) ;在无细胞因子存在的液体培养体系中 ,低氧组的BFU E产率 ( 15 2 4± 2 2 6 /10 4 细胞 )明显高于常氧组 ( 74 2± 9 3/10 4 细胞 ,P <0 0 1) ;低氧培养细胞中CD34 细胞的比例高于对照 2 5± 1 2倍 (P <0 0 5 )。但MNC生成的BFU E在常氧和低氧条件下无显著差异。这些结果表明 :体外低氧环境能显著增加CD34 造血干 /祖细胞形成红系祖细胞的产率 ,且使其对细胞因子的依赖性降低 ,并对早期红系祖细胞的维持有增强作用 ,但对粒系祖细胞的增殖则有抑制作用     

GST-hDSL重组蛋白的原核表达纯化及对人造血祖细胞的扩增作用

目的:原核表达DSL与谷胱甘肽S转移酶(GST)的融合蛋白并研究观察GST-hDSL对人脐带血CD34 造血祖细胞的体外扩增作用.方法:将人DSL cDNA的蛋白编码序列克隆入原核表达载体pGEX-2T中,在大肠杆菌DH5α中诱导表达融合蛋白,用DEAE阴离子交换柱纯化目的蛋白.然后分离、纯化脐带血CD34 造血祖细胞,不加细胞因子或加入SCF(干细胞生长因子,stem cell factor)和GM-CSF(粒-巨噬细胞集落刺激因子,granuloeyte-macrophage colony-stimulating factor),经过14天的培养,检测GST-hDSL对细胞总数、CD34 细胞百分率、以及集落形成的影响.结果:当SCF和GM-CSF存在时,GST-hDSL组的CD34 细胞百分率,集落(colony forming cells,CFC)数以及高增值潜能集落(high proliferative potential colony forming cells,HPP-CFC)数分别是时照组的1.9、1.2、5.3倍.结论:当与SCF和GM-CSF联合作用时,重组GST-hDSL蛋白对造血祖细胞具有扩增作用.     

干细胞因子及其受体在红系分化中的作用

干细胞因子作为一种多能细胞因子,在临床上有较好的应用前景。随着CD34^ 细胞分离培养技术的完善,干细胞因子及其受体在红系增殖、分化中的重要作用正逐渐被发现并阐述清楚,对临床上相关疾病的治疗有重要的指导意义。本介绍了干系胞因子及其配体抑制红系祖细胞凋亡和促进红系祖细胞增殖和分化的功能,以及在临床上的应用前景。     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的:研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法:采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果:纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论:分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的：研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法：采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果：纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论：分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

碳酸酐酶在红细胞分化发育过程中的功能研究

目前红系分化调控相关的研究主要集中在细胞因子、转录因子、lncRNA及表观遗传方面,为了对红系分化调控机制进行更加深入的解析,研究了碳酸酐酶在红系分化中的功能。碳酸酐酶可以高效催化二氧化碳的水合,但它在红细胞发育过程中的功能尚不清楚。利用脐带血来源的CD34⁺细胞在体外进行红细胞诱导分化,在分化过程中通过慢病毒介导的基因敲降的方法能够降低碳酸酐酶1和碳酸酐酶2的表达,并使用流式细胞仪检测红细胞的生成和分化效率。研究结果表明,与对照组相比,碳酸酐酶1的表达缺陷使红细胞的晚期分化明显受阻,而碳酸酐酶2的表达缺陷则将红细胞的分化阻滞在早期阶段。研究结果表明,虽然作用窗口不同,但碳酸酐酶1和碳酸酐酶2在红系分化的过程中均发挥着重要的调控作用,这一发现对将来在体外红细胞生成具有指导意义。     

混合培养体系中间充质干细胞与造血干细胞生物学特性

为了体外同时获得符合鉴定标准的造血干/祖细胞(hematopoietic stem/progenitor cell,HSC/HPC)和间充质干细胞(mesenchymal stem cell,MSC),本研究采用Ficoll淋巴细胞分离液方法从脐带血中分离出脐带血单个核细胞,MACS免疫磁珠法分离出CD34~+的造血干细胞。分离出的细胞与MSC同时接种在培养瓶中,利用15%AB型脐血浆的IMDM培养基添加白细胞介素3(interleukin-3,IL-3)、IL-6、血小板生成素(thrombopoietin,TPO)、干细胞因子(stem cell factor,SCF)和Flt-3配体(FMSlike tyrosine kinase 3 ligand,Flt-3L)因子培养体系来同时培养扩增HSC/HPC和MSC。为了评估扩增出的HSC/HPC和MSC是否符合细胞鉴定标准,本研究通过倒置显微镜观察HSC/HPC和MSC生长状态,并计数细胞。流式细胞仪检测HSC/HPC表面抗原CD34阳性百分率,检测第4代(P4)MSC表面抗原CD105、CD90、CD73、CD45、CD34和HLA-DR阳性表达率。半固体集落培养检测HSC/HPC的粒细胞-巨噬细胞集落形成能力。将共培养至P4的MSC行成骨、成软骨、成脂肪诱导鉴定。通过秋水仙素法进行MSC核型分析。结果显示,体外共培养的HSC/HPC依然有高增殖能力、集落形成能力和CD34阳性百分率。MSC具有向成骨细胞、脂肪细胞和软骨细胞诱导分化的能力。MSC染色体核型维持稳定。以上结果提示本研究成功建立了一种合适的MSC和HSC/HPC混合培养体系,通过该体系可同时获得两种干细胞,共培养后的MSC依然有典型的MSC的生物学功能;共培养后的HSC/HPC的粒细胞-巨噬细胞集落培养、细胞数量和流式表型符合鉴定标准,HSC/HPC生物学功能没有受到影响。     

两种不同内皮祖细胞的分离培养与鉴定

目的:探讨从小鼠骨髓中分离、培养、诱导分化及鉴定两种内皮祖细胞的方法,为进一步研究和临床应用奠定基础。方法:密度梯度离心法分离小鼠骨髓单个核细胞,接种于内皮祖细胞条件培养基,通过贴壁培养法培养出早期内皮祖细胞和晚期内皮祖细胞,并在0 d、6 d、10 d流式鉴定早期内皮祖细胞,在第8周流式鉴定晚期内皮祖细胞。结果:通过体外贴壁扩增培养,从小鼠骨髓细胞中成功培养出EEPC(早期内皮祖细胞)和EOC(晚期内皮祖细胞),表达CD34+/CD133+/VEGFR2+的EEPC比例从最初的0.08%能够增长至70%;EOC大约出现于3-4周,5-8周时呈现指数增长,具有典型的内皮细胞鹅卵石样形态,表达CD31、VEGFR2等内皮细胞表面标志而不表达CD34、CD133等干细胞表面标志。结论:确立了内皮祖细胞体外分离培养和诱导分化的实验方法,为进一步研究奠定基础。     

脐带间充质干细胞联合UM171对脐血源CD34~+细胞的扩增效果研究

目的研究脐带间充质干细胞联合UM171对脐血来源CD34~+细胞的扩增效果。方法脐血来源CD34~+细胞及脐带来源间充质干细胞分为以下4组进行体外扩增培养10 d:对照组、UM171培养组、间充质干细胞共培养组、UM171联合间充质干细胞共培养组,采用方差分析比较不同组别间细胞扩增倍数及流式表型和集落培养情况。结果脐带间充质干细胞CD105,CD73,CD90,不表达CD14,CD34,CD19,CD45,HLA-DR,经过诱导可以向成骨细胞、脂肪细胞、软骨细胞分化。CD34~+细胞在不同条件下体外培养10 d后,UM171培养组总有核细胞数扩增14倍,CD34~+细胞扩增13.5倍;MSCs共培养组总有核细胞数扩增11倍,CD34~+细胞扩增10倍;联合培养组总有核细胞数扩增达22倍,CD34~+细胞扩增21倍。联合培养组扩增后细胞CD34~+CD38~-比例达(91.49±2.67)﹪,较间充质干细胞培养组(78.11±2.35)﹪及UM171培养组(91.49±2.68)﹪相比差异具有统计学意义(P均0.01)。扩增后细胞集落培养14 d后,各系集落形成良好,UM171扩增组细胞较MSCs扩增组在红系及粒系形成能力方面存在优势。结论脐带血间充质干细胞作为细胞滋养层可提高CD34~+细胞体外扩增效果,UM171在扩增过程中可较好的保持细胞干性,二者联合应用扩增效果最佳,建立的脐带间充质干细胞联合UM171对脐血源CD34~+细胞的扩增方法可用于CD34~+细胞体外扩增培养。     

人脐带间充质干细胞的分离培养与鉴定简

目的：建立并优化人脐带间充质干细胞分离纯化方法,并对其表面标志与多向分化潜能进行鉴定。方法：收集健康足月产胎儿脐带组织,采用组织块贴壁法进行原代培养,流式细胞仪对其表面标志进行检测,通过向成骨成脂分化对其多向分化潜能进行鉴定,RT-PCR对其干细胞特性基因Oct4、Nanog、Sox2、Nestin进行检测。结果：采用组织块贴壁法可在2周左右获得大量间充质干细胞,培养的细胞经流式细胞仪检测,高表达CD29、CD44、CD105、CD106,低表达CD34、CD45;经成骨成脂诱导2周后可分化为成骨细胞和成脂细胞,RT-PCR检测发现原代细胞表达Oct4、Nanog、Sox2、Nestin基因。结论：人脐带间充质干细胞可在体外扩增培养,具有多向分化潜能,可作为组织工程种子细胞来源。     

用差异显示法分析不同生长环境中的造血干细胞/祖细胞基因表达的初步研究

对比分析不同生长环境中的脐血CD34+造血干/祖细胞基因表达变化。方法: 采用静态和动态培养系统培养脐血单个核细胞,1周后收获CD34+造血干/祖细胞, 提取总RNA, 用差异显示法对比分析在不同生长环境中造血干/祖细胞基因表达的差异。 结果: 在所使用的差异显示条件下,得到30个差异表达基因片段,其中一个差异表达片段为RAN基因,该基因属于RAS癌基因家族,可能与造血细胞增殖有关。结论: 不同生长环境影响CD34+造血干/祖细胞的基因表达,这些差异表达的基因可为优化体外培养环境,扩增造血细胞提供分子基础。     

Establishment of Immortalized Human Erythroid Progenitor Cell Lines Able to Produce Enucleated Red Blood Cells

Transfusion of red blood cells (RBCs) is a standard and indispensable therapy in current clinical practice. In vitro production of RBCs offers a potential means to overcome a shortage of transfusable RBCs in some clinical situations and also to provide a source of cells free from possible infection or contamination by microorganisms. Thus, in vitro production of RBCs may become a standard procedure in the future. We previously reported the successful establishment of immortalized mouse erythroid progenitor cell lines that were able to produce mature RBCs very efficiently. Here, we have developed a reliable protocol for establishing immortalized human erythroid progenitor cell lines that are able to produce enucleated RBCs. These immortalized cell lines produce functional hemoglobin and express erythroid-specific markers, and these markers are upregulated following induction of differentiation in vitro. Most importantly, these immortalized cell lines all produce enucleated RBCs after induction of differentiation in vitro, although the efficiency of producing enucleated RBCs remains to be improved further. To the best of our knowledge, this is the first demonstration of the feasibility of using immortalized human erythroid progenitor cell lines as an ex vivo source for production of enucleated RBCs.     

Recombinant human (rh) stem cell factor and rhIL-4 stimulate differentiation and proliferation of CD3+ cells from umbilical cord blood and CD3+ cells enhance FcepsilonR1 expression on fetal liver-derived mast cells in the presence of rhIL-4

We previously reported that rhIL-4 induced apoptosis and rhIL-6 mediated protection of human mast cells derived from cord blood mononuclear cells. Based on the result, we attempted to obtain the phenotypes and differentiation of CD3+ cells from cord blood by investigating their cell surface markers in the presence of rhSCF plus rhIL-4. The effect of co-cultured CD3+ cells on fetal liver mast cells (FLMCs) was also determined. Phenotypes from cord blood-derived cells were analyzed by flow cytometry and cell numbers were determined. Fetal liver mast cells were cultured with cord blood-derived cells (mainly CD3+) in the presence of rhSCF and/or rhIL-4 and were analyzed to determine cell number and expression of Kit+ and FcepsilonR1. The percentage of CD3+ cells from cord blood-derived cells on day 0 was about 41 +/- 13.5%, following monocytes and granulocytes. CD3+ cells increased in number (1.5-fold) and purity (90%), whereas other cell types did not survive. More than 60% of CD3+ cells from cord blood at day 0 were CD4(-)CD8-. These double-negative cells dramatically decreased by 1 week of culture, while CD4+CD8+ cells increased in number and purity through 3 weeks of culture, and then decreased as greater numbers of single-positive T cells emerged. We also found that FcepsilonR expression on FLMC increased in the presence of rhIL-4, but was not affected by the T cells that developed from cord blood mononuclear cells. The results indicate that IL-4, a Th2 type cytokine, together with rhSCF, can induce T cell proliferations, differentiation, and maturation from cord blood progenitor cells.     

The characteristics of endothelial progenitor cells derived from mononuclear cells of rat bone marrow in different culture conditions

Endothelial progenitor cells (EPCs) derived from bone marrow are known to be heterogeneous. In this study, we tried to find favorable conditions that induce the differentiation of mononuclear cells (MNCs) from bone marrow into EPCs. The differentiation capacity of MNCs from rat bone marrow was investigated in different conditions, such as different media, different induction times and different culture surfaces. The cell morphology and endothelial biomarkers associated with differentiated MNCs were studied. Our results indicated that MNCs cultured in EGM-2MV (Endothelial cell basal medium-2, plus SingleQuots of growth supplements) developed a bursiform shape, a late EPC-like morphology, while MNCs cultured in complete medium (CM, M199 with 10% FBS, 20 ng/mL VEGF and 10 ng/mL bFGF) showed a spindle shape, an early EPC-like morphology. Cells of both morphologies were able to incorporate DiI-ac-LDL and bind lectin in vitro. MNCs cultured in EGM-2MV exhibited a higher proliferation rate and higher eNOS expression than MNCs cultured in CM. MNCs cultured in EGM-2MV had the ability to form tubes on Matrigel. Flow cytometry results indicated that CD133 expression was highest at day 12 and that the greatest number of cells positive for both FLK-1 and CD133 appeared at day 20 from cells cultured in dishes without fibronectin coating. In addition, the expression levels of CD133, CD31 and FLK-1/CD133 were not significantly different between cells of different shapes. Our experiments suggest that MNCs from bone marrow can be differentiated into late EP-like cells in EGM-2MV, which have the ability to rapidly proliferate. These MNCs can also be differentiated into early EP-like cells in CM. Additionally, fibronectin may not be necessary for the differentiation of EPCs to mature ECs after three generations. Differentiated MNCs from bone marrow in EGM-2MV have the characteristics of EPCs, although the expression levels of EPC markers were lower than previously reported.     

Studies on HOXB4 Expression During Differentiation of Human Cytomegalovirus-infected Hematopoietic Stem Cells into Lymphocyte and Erythrocyte Progenitor Cells

We investigated the role of homeobox B4 (HOXB4) mRNA/protein expression induced by human cytomegalovirus (HCMV) and/or all-trans retinoic acid (ATRA) in proliferation and committed differentiation of human cord blood hematopoietic stem cells (HSCs) into colony-forming-units of T-lymphocyte (CFU-TL) and erythroid (CFU-E) progenitors in vitro. Twelve cord blood samples were collected from the fetal placenta umbilical vein and cultured in vitro. The proliferation and differentiation of cord blood HSCs into CFU-TL and CFU-E were continuously disrupted with HCMV-AD169 and/or 6 × 10(-8) mol/l of ATRA. HOXB4 mRNA/protein expression in CFU-TL and CFU-E was detected in control, ATRA, HCMV and ATRA + HCMV groups on days 3, 7, and 12 of culture by fluorescent qRT-PCR/western blot. We found that HOXB4 mRNA/protein expression was detectable on day 3, increased on day 7 and was highest on day 12. HOXB4 mRNA/protein expression in HCMV group was downregulated compared with control group (P < 0.05). However, the levels were significantly upregulated in HCMV + ATRA group compared with HCMV group (P < 0.05). We concluded that the abnormal HOXB4 mRNA/protein expression induced by HCMV could play a role in hematopoietic damage. ATRA, at the concentration used, significantly up-regulated HOXB4 mRNA/protein expression in normal lymphocyte and erythrocyte progenitor cells as well as in HCMV-infected cells.     

Inhibition of Lymphangiogenesis of Endothelial Progenitor Cells with VEGFR-3 siRNA Delivered with PEI-alginate Nanoparticles

Lymphangiogenesis is implicated in lymphatic metastasis of tumor cells. Recently, growing evidences show that endothelial progenitor cells (EPCs) are involved in lymphangiogenesis. This study has investigated effects of VEGF-C/VEGFR-3 (vascular endothelial growth factor receptor-3) signaling pathway on EPC differentiation and effectiveness of inhibiting lymphatic formation of EPCs with VEGFR-3 siRNA delivered in PEI (polyethylenimine)-alginate nanoparticles. CD34⁺VEGFR-3⁺ EPCs were sorted from mononuclear cells of human cord blood. Under induction with VEGF-C, the cells differentiated toward lymphatic endothelial cells. The nanoparticles were formulated with 25 kDa branched PEI and alginate. The size and surface charge of PEI-alginate nanoparticles loading VEGFR-3 siRNA (N/P = 16) are 139.1 nm and 7.56 mV respectively. VEGFR-3 siRNA specifically inhibited expression of VEGFR-3 mRNA in the cells. After treatment with PEI-alginate/siRNA nanocomplexes, EPCs could not differentiate into lymphatic endothelial cells, and proliferation, migration and lymphatic formation of EPC-derived cells were suppressed significantly. These results demonstrate that VEGFR-3 signaling plays an important role in differentiation of CD34⁺VEGFR-3⁺ EPCs. VEGFR-3 siRNA delivered with PEI-alginate nanoparticles can effectively inhibit differentiation and lymphangiogenesis of EPCs. Inhibiting VEGFR-3 signaling with siRNA/nanocomplexes would be a potential therapy for suppression of tumor lymphangiogenesis and lymphatic metastasis.     

Determination of Erythroid Cells in Unincubated Chick Blastoderm

Portions the size of 1/6 to 1/32 part of unincubated blastoderm cultured in an albumen-salineagar solid medium form erythroid cells under conditions which suppress normal co-ordinated movements for mesoderm induction. Anterior and posterior regions of unincubated blastoderm have the same potentiality to form erythroid cells. The marginal zone seems to be the contributor of prospective erythroid cells. Portion 1/16 part of unincubated blastoderm forms morphologically distinct erythroid cells of the primitive and definitive lines as in normal development in ovo. It seems progenitor cell(s) is pre-programmed to a particular pattern of differentiation and/or includes differentiation to various erythroid cell types as an obligatory step. This system provides novel experimental possibilities in the study of erythroid cell determination and differentiation.