体外培养的胎肝细胞半同系移植效果的研究

以Dexter体系成功地建立了小鼠胎肝细胞体外长期培养技术。培养的胎肝造血干细胞(CFU-S)有旺盛的增殖力。半同系移植研究证实,5×10~6个培养细胞(含780～1200CFU-S)可使9.5Gy γ-线照射的受体小鼠30d和60d存活率达80％和74％。1个月造血功能恢复。无移植物抗宿主病(GVHD)征象,并在受体内形成了稳定的嵌合体。说明体外培养的胎肝细胞能有效地重建造血。观察小鼠移植后14.5个月的远期疗效,其造血机能健全,体内CFU-S的移植效力与正常相似。然而CFU-S的再生速率和自我更新力均较正常同龄鼠低,揭示出长期增殖状态的造血干细胞功能上的变化。     

小鼠胎肝造血基质细胞对CFU—E,BFU—E生长的体外调控作用

造血基质细胞是造血微环境的重要成分,它对造血干细胞和祖细胞增殖分化的影响已引起人们重视。本室建立的小鼠胎肝造血基质细胞系(MFLSC)为研究其在调控造血中的意义提供了方便条件。 以往研究证明,MFLSC可向培养上清液中释放多种造血活性物质,将此培养上清代替外源性刺激因子加入到半固体培养体系中可支持红系、粒系或由红、粒、巨噬细胞组成的集落(CFU—EGM)生长。MFLSC本身对CFU-GM生长的调控作用已有报道。本工作观察MFLSC对小鼠骨髓红系造血祖细胞生长的影响,旨在进一步认识小鼠胎肝基质细胞在调控造血中的作用机理。     

小鼠胎肝和骨髓造血基质细胞贴壁层对红系祖细胞生长的影响

本实验以Dexter培养体系作小鼠胎肝和骨髓造血基质细胞贴壁培养。在所获的基质细胞贴壁层上作红系造血祖细胞集落培养,观察两种来源造血基质细胞对红系集落生长的影响。实验结果表明,胎肝造血基质细胞贴壁层能明显促进早期红系造血祖细胞(BFU-E)形成集落,却不明显影响晚期红系造血祖细胞(CFU-E)的生长。成年小鼠骨髓造血基质细胞贴壁层对BFU-E和CFU-E均有刺激生长的作用;但对前者生长的刺激性影响较胎肝造血基质细胞贴壁层为弱。造血基质细胞贴壁层对红系集落生长的促进作用主要是通过体液因子实现的,细胞间短距离调节的影响亦不能除外。     

小鼠胎肝基质细胞系MFLC自发分泌多种细胞因子

在无外源刺激条件下,我室所建小鼠胎肝基质细胞系MFLC可自发分泌多种类型细胞因子,其中IL-6及化学趋化因子水平较高,GM-CSF水平较低,但未检测到IL-3及IL-7活性。此细胞上清对小鼠骨髓造血干细胞有明显的促集落形成效应,并呈现剂量依赖关系,所形成的集落以CFU-GMM及CFU-GM为主;此细胞上清还促进5-Fu耐受小鼠骨髓造血干细胞的集落形成,提示上清中存在SCF样活性成份。上述结果表明,MFLC的建立有利于分析干细胞在胎肝内如何向pro-T细胞分化发育的机理并有利于阐明细胞因子网络调节在其中的作用。     

人骨髓细胞培养液中干细胞刺激物的分析研究

人骨髓细胞体外培养液中含有高活力的 CSF,在长期培养过程中,CSF 活力的变化,与 CFU-C 数量的变化有大致平行的趋势。这种 CSF 对狗和小鼠也同样有效。人骨體条件液中的 CSF 对培养中的 CFU-S 也有明显的激发作用。这一结论可以从几个方面获得证据:第一,小鼠骨髓细胞与人骨髓条件液保温六小时后,再测定其中 CFU-S 数,结果是增加了。第二,经亚致死剂量照射的小鼠,腹腔注射适量的人骨髓条件液,其内源性脾结节也明显增多。第三,采用阿糖胞苷自杀的方法,测定小鼠骨髓经与人骨髓条件液保温后,其中 CFU-S 的自杀率也有增高的趋势。上述几方面的实验,说明人骨髓长期培养中存在着某种活性物质,调节体外造血。至于这种物质的来源,以及在体外造血中所起的作用,还需要做很多工作,逐步予以澄清。     

小鼠胎肝基质细胞系MFLC自发分泌多种细胞因子

在无外源刺激条件征,我室所建小鼠胎肝基质细胞系ＭＦＬＣ可自发分泌多处类型细胞因子,其中ＩＬ－６及化学趋化因了水平较高,ＧＭ－ＣＳＦ较低,但示检测到ＩＬ－３及ＩＬ－７活性,引细胞上清对小鼠骨髓造血干细胞有明显的促集落形成效应。并呈现剂量依赖关系,所形成的集落以ＣＦＵ－ＧＭＭ及ＣＦＵ－ＧＭ为主,此细胞上清还促进５－Ｆｕ耐受小鼠骨髓造血干细胞的集落形成,提示上清中存在ＳＣＦ样活性成份。上述结果表明,ＭＦ     

小鼠胎肝基质细胞体外扩增骨髓来源的LTC-IC

基质细胞是胎肝造血微环境的主要成分,参与造血干/祖细胞的自我更新、增殖分化的调控。为了研究小鼠胎肝基质细胞在造血微环境中的功能,采用转染SV40大T抗原基因的方法建立了小鼠胚胎期第12.5天（Embryonic-day 12.5, E12.5d）胎肝基质细胞系A4、B3,并进一步鉴定基质细胞系的一般细胞生物学特性和造血支持功能。结果：A4、B3为细胞形态、生长行为以及表面分子表达不同细胞系,二者均可维持骨髓源长期培养启动细胞（Longterm cultureinitiating cell,LTC-IC）至少4周并且有不同程度的扩增LTC-IC能力,其中B3扩增LTC-IC的能力是A4的83倍。外源性细胞因子组合SCF+IL-3+IL6+Epo在本实验体系中不影响LTC-IC数量的维持和扩增。暗示E12.5d胎肝造血微环境中基质细胞的功能是不同的,其机制有待进一步研究。     

小鼠胎肝基质细胞造血刺激因子体外生物活性研究

本实验对基质细胞造血刺激因子－１（ＳＨＦ－１）的体外生物活性进行了研究。结果表明,ＳＨＦ－１可刺激小鼠骨髓ＣＦＵ－Ｅ、ＢＦＵ－Ｅ、ＣＦＵ－ＧＭ、ＣＦＵ－Ｍｉｘ集落的形成,它产生的这些广泛造血刺激作用是其自身所具活性的直接影响。正常小鼠骨髓细胞与ＳＨＦ－１在体外孵育４ｈ,其中ＣＦＵ－Ｓ的自杀率可提高约１０％,显示它对造血干细胞也有诱导增殖作用。     

人参总皂甙对人GM-CSF和GM-CSFR表达的调控

为探讨人参调控粒细胞发生的生物学机制,采用造血祖细胞和骨髓基质细胞体外培养、造血生长因子生物学活性检测、免疫细胞化学、核酸分子原位杂交、免疫沉淀和蛋白印迹等现代生物学技术,研究人参总皂甙(total saponins of Panax ginaeng,TSPG)对人粒-巨噬细胞集落刺激因子(granulocyte-macrophage colony-stimulating factor,GM-CSF)和粒-巨噬细胞集落刺激因子受体α(GM-CSFRα)表达的影响。结果：(1)经TSPG(50μg／m1)诱导制备的骨髓基质细胞、胸腺细胞、脾细胞、血管内皮细胞和单核细胞条件培养液可显著提高粒单系造血祖细胞(CFU-GM)的集落产率;(2)经TSPG(50μg/ml)诱导后,上述细胞的GM-CSF蛋白(诱导24h)和mRNA(诱导12h)表达显著提高;(3)经TSPG(50μg/ml)诱导24h骨髓造血细胞的GM-CSFRα蛋白表达增强;(4)经TSPG(50μg/ml)刺激后2min,GM-CSFRα和Shc发生酪氨酸磷酸化,5min时达高峰,随后去磷酸化。上述结果表明,TSPG可能通过直接和／或间接途径促进淋巴细胞与骨髓基质细胞合成与分泌GM-CSF,诱导骨髓造血细胞表达GM-CSFRα,并刺激GM-CSFRα和Shc的酪氨酸可逆磷酸化,从而通过调控GM-CSF的信号转导过程,促进CFU-GM的增殖。     

IL-33转基因小鼠骨髓造血干／祖细胞向髓系细胞分化的能力增强

目的：利用IL-33转基因小鼠研究IL-33对造血干/祖细胞的增殖和分化影响。方法利用流式细胞仪分析IL-33转基因小鼠及同窝野生对照小鼠的外周血、脾脏、骨髓细胞的免疫表型及造血干细胞分化不同阶段细胞的数量变化;利用体外成克隆实验和细胞周期分析研究IL-33对于造血干细胞增殖能力的影响。结果与野生型小鼠相比,IL-33转基因小鼠B细胞和T细胞在外周血中都明显降低,粒细胞在外周血和骨髓中都有明显增加;IL-33转基因小鼠的骨髓造血干细胞和多能祖细胞数量减少,共同淋系祖细胞数量减少,共同髓系祖细胞和粒单系祖细胞数量增加;IL-33转基因小鼠的造血干细胞处于S-G2-M的细胞增多;体外单克隆实验发现IL-33转基因小鼠造血干细胞形成的集落数增加。结论 IL-33转基因小鼠造血干细胞增殖能力增强,更易向髓系细胞分化。     

在不稳定和相对稳定培养体系中CFU-S生长的动力学观察

利用 Dexter 培养方法,我们在体外对小鼠胎肝进行了长期液体培养。根据换液后悬液细胞总数的不同,建立了不稳定和相对稳定两个培养体系,并利用12d 脾结节检测和单个脾结节转移技术,观察了体系中悬液细胞总数,CFU-S 数及其自我更新的动态变化。表明在不稳定培养体系中,悬液细胞总数和 CFU-S 数增长较快,但由于每周换液时悬液细胞的丢失,可能使体系长时间处于应激状态,其自我更新力衰减也较快。而在相对稳定体系中,由于换液时其悬液细胞的再次种入,使总数保持相对恒定,CFU-S 数的变化比较平缓,其自我更新力的衰减也相对缓慢。提示在造血细胞体外液体培养体系中存在着一种生理性反馈调节活动,但其机理有待进一步研究。     

Developments in modern hematology.

In the past 40 years our concepts about hemopoiesis have been changed dramatically. The results of bone marrow transplantation into lethally irradiated mice since the mid-fifties suggested the existence of a hemopoietic stem cell, which was initially identified as a spleen colony forming cell (CFU-S). Later experiments showed that the stem cell compartment is rather heterogeneous and that the most primitive stem cell, unlike the CFU-S, has the ability for long-term engraftment of an irradiated recipient. Daughter cells of such primitive quiescent stem cells lose their capacity for self-generation gradually with each mitosis and become more and more committed to a specific differentiation lineage. In vitro culture techniques in a serum-free semi-solid medium enabled the establishment and analysis of specific hemopoietic growth factors. Such factors, which are essential for the maintenance, proliferation and differentiation of progenitor cells and the functional activity of mature cells can now be produced with recombinant DNA techniques in pure form and large quantities. Hemopoiesis requires an appropriate microenvironment, consisting of various stromal cell types and an extracellular matrix. Intercellular contacts, adhesion of cells and growth factors to the matrix molecules seem essential in the regulating action of this hemopoietic microenvironment. In long-term bone marrow cultures the development of a stromal hemopoietic microenvironment can facilitate long-term maintenance of stem cells and hemopoietic differentiation. For bone marrow transplantation and infusion of hemopoietic growth factors many clinical indications are well established and our possibilities to interfere in the regulation of hemopoiesis are still growing.     

胎肝造血干细胞在扩散盒培养条件下移植特性的变化

经体内扩散盒培养6d 后的 LACA 小鼠胎肝细胞移植给照射的同系成年小鼠,造血干细胞在受体脾脏和骨髓中的有效植入率比正常胎肝细胞明显提高。但这种效果在同种异基因受体小鼠中则完全消失。实验结果表明,个体发育屏障和移植免疫屏障是决定同种胎肝移植能否成功的两个重要因素。胎肝细胞经体内或体外培养后可以模拟造血干细胞在体内的发育成熟,从而增强对成年造血微环境的适应性。用短期体内培养的方法,可以改变胎肝造血干细胞的某些生理特性,从而减弱个体发育屏障,但不能克服胎肝同种移植中的免疫性抗力。为了保证同种胎肝移植的成功,必须进一步同时克服两种屏障。     

Isolation of a human stromal cell strain secreting hemopoietic growth factors

A diploid fibroblastoid cell strain, termed "ST-1," has been established from a long-term liquid culture of human fetal liver cells. ST-1 cells are nonphagocytic, nonspecific esterase negative and do not possess factor VIII-related antigen but stain with antibodies specific for fibronectin and type I collagen. The ST-1 cells produce nondialyzable hemopoietic growth factors capable of stimulating the development of erythroid bursts, mixed granulocyte-macrophage colonies, pure granulocyte colonies, and pure macrophage colonies. These factors are active on both human fetal liver and human adult bone marrow progenitors. When liquid cultures of human fetal liver hemopoietic progenitors are established with a preformed monolayer of ST-1 cells, the yields of nonadherent cells, erythroid progenitors, and myeloid progenitors are greatly increased. These studies demonstrate that the fibroblastoid ST-1 cells support hemopoiesis in vitro and may be a critical element in the stromal microenviroment in vivo.     

Osteogenic and adipogenic capacity of fibroblast-like progenitor cells derived from human fetal liver

The study of the differentiation potential of multipotent stromal progenitor cells (PC) in embryogenesis is a crucial issue for understanding their biology and role in the tissue regeneration of an adult organism. In this study, in monolayer culture, osteogenic and adipogenic potencies of fibroblast-like PCs derived from human fetal liver of 8–11 gestation weeks were investigated before and after exposure to cryoprotectant dimethyl sulphoxide (DMSO). It was shown that the primary suspension of human fetal liver cells includes immature stromal fibroblast-like PCs, which were able to induce osteogenic and adipogenic differentiation. The short-term exposure of recently isolated human fetal liver cells to cryoprotectant DMSO led to alterations in the properties of fibroblast-like PCs. Under subculture conditions, an increase in the number of fibroblast-like PCs capable of inducing osteogenic differentiation in vitro was discovered. It is necessary to take this established fact of DMSO influence on the differentiation capacity of fetal fibroblast-like PCs into consideration when developing cryopreservation methods for stem cells.     

Fetal and adult liver stem cells for liver regeneration and tissue engineering

For the development of innovative cell-based liver directed therapies, e.g. liver tissue engineering, the use of stem cells might be very attractive to overcome the limitation of donor liver tissue. Liver specific differentiation of embryonic, fetal or adult stem cells is currently under investigation. Different types of fetal liver (stem) cells during development were identified, and their advantageous growth potential and bipotential differentiation capacity were shown. However, ethical and legal issues have to be addressed before using fetal cells. Use of adult stem cells is clinically established, e.g. transplantation of hematopoietic stem cells. Other bone marrow derived liver stem cells might be mesenchymal stem cells (MSC). However, the transdifferentiation potential is still in question due to the observation of cellular fusion in several in vivo experiments. In vitro experiments revealed a crucial role of the environment (e.g. growth factors and extracellular matrix) for specific differentiation of stem cells. Co-cultured liver cells also seemed to be important for hepatic gene expression of MSC. For successful liver cell transplantation, a novel approach of tissue engineering by orthotopic transplantation of gel-immobilized cells could be promising, providing optimal environment for the injected cells. Moreover, an orthotopic tissue engineering approach using bipotential stem cells could lead to a repopulation of the recipients liver with healthy liver and biliary cells, thus providing both hepatic functions and biliary excretion. Future studies have to investigate, which stem cell and environmental conditions would be most suitable for the use of stem cells for liver regeneration or tissue engineering approaches.     

Molecular-genetic and immunophenotypic analysis of antigen profile and osteogenic and adipogenic potentials of mesenchymal stromal cells from fetal liver and adult bone marrow in rats

Comparative characteristics of mesenchymal stromal cells (MSCs) from adult bone marrow and fetal liver are of great interest due to the similar functions performed by these organs on the organization of a hemopoietic microenvironment at various developmental periods. It is known that MSCs play a pivotal role in the formation of niches for hemopoietic stem cells. The histogenetic relation of MSCs from these two hemopoietic organs cannot be ruled out. An analysis of antigen profile using immunocytochemistry and RT-PCR has confirmed that the studied cell populations fit the MSC criteria and have no contaminations of hemopoietic, lymphoid, and endothelial cells beginning at the second passage. Comparative analysis of osteogenic and adipogenic marker expression revealed MSC from fetal liver to have a weaker potential for adipogenesis and the extremely low capability for terminal osteogenic differentiation, in contrast to pronounced osteo- and adipogenic potentials of adult bone marrow MSC. The similar cell phenotype but different differentiation potentials under identical conditions of cultivation in vitro seem to be due to different developmental programs of the pre- and postnatal histogenesis of these MSC.     

骨髓基质细胞的辐射效应及其临床意义

小鼠骨髓基质细胞团在γ线照射后的Do值为2.40Gy,但其成灶能力损伤后持续时间较久。正常骨髓基质细胞能促进骨髓GM-CFU-C的生长;照射10-80Gy后的骨髓基质细胞失去这种促进作用。文中讨论了骨髓基质细胞的辐射效应及其临床意义,提出了谨慎选择放射治疗剂量的必要性。