CD34+和CD34-细胞在NOD/SCID小鼠体内的造血重建

利用非肥胖糖尿病型重症联合免疫缺陷型(NOD/SCID)小鼠模型, 比较了新鲜及培养后的CD34+和CD34-细胞在体内植入及重建造血能力。从新鲜脐血及培养后的单个核细胞(MNC)中分离出CD34+和CD34-细胞, 经尾静脉输注入经亚致死剂量照射的NOD/SCID小鼠体内, 6周后处死存活的小鼠, 取其骨髓、脾脏和外周血细胞, 分别进行细胞表型分析、造血集落形成单位和人特异性基因的检测。经检测, 输注CD34+细胞和混合细胞的小鼠, 其体内CD45+细胞及人源各系血细胞的含量相近, 两者均远远高于输注CD34-细胞的小鼠。输注培养后CD34-细胞的小鼠饲养6周后全部死亡,输注培养后CD34+细胞的小鼠存活率约为66.7%, 而输注培养后混合细胞的小鼠全部存活, 且在两组存活的小鼠体内均能检测到CD45+细胞及人源各系血细胞。结果表明: 无论是新鲜还是培养后的CD34+细胞均具有在NOD/SCID小鼠体内植入和重建造血能力, 而CD34-细胞不具有该能力, 但CD34-细胞与CD34+细胞同时输注有助于提高小鼠的存活率, 说明其对CD34+细胞在小鼠体内发挥植入和造血重建能力有一定的辅助作用。     

人CD34^＋和CD34^-细胞在NOD／SCID小鼠体内的造血重建

利用非肥胖糖尿病型重症联合免疫缺陷型(NOD/SCID)小鼠模型,比较了新鲜及培养后的CD34 和CD34-细胞在体内植入及重建造血能力.从新鲜脐血及培养后的单个核细胞(MNC)中分离出CD34 和CD34-细胞,经尾静脉输注入经亚致死剂量照射的NOD/SCID小鼠体内,6周后处死存活的小鼠,取其骨髓、脾脏和外周血细胞,分别进行细胞表型分析、造血集落形成单位和人特异性基因的检测.经检测,输注CD34' 细胞和混合细胞的小鼠,其体内CD45 细胞及人源各系血细胞的含量相近,两者均远远高于输注CD34-细胞的小鼠.输注培养后CD34-细胞的小鼠饲养6周后全部死亡,输注培养后CD34 细胞的小鼠存活率约为66.7%,而输注培养后混合细胞的小鼠全部存活,且在两组存活的小鼠体内均能检测到CD45 细胞及人源各系血细胞.结果表明:无论是新鲜还是培养后的CD34 细胞均具有在NOD/SCID小鼠体内植入和重建造血能力,而CD34-细胞不具有该能力,但CD34-细胞与CD34 细胞同时输注有助于提高小鼠的存活率,说明其对CD34 细胞在小鼠体内发挥植入和造血重建能力有一定的辅助作用.     

人脐血CD34+细胞来源的树突状细胞疫苗在SCID小鼠体内的抗肿瘤免疫作用

目的观察脐血CD34 干细胞来源的树突状细胞(dendritic cells, DC)疫苗在严重联合免疫缺陷(severecombined immunity deficiency,SCID)小鼠体内对人肝癌细胞的免疫治疗和免疫保护作用.方法采用微磁珠分选系统(Mini MACS)从脐血单个核细胞中分离CD34 干细胞.重组人粒细胞-巨噬细胞集落刺激因子(recombined human granulocyte-macrophage colony-stimulating factor, rhGM-CSF)、重组人肿瘤坏死因子(recombined human tumor necrosis factor,TNF)-α诱导脐血CD34 细胞向DC分化,相差显微镜下观察DC分化过程中细胞的形态及数量变化.用人肝癌细胞BEL-7402裂解物冲击DC制备DC疫苗.在SCID小鼠体内观察DC疫苗致敏的淋巴细胞对人肝癌细胞的免疫治疗和免疫保护作用.结果脐血CD34 细胞在细胞因子诱导下,细胞形态由小变大、由圆形逐渐变为不规则形;细胞分裂扩增过程中,数量逐渐增多,形成细胞集落.经过细胞因子联合诱导2周的DC胞质突起丰富,具有典型的树枝状形态.在体内的抗肿瘤实验中,经DC疫苗致敏的人外周血淋巴细胞治疗荷瘤小鼠,肿瘤生长速度、瘤体积和重量明显小于未致敏淋巴细胞治疗组(P<0.05).与未致敏淋巴细胞免疫组和DC疫苗致敏的淋巴细胞治疗组比较,经DC疫苗致敏的淋巴细胞免疫SCID小鼠,肝癌细胞攻击后,肿瘤的发病率降低(P<0.05),发病潜伏期延长(P<0.01),肿瘤体积和重量减小(P<0.05).结论人脐血CD34 细胞来源的DC疫苗能在一定程度上抑制人肝癌细胞在小鼠体内的生长,抵抗肿瘤细胞的攻击,对机体具有相应的抗肿瘤免疫治疗和免疫保护作用.     

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     

急性淋巴细胞白血病CD34+CD38-细胞在NOD/SCID小鼠体内的自我更新与增值能力

目的 探索急性淋巴细胞白血病(ALL)患者CD34+ CD38-细胞移植到NOD/SCID小鼠体内建立白血病的可行性、自我更新与增殖潜能.方法 分选并鉴定ALL患者骨髓CD34+ CD38-细胞及对照CD34- CD38+细胞后,经尾静脉分别注射104个细胞于亚致死剂量射线照射的NOD/SCID小鼠体内,连续监测小鼠状态以及外周血血象改变,对濒死或死亡小鼠进行骨髓检查、肝脾病理学检查.结果 接种从ALL患者分选的CD34+ CD38-细胞到NOD/SCID小鼠体内后4周,小鼠外周血白细胞上升,到8周左右达高峰,约15×109～20× 109/L,原始及幼稚淋巴细胞明显增多.骨髓象显示以原始及幼稚淋巴细胞增生为主,约为40％,且肝脾组织也有白细胞浸润,明显高于接种了对照组CD34- CD38+细胞的NOD/SCID小鼠.结论 ALL患者CD34+CD38-细胞可以成功移植NOD/SCID 小鼠,在小鼠体内增殖形成白血病,说明该群细胞具有自我更新和增殖的潜能,可作为探索白血病起始细胞研究的重要载体.     

人免疫重建SCID小鼠的研究

４２只不渗漏ＳＣＩＤ小鼠分别腹腔注射经冷冻、复苏的胎肝或胎肝加胎胸腺细胞,每鼠２×１０７活细胞,建立人胎肝细胞ＳＣＩＤ小鼠模型Ⅰ和Ⅱ,研究人免疫系统。用人肝癌细胞（ＨＨＣＣ）免疫,ＳＣＩＤ鼠出现初始免疫答应,血清人ＩｇＧ平均滴度分别达到５１３．０±８４．２ｎｇ／ｍｌ和７１９．７±２０１．６ｎｇ／ｍｌ,ＩｇＧ峰值分别出现在免疫重建后１０～１２和１０～１４周,特异性抗ＨＨＣＣ抗体滴度分别达到１∶７０．４±３５．０５和１∶２９４．４±１６８．５２,免疫重建后７～８周龄,ＡＢＣ法免疫组化染色,免疫鼠模型肝、脾中可检出标记人的ＣＤ３＋、ＣＤ２０＋Ｔ和Ｂ淋巴细胞克隆和细胞岛。流式细胞仪检测了抗原免疫组和模型组外周血、脾脏、肝脏的人ＣＤ３＋、ＣＤ４＋、ＣＤ８＋、ＣＤ１９＋、ＣＤ２０＋标记的淋巴细胞数,其中标记ＣＤ２０＋淋巴细胞平均值外周血３．１２±３．０３％、脾脏１．４±０．２０％、肝脏２．３２±１．４９％。而无抗原免疫的模型组在肝脏仅有微量或检测不到人标记淋巴细胞。     

血小板第四因子对脐血CD34+细胞趋化作用的研究

目的 :研究PF4及其小肽PF417 70对新鲜脐血CD34+细胞的趋化作用及对粘附分子表达的影响。方法 :采用免疫磁珠法 (MACS)分选CD34+细胞 ,利用Transwell穿孔板测定PF4对CD34+细胞的趋化作用 ;流式细胞仪检测免疫荧光标记的粘附分子及CXCR4的表达。结果 :①PF4对脐血CD34+细胞有趋化作用 ,PF4组的趋化百分比为 15 7.43%± 5 0 .0 6 %(P <0 .0 5 ) ,PF417 70组为 187.0 2 %± 10 .6 9%(P <0 .0 5 )。②PF4作用于CD34+细胞时 ,CD49d和CXCR 4表达增加 ,对其它粘附分子CD31,CD44 ,CD11a ,CD6 2 p ,CD6 2E的表达没有影响。 结论 :PF4对脐血CD34+细胞有趋化作用 ,促进整合素CD49d及CXCR4的表达 ,PF4有助于脐血干细胞的归巢。     

NOD/SCID小鼠模型在实验血液学研究中的应用

NOD/SCID（非肥胖糖尿病/重症联合免疫缺陷）小鼠是在SCID（重症联合免疫缺陷）小鼠的基础上与非肥胖性糖尿病小鼠（NOD/Lt）品系回交的免疫缺陷鼠。NOD/SCID小鼠既有先天免疫缺陷,又有T和B淋巴细胞缺乏,各种肿瘤细胞可以植入,且较少发生排斥反应及移植物抗宿主病（GVHD）,所以NOD/SCID小鼠逐渐成为血液学实验研究的有用工具。本文从NOD/SCID小鼠的生物学特性、建立人类白血病模型、干细胞移植、药物研究及NOD/SCID小鼠应用中存在的不足和改良等方面综合述评。     

人胎盘间充质干细胞对脐血CD34~+细胞迁移作用的影响

人胎盘作为间充质干细胞的新来源在调控造血干/祖细胞(CD34+细胞)发育与分化方面具有重要作用,但其在移植中是否对CD34+细胞迁移起作用尚不清楚.为此,本研究通过胰酶消化法和密度梯度离心法,单克隆筛选培养出人胎盘来源间充质干细胞,RT-PCR检测其与造血和趋化相关的细胞因子和黏附分子的表达;进一步利用transwell体系检测其对脐血CD34+细胞的迁移作用.结果表明,PDMSCs呈现典型的成纤维样细胞,表达间充质干细胞相关表面抗原CD73,CD90和CD105,不表达造血及内皮细胞表面抗原CD34,CD45,CD31等,PDMSCs具有诱导成脂肪、成骨和成软骨的能力.RT-PCR检测结果显示,PDMSCs表达IL-6,LIF,G-CSF,GM-CSF,M-CSF,FL,SCF,SDF-1,VEGF等多种造血与趋化因子,Integrinβ1,Integrinα5,ICAM-1,ICAM-2,ICAM-3,VCAM-1等多种黏附分子;将PDMSCs按照不同密度接种在transwell体系,4h后脐血CD34+细胞迁移率随着PDMSCs的密度增加而增加;在PDMSCs与SDF-1对CD34+细胞的趋化迁移比较实...     

Human Haemato-Endothelial Precursors: Cord Blood CD34+ Cells Produce Haemogenic Endothelium

Embryologic and genetic evidence suggest a common origin of haematopoietic and endothelial lineages. In the murine embryo, recent studies indicate the presence of haemogenic endothelium and of a common haemato-endothelial precursor, the haemangioblast. Conversely, so far, little evidence supports the presence of haemogenic endothelium and haemangioblasts in later stages of development. Our studies indicate that human cord blood haematopoietic progenitors (CD34+45+144−), triggered by murine hepatocyte conditioned medium, differentiate into adherent proliferating endothelial precursors (CD144+CD105+CD146+CD31+CD45−) capable of functioning as haemogenic endothelium. These cells, proven to give rise to functional vasculature in vivo, if further instructed by haematopoietic growth factors, first switch to transitional CD144+45+ cells and then to haematopoietic cells. These results highlight the plasticity of haemato-endhothelial precursors in human post-natal life. Furthermore, these studies may provide highly enriched populations of human post-fetal haemogenic endothelium, paving the way for innovative projects at a basic and possibly clinical level.     

Natural Killer Cells Generated from Cord Blood Hematopoietic Progenitor Cells Efficiently Target Bone Marrow-Residing Human Leukemia Cells in NOD/SCID/IL2Rgnull Mice

Natural killer (NK) cell-based adoptive immunotherapy is an attractive adjuvant treatment option for patients with acute myeloid leukemia. Recently, we reported a clinical-grade, cytokine-based culture method for the generation of NK cells from umbilical cord blood (UCB) CD34⁺ hematopoietic progenitor cells with high yield, purity and in vitro functionality. The present study was designed to evaluate the in vivo anti-leukemic potential of UCB-NK cells generated with our GMP-compliant culture system in terms of biodistribution, survival and cytolytic activity following adoptive transfer in immunodeficient NOD/SCID/IL2Rg^null mice. Using single photon emission computed tomography, we first demonstrated active migration of UCB-NK cells to bone marrow, spleen and liver within 24 h after infusion. Analysis of the chemokine receptor expression profile of UCB-NK cells matched in vivo findings. Particularly, a firm proportion of UCB-NK cells functionally expressed CXCR4, what could trigger BM homing in response to its ligand CXCL12. In addition, high expression of CXCR3 and CCR6 supported the capacity of UCB-NK cells to migrate to inflamed tissues via the CXCR3/CXCL10-11 and CCR6/CCL20 axis. Thereafter, we showed that low dose IL-15 mediates efficient survival, expansion and maturation of UCB-NK cells in vivo. Most importantly, we demonstrate that a single UCB-NK cell infusion combined with supportive IL-15 administration efficiently inhibited growth of human leukemia cells implanted in the femur of mice, resulting in significant prolongation of mice survival. These preclinical studies strongly support the therapeutic potential of ex vivo-generated UCB-NK cells in the treatment of myeloid leukemia after immunosuppressive chemotherapy.     

Expansion of Cord Blood CD34+ Cells in Presence of zVADfmk and zLLYfmk Improved Their In Vitro Functionality and In Vivo Engraftment in NOD/SCID Mouse

Background

Cord blood (CB) is a promising source for hematopoietic stem cell transplantations. The limitation of cell dose associated with this source has prompted the ex vivo expansion of hematopoietic stem and progenitor cells (HSPCs). However, the expansion procedure is known to exhaust the stem cell pool causing cellular defects that promote apoptosis and disrupt homing to the bone marrow. The role of apoptotic machinery in the regulation of stem cell compartment has been speculated in mouse hematopoietic and embryonic systems. We have consistently observed an increase in apoptosis in the cord blood derived CD34⁺ cells cultured with cytokines compared to their freshly isolated counterpart. The present study was undertaken to assess whether pharmacological inhibition of apoptosis could improve the outcome of expansion.

Methodology/Principal Findings

CB CD34⁺ cells were expanded with cytokines in the presence or absence of cell permeable inhibitors of caspases and calpains; zVADfmk and zLLYfmk respectively. A novel role of apoptotic protease inhibitors was observed in increasing the CD34⁺ cell content of the graft during ex vivo expansion. This was further reflected in improved in vitro functional aspects of the HSPCs; a higher clonogenicity and long term culture initiating potential. These cells sustained superior long term engraftment and an efficient regeneration of major lympho-myeloid lineages in the bone marrow of NOD/SCID mouse compared to the cells expanded with growth factors alone.

Conclusion/Significance

Our data show that, use of either zVADfmk or zLLYfmk in the culture medium improves expansion of CD34⁺ cells. The strategy protects stem cell pool and committed progenitors, and improves their in vitro functionality and in vivo engraftment. This observation may complement the existing protocols used in the manipulation of hematopoietic cells for therapeutic purposes. These findings may have an impact in the CB transplant procedures involving a combined infusion of unmanipulated and expanded grafts.     

Magnetic Resonance Detection of CD34+ Cells from Umbilical Cord Blood Using a 19F Label

Impaired homing and delayed recovery upon hematopoietic stem cell transplantation (HSCT) with hematopoietic stem cells (HSC) derived from umbilical cord blood (UCB) is a major problem. Tracking transplanted cells in vivo will be helpful to detect impaired homing at an early stage and allows early interventions to improve engraftment and outcome after transplantation. In this study, we show sufficient intracellular labeling of UCB-derived CD34⁺ cells, with ¹⁹F-containing PLGA nanoparticles which were detectable with both flow cytometry and magnetic resonance spectroscopy (MRS). In addition, labeled CD34⁺ cells maintain their capacity to proliferate and differentiate, which is pivotal for successful engraftment after transplantation in vivo. These results set the stage for in vivo tracking experiments, through which the homing efficiency of transplanted cells can be studied.     

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 .     

High Log-Scale Expansion of Functional Human Natural Killer Cells from Umbilical Cord Blood CD34-Positive Cells for Adoptive Cancer Immunotherapy

Immunotherapy based on natural killer (NK) cell infusions is a potential adjuvant treatment for many cancers. Such therapeutic application in humans requires large numbers of functional NK cells that have been selected and expanded using clinical grade protocols. We established an extremely efficient cytokine-based culture system for ex vivo expansion of NK cells from hematopoietic stem and progenitor cells from umbilical cord blood (UCB). Systematic refinement of this two-step system using a novel clinical grade medium resulted in a therapeutically applicable cell culture protocol. CD56⁺CD3⁻ NK cell products could be routinely generated from freshly selected CD34⁺ UCB cells with a mean expansion of >15,000 fold and a nearly 100% purity. Moreover, our protocol has the capacity to produce more than 3-log NK cell expansion from frozen CD34⁺ UCB cells. These ex vivo-generated cell products contain NK cell subsets differentially expressing NKG2A and killer immunoglobulin-like receptors. Furthermore, UCB-derived CD56⁺ NK cells generated by our protocol uniformly express high levels of activating NKG2D and natural cytotoxicity receptors. Functional analysis showed that these ex vivo-generated NK cells efficiently target myeloid leukemia and melanoma tumor cell lines, and mediate cytolysis of primary leukemia cells at low NK-target ratios. Our culture system exemplifies a major breakthrough in producing pure NK cell products from limited numbers of CD34⁺ cells for cancer immunotherapy.