Feeder-free Derivation of Neural Crest Progenitor Cells from Human Pluripotent Stem Cells

Human pluripotent stem cells (hPSCs) have great potential for studying human embryonic development, for modeling human diseases in the dish and as a source of transplantable cells for regenerative applications after disease or accidents. Neural crest (NC) cells are the precursors for a large variety of adult somatic cells, such as cells from the peripheral nervous system and glia, melanocytes and mesenchymal cells. They are a valuable source of cells to study aspects of human embryonic development, including cell fate specification and migration. Further differentiation of NC progenitor cells into terminally differentiated cell types offers the possibility to model human diseases in vitro, investigate disease mechanisms and generate cells for regenerative medicine. This article presents the adaptation of a currently available in vitro differentiation protocol for the derivation of NC cells from hPSCs. This new protocol requires 18 days of differentiation, is feeder-free, easily scalable and highly reproducible among human embryonic stem cell (hESC) lines as well as human induced pluripotent stem cell (hiPSC) lines. Both old and new protocols yield NC cells of equal identity.     

人胎肝干细胞的分离培养、鉴定及mRNA转录分析

目的：探讨体外大量扩增培养人胎肝干细胞的方法,研究其形态、特性及mRNA转录情况。方法：采用两步灌流法结合链霉蛋白酶消化及Percoll密度梯度离心法分离12～20周胎龄的胎肝细胞,采用免疫细胞化学染色及RT-PCR方法对分离培养的细胞进行鉴定分析。结果：刚分离的细胞活力在80%以上,原代培养3d开始出现小细胞团,2周后即形成肉眼可见的细胞集落,细胞体积小,核质比大;原代、传代培养的胎肝细胞甲胎蛋白（AFP）、细胞角蛋白19（CK19）、卵圆标记蛋白OV-6、细胞分化抗原34免疫染色阳性;RT-PCR分析证明胎肝干细胞中AFP、白蛋白、CK19、CK18和八聚体结合蛋白（OCT）-4mRNA的表达。结论：分离了胎肝干细胞,具有肝细胞、胆管细胞及干细胞表面标志及相应的基因表达,为进一步的基础研究奠定了基础。     

极小胚胎样干细胞与神经再生

再生医学的目的是为了减轻组织损伤所致的不可逆性功能损害,多种类型的干细胞可促进神经再生,发挥治疗作用。近来,在骨髓和其他组织中发现了一种数量极少的极小胚胎样干细胞(VSELs),其分子标志为Oct-4+CXCR4+SSEA-1+Sca-1+lin-CD45-,它们可动员到外周血中。在给予动员剂或组织损伤等应激情况下可向损伤区迁移,现在认为它是高度迁移的外胚层/生殖系源性的干细胞群,具有多能干细胞特征,能分化为三个胚层细胞,综上所述,极小胚胎样干细胞可能通过促进神经再生修复中枢神经系统损伤。     

CXCR4 Receptor Overexpression in Mesenchymal Stem Cells Facilitates Treatment of Acute Lung Injury in Rats

Novel therapeutic regimens for tissue renewal incorporate mesenchymal stem cells (MSCs) as they differentiate into a variety of cell types and are a stem cell type that is easy to harvest and to expand in vitro. However, surface chemokine receptors, such as CXCR4, which are involved in the mobilization of MSCs, are expressed only on the surface of a small proportion of MSCs, and the lack of CXCR4 expression may underlie the low efficiency of homing of MSCs toward tissue damage, which results in a poor curative effect. Here, a rat CXCR4 expressing lentiviral vector was constructed and introduced into MSCs freshly prepared from rat bone marrow. The influence of CXCR4 expression on migration, proliferation, differentiation, and paracrine effects of MSCs was examined in vitro. The in vivo properties of CXCR4-MSCs were also investigated in a model of acute lung injury in rats induced by lipopolysaccharide. Expression of CXCR4 in MSCs significantly enhanced the chemotactic and paracrine characteristics of the cells in vitro but did not affect self-renewal or differentiation into alveolar and vascular endothelial cells. In vivo, CXCR4 improved MSC homing and colonization of damaged lung tissue, and furthermore, the transplanted CXCR4-MSCs suppressed the development of acute lung injury in part by modulating levels of inflammatory molecules and the neutrophil count. These results indicated that efficient mobilization of MSCs to sites of tissue injury may be due to CXCR4, and therefore, increased expression of CXCR4 may improve their therapeutic potential in the treatment of diseases where tissue damage develops.     

从人胚胎干细胞畸胎瘤中有效获取间充质干细胞和神经前体细胞

通过人胚胎干细胞(human embryonic stem cells,hESC)体外分化方法和畸胎瘤形成可以分化获得多种成体细胞．但目前尚不清楚是否可以从hESCs畸胎瘤中分离某些特异性细胞．通过体外筛选方法,有效地从hESCs畸胎瘤中分离出神经前体细胞(neural progenitor cells,NPCs)和间充质干细胞(mesenchymal stem cells,MSCs)．这种hESCs畸胎瘤来源的NPCs和MSCs与体内神经前体细胞和间充质干细胞有着相似的分子标记和特性,并具有进一步的分化潜能——分别可以诱导成为神经元、神经胶质细胞、脂肪细胞和骨骼细胞等．根据人胚胎干细胞畸胎瘤中含有不同分化阶段的外胚层、中胚层和内胚层的组织或细胞,认为人胚胎干细胞畸胎瘤可以作为另一个细胞来源以获取多种(包括人胚胎干细胞体外分化难以得到的)各种前体/干细胞和终末分化细胞．     

小分子化合物诱导干细胞向视网膜感光细胞分化的研究进展

干细胞是一类具有多向分化潜能的细胞群,如胚胎干细胞(embryonic stem cell,ESC)、诱导多潜能干细胞(induced pluripotent stem cell,i PSC)等,可在特定的条件下向包括视网膜感光细胞在内的多种细胞分化。小分子化合物是一类由组织细胞合成、分泌的小分子多肽类因子,特定的小分子化合物可作用于干细胞诱导其向视网膜感光细胞分化。目前,对干细胞体外培养,通过使用不同的诱导培养方案,探索干细胞向视网膜感光细胞分化的研究成为热点。早期,研究者们主要在共培养条件下采用小分子化合物诱导ESC向视网膜感光细胞分化,随着研究的进展,逐渐开始探索在无共培养条件下小分子化合物诱导ESC向视网膜感光细胞的分化以及小分子化合物诱导i PSC向视网膜感光细胞的分化。本文主要就小分子化合物促进ESC和i PSC向视网膜感光细胞分化的研究进展进行综述。     

A Combination of Culture Conditions and Gene Expression Analysis Can Be Used to Investigate and Predict hES Cell Differentiation Potential towards Male Gonadal Cells

Human embryonic stem cell differentiation towards various cell types belonging to ecto-, endo- and mesodermal cell lineages has been demonstrated, with high efficiency rates using standardized differentiation protocols. However, germ cell differentiation from human embryonic stem cells has been very inefficient so far. Even though the influence of various growth factors has been evaluated, the gene expression of different cell lines in relation to their differentiation potential has not yet been extensively examined. In this study, the potential of three male human embryonic stem cell lines to differentiate towards male gonadal cells was explored by analysing their gene expression profiles. The human embryonic stem cell lines were cultured for 14 days as monolayers on supporting human foreskin fibroblasts or as spheres in suspension, and were differentiated using BMP7, or spontaneous differentiation by omitting exogenous FGF2. TLDA analysis revealed that in the undifferentiated state, these cell lines have diverse mRNA profiles and exhibit significantly different potentials for differentiation towards the cell types present in the male gonads. This potential was associated with important factors directing the fate of the male primordial germ cells in vivo to form gonocytes, such as SOX17 or genes involved in the NODAL/ACTIVIN pathway, for example. Stimulation with BMP7 in suspension culture resulted in up-regulation of cytoplasmic SOX9 protein expression in all three lines. The observation that human embryonic stem cells differentiate towards germ and somatic cells after spontaneous and BMP7-induced stimulation in suspension emphasizes the important role of somatic cells in germ cell differentiation in vitro.     

胎膜组织贴壁细胞：一种新的间质干细胞来源

[目的] 建立体外分离纯化胎膜组织贴壁细胞（fetal membrane derived adherent cells,FMDACs）的方法,并且研究FMDACs的基本生物学特性。[方法] 用胰酶消化法分离FMDACs,体外传代培养,并进行向成骨、成脂细胞的诱导分化培养,流式细胞仪、免疫细胞化学检测表面抗原,核型分析及致瘤性实验。[结果] 成功地进行了FMDACs的原代培养及传代培养,FMDACs具有良好的增殖能力,表达CD44、CD29,不表达CD34、CD14、CD45,经诱导后能够分化为成骨细胞和成脂细胞,传代多次后核型正常,无致瘤性。[结论] 胎膜组织中可以分离得到具有间质干细胞特性的贴壁细胞,具有较强的自我更新和多向分化能力,遗传背景稳定无致瘤性。FMDACs为临床应用进行细胞治疗和基因治疗提供了新的来源。     

肝干细胞的可塑性和分化机理的研究进展

对肝干细胞的可塑性、多向分化潜能、分化机理及其与肝癌发病机制的关系等方面进行综述.肝干细胞是一类具有自我更新能力和多向分化潜能的细胞. 在不同的条件下,肝干细胞可分化为肝细胞、胆上皮细胞、胰腺细胞和肠上皮细胞. 肝干细胞的分化涉及微环境、细胞因子和细胞外基质等多种调控因素. 肝干细胞分化为成熟肝细胞受多种转录因子和信号通路的调节,其分化异常有可能诱发形成肝细胞癌.     

体细胞重编程为诱导多能干细胞

诱导多功能性干细胞（induced pluripotent stem cells,iPS细胞）是通过导入特定的转录因子（如Oct3/4、Sox2、c-Myc和Klf4等）将体细胞诱导重编程为多能性干细胞,其功能与胚胎干细胞相似.iPS细胞的建立,在生命科学领域引起了新的轰动.目前,iPS细胞的研究领域在转录因子的优化、iPS细胞的筛选、载体的运用、体细胞种类的选择和iPS细胞的应用等方面取得突破进展,但仍然存在致癌性、效率低等一系列急需解决的问题.     

间充质干细胞向成骨细胞分化的信号通路

间充质干细胞具有向成骨细胞分化的潜能,可体外分离、培养和扩增,是骨组织工程中理想的种子细胞。近年的研究表明间充质干细胞的成骨分化受到多种信号通路的调控,现就其中研究较为深入的MAPK和Notch通路的情况作一简要综述。     

SDF-1/CXCR4轴在缺氧缺血性脑损伤中的研究进展

干细胞在许多组织器官显示巨大的细胞分化潜能,其治疗缺血缺氧性疾病成为当前研究的热点。已知局部缺血可诱导干细胞的动员,并能感受组织损伤而定向迁移到损伤区并进行分化。具有趋化因子受体4（CXC chemokine receptor 4,CXCR4）的干细胞迁移到高表达间质细胞来源的因子-1（stromal cell-derived factor-1,SDF-1）的组织区域,这种细胞的迁移运动能被CXCR4拈抗剂所阻断或通过CXCR4的过表达增强迁移的运动。SDF-1-CXCR4轴是体内各种类型的干细胞迁移及细胞在骨髓的滞留和归巢中的重要调节物质。本文就缺氧缺血性脑损伤的骨髓间质干细胞（bone marrow stromal cell,BMSC）治疗,SDF- 1-CXCR4轴在MSCs动员和损伤、修复中的作用作一综述。     

Extracellular matrix: A dynamic microenvironment for stem cell niche

Background

Extracellular matrix (ECM) is a dynamic and complex environment characterized by biophysical, mechanical and biochemical properties specific for each tissue and able to regulate cell behavior. Stem cells have a key role in the maintenance and regeneration of tissues and they are located in a specific microenvironment, defined as niche.

Scope of review

We overview the progresses that have been made in elucidating stem cell niches and discuss the mechanisms by which ECM affects stem cell behavior. We also summarize the current tools and experimental models for studying ECM–stem cell interactions.

Major conclusions

ECM represents an essential player in stem cell niche, since it can directly or indirectly modulate the maintenance, proliferation, self-renewal and differentiation of stem cells. Several ECM molecules play regulatory functions for different types of stem cells, and based on its molecular composition the ECM can be deposited and finely tuned for providing the most appropriate niche for stem cells in the various tissues. Engineered biomaterials able to mimic the in vivo characteristics of stem cell niche provide suitable in vitro tools for dissecting the different roles exerted by the ECM and its molecular components on stem cell behavior.

General significance

ECM is a key component of stem cell niches and is involved in various aspects of stem cell behavior, thus having a major impact on tissue homeostasis and regeneration under physiological and pathological conditions. This article is part of a Special Issue entitled Matrix-mediated cell behaviour and properties.     

Efficient In Vitro Labeling Rabbit Bone Marrow-Derived Mesenchymal Stem Cells with SPIO and Differentiating into Neural-Like Cells

Mesenchymal stem cells (MSCs) can differentiate into neural cells to treat nervous system diseases. Magnetic resonance is an ideal means for cell tracking through labeling cells with superparamagnetic iron oxide (SPIO). However, no studies have described the neural differentiation ability of SPIO-labeled MSCs, which is the foundation for cell therapy and cell tracking in vivo. Our results showed that bone marrow-derived mesenchymal stem cells (BM-MSCs) labeled in vitro with SPIO can be induced into neural-like cells without affecting the viability and labeling efficiency. The cellular uptake of SPIO was maintained after labeled BM-MSCs differentiated into neural-like cells, which were the basis for transplanted cells that can be dynamically and non-invasively tracked in vivo by MRI. Moreover, the SPIO-labeled induced neural-like cells showed neural cell morphology and expressed related markers such as NSE, MAP-2. Furthermore, whole-cell patch clamp recording demonstrated that these neural-like cells exhibited electrophysiological properties of neurons. More importantly, there was no significant difference in the cellular viability and [Ca²⁺]i between the induced labeled and unlabeled neural-like cells. In this study, we show for the first time that SPIO-labeled MSCs retained their differentiation capacity and could differentiate into neural-like cells with high cell viability and a good cellular state in vitro.     

人源诱导多能干细胞体外定向分化为功能性肝细胞的方法研究

摘要 目的：研究开发一种简易、快速在体外使多能诱导干细胞（induced pluripotent stem cells,iPSCs）定向分化为功能性肝样细胞的培养方法。方法：根据正常肝细胞在体内的发育规律,设计简化诱导方法使iPS细胞定向分化为内胚层细胞,应用qPCR和流式细胞术鉴定其纯度后进一步诱导分化为肝样细胞,并通过qPCR、ELISA、免疫荧光等技术鉴定肝细胞的性状和功能。结果：iPS细胞诱导7天后, OCT4和NANOG的表达水平显著下降,内胚层细胞相关基因CXCR4、FOXA2和HNF4A表达水平明显升高。内胚层细胞继续诱导培养15天后,肝细胞特异性标志基因ALB、TDO2、RBP4、G6PC和肝药酶基因CYPs等显著上调,同时产生高水平的白蛋白和尿素;PAS糖原染色为阳性,能主动摄取和释放吲哚菁绿,证实诱导成的肝样细胞具备正常肝细胞的部分功能。结论：该诱导方案能够在体外使iPS细胞遵循正常肝脏发育通路简易、高效地分化为功能性肝细胞。本研究为大量获得iPS来源的肝细胞及其在细胞疗法和药筛模型中的运用提供了可能性。     

The Effects of Co-Culture of Embryonic Stem Cells with Neural Stem Cells on Differentiation

Researching the technology for in vitro differentiation of embryonic stem cells (ESCs) into neural lineages is very important in developmental biology, regenerative medicine, and cell therapy. Thus, studies on in vitro differentiation of ESCs into neural lineages by co-culture are expected to improve our understanding of this process. A co-culture system has long been used to study interactions between cell populations, improve culture efficiency, and establish synthetic interactions between populations. In this study, we investigated the effect of a co-culture of ESCs with neural stem cells (NSCs) in two-dimensional (2D) or three-dimensional (3D) culture conditions. Furthermore, we examined the effect of an NSC-derived conditioned medium (CM) on ESC differentiation. OG2-ESCs lost the specific morphology of colonies and Oct4-GFP when co-cultured with NSC. Additionally, real-time PCR analysis showed that ESCs co-cultured with NSCs expressed higher levels of ectoderm markers Pax6 and Sox1 under both co-culture conditions. However, the differentiation efficiency of CM was lower than that of the non-conditioned medium. Collectively, our results show that co-culture with NSCs promotes the differentiation of ESCs into the ectoderm.     

Stem cells: their source,potency and use in regenerative therapies with focus on adipose-derived stem cells – a review

Stem cells can be defined as units of biological organization that are responsible for the development and the regeneration of organ and tissue systems. They are able to renew their populations and to differentiate into multiple cell lineages. Therefore, these cells have great potential in advanced tissue engineering and cell therapies. When seeded on synthetic or nature-derived scaffolds in vitro, stem cells can be differentiated towards the desired phenotype by an appropriate composition, by an appropriate architecture, and by appropriate physicochemical and mechanical properties of the scaffolds, particularly if the scaffold properties are combined with a suitable composition of cell culture media, and with suitable mechanical, electrical or magnetic stimulation. For cell therapy, stem cells can be injected directly into damaged tissues and organs in vivo. Since the regenerative effect of stem cells is based mainly on the autocrine production of growth factors, immunomodulators and other bioactive molecules stored in extracellular vesicles, these structures can be isolated and used instead of cells for a novel therapeutic approach called “stem cell-based cell-free therapy”. There are four main sources of stem cells, i.e. embryonic tissues, fetal tissues, adult tissues and differentiated somatic cells after they have been genetically reprogrammed, which are referred to as induced pluripotent stem cells (iPSCs). Although adult stem cells have lower potency than the other three stem cell types, i.e. they are capable of differentiating into only a limited quantity of specific cell types, these cells are able to overcome the ethical and legal issues accompanying the application of embryonic and fetal stem cells and the mutational effects associated with iPSCs. Moreover, adult stem cells can be used in autogenous form. These cells are present in practically all tissues in the organism. However, adipose tissue seems to be the most advantageous tissue from which to isolate them, because of its abundancy, its subcutaneous location, and the need for less invasive techniques. Adipose tissue-derived stem cells (ASCs) are therefore considered highly promising in present-day regenerative medicine.     

神经干细胞分离培养方法的介绍

在成体的许多组织中发现了多能干细胞,这些干细胞可以进行自我复制,参与组织的正常修复。神经干细胞在体外能分化为神经元、星形胶质细胞和少突胶质细胞,并具有多向分化潜能。成体神经干细胞和胚胎干细胞都能分化成成体神经系统中的各种神经细胞。神经干细胞具有自我更新能力,因此神经干细胞可以应用于神经损伤或者神经疾病的修复。本文概述了神经干细胞体外分离培养的方法及其生长影响因子。