诱导多能干细胞在帕金森病治疗中的应用进展

帕金森病（Parkinson's disease, PD）是由于黑质中多巴胺能神经元（dopaminergic neurons, DAns）的病变导致多巴胺含量降低而引起的一种神经退行性疾病,其发病机制尚不明确,而且临床缺乏有效的早期诊断和治疗手段。诱导多能干细胞（induced pluripotent stem cells, iPSCs）的出现为神经系统疾病特别是神经退行性疾病的治疗带来了希望。基于iPSCs的细胞模型可以广泛开展PD发病机制的研究,同时以iPSCs来源的DAns、神经干细胞（neural stem cells, NSCs）等的细胞移植治疗,更是未来PD治疗最有希望的手段。从基于iPSCs的不同基因突变类型的细胞模型与不同分化程度的细胞移植治疗两个方面介绍诱导多能干细胞在PD研究中的进展,旨在分析诱导多能干细胞在帕金森病方面的应用及不足。     

诱导多潜能干细胞(iPSCs)的研究与应用进展

诱导多潜能干细胞(induced pluripotent stem cells,iPSCs)是体细胞在外源因子作用下,经直接细胞核程序重整而重新获得多潜能的干细胞.iPSCs在疾病的模型建立与机理研究、细胞治疗、药物的发现与评价等方面有着巨大的潜在应用价值.在过去几年中,科学家们致力于改进体细胞重编程技术并取得许多突破.然而,为实现其在临床上的应用,必须克服体细胞重编程效率低和iPSCs成瘤风险两大挑战,而且重编程机制有待进一步阐明.结合iPSCs最新研究成果,评述了有关领域国内外研究进展,重点讨论当前存在问题,并展望未来研究方向.     

诱导多能干细胞向雄性生殖细胞分化诱导物的研究进展

诱导多能干细胞(induced pluripotent stem cells,iPSCs)是利用细胞重编程技术人工获得的与胚胎干细胞(embryonic stem cells,ESCs)功能类似的细胞,能分化成包括三胚层在内的所有细胞类型,并且规避了ESCs的伦理学争议和移植后的免疫排斥问题,具有十分广阔的应用前景。对iPSCs体外诱导为生殖细胞所用的诱导物及其诱导效果进行了综述,生殖细胞发育机制的研究有望促进未来生殖和发育技术的进步。     

多顺反子质粒重编程人脂肪干细胞为诱导多能干细胞

为建立多顺反子质粒载体转染技术获得人脂肪干细胞(adipose stem cells,ASCs)来源的诱导多能干细胞(induced pluripotency stem cells,iPSCs),应用2A元件连接Oct4/Sox2/KLF4/c-Myc四因子基因,构建为单一开放阅读框的多顺反子质粒载体．使用该质粒对ASCs进行转染及重编程为iPSC．采用形态学观察、特异性抗体免疫荧光鉴定、体外拟胚体诱导分化和体内畸胎瘤形成等方法进行鉴定．结果显示,ASCs成功重编程为iPSCs,具有与人胚胎干细胞相似的形态学及多向分化潜能;通过拟胚体和畸胎瘤实验证实iPSCs能在体内外分化成三胚层细胞;DNA印迹实验显示质粒载体序列未整合至iPSCs基因组中．因此,通过多顺反子质粒载体重编程技术成功建立的人iPSCs具有多向分化潜能,可减免发生插入突变和免疫排斥问题,为iPSCs在遗传性或退行性疾病的治疗奠定了实验基础．     

牛诱导多能干细胞的建立及应用研究进展

诱导性多能干细胞（induced pluripotent stem cells,iPSCs）是指通过导入特定的转录因子将终末分化的体细胞重编程为可以无限增殖更新并具有分化为三胚层多种细胞类型的一类干细胞系。目前对人与小鼠的iPSCs研究已经取得了很多重要成果,但其他动物,如牛等经济型有蹄类家畜iPSCs的研究始终没有突破性的进展。如何将外源转录因子通过重编程载体高效安全地导入体细胞中并持续表达是生产牛诱导多能干细胞（bovine induced pluripotent stem cells,biPSCs）的主要瓶颈。本文就biPSCs建立中重编程系统的选择、诱导因子的选择、小分子化合物的添加等方面进行综述,以期为进一步完善biPSCs及牛胚胎干细胞系的建立提供参考。     

诱导多潜能干细胞（iPSCs）：安全高效的诱导策略

在分化的体细胞中,导入特定的转录因子能诱导得到诱导多潜能干细胞(induced pluripotent stem cells,iPSCs).iPSCs在细胞形态、生长特性、表面标志物以及畸胎瘤形成等方面与胚胎干细胞(embryonic stem cells,ESCs)非常相似,而且跟ESCs相比, iPSCs具有避免免疫排斥和不涉及伦理问题的优势,因此iPSCs的临床应用潜力巨大.然而,iPSCs具有成瘤性,而且其诱导效率极低,此二者严重阻碍了iPSCs的临床应用.为解决这两大难题,本综述将主要探讨安全高效的iPS细胞诱导策略,以期为促进其临床应用提供借鉴.     

诱导多能干细胞向巨噬细胞分化研究进展

诱导多能干细胞 (Induced pluripotent stem cells,iPSCs) 是通过体细胞重编程得到类似胚胎干细胞特性的一种细胞类型。通过iPSCs的体外分化,可以了解巨噬细胞的进化历史和各种特性。iPSCs来源的巨噬细胞不仅是药物筛选的良好模型,也是进行免疫治疗的重要手段。本文综述了近年来iPSCs及其向巨噬细胞分化的相关研究进展、所面临的问题以及未来的发展方向。     

诱导多能干细胞在儿童疾病的应用研究进展

儿童疾病的最佳诊断和治疗依赖于对病理生理学更充分的认识，而诱导多能干细胞(induced pluripotent stem cells, iPSCs)的出现则为儿童疾病的研究和治疗提供了新的策略。iPSCs是由成熟细胞经重编程诱导而产生的具有多能性的干细胞，目前可从多种类型的体细胞(如成纤维细胞、外周血单个核细胞和尿液细胞等)诱导生成。其生成过程随着各种重编程方法的改进而越来越完善，其中利用小分子进行诱导是目前研究的热点。由于具有向多种细胞分化的能力，并且结合基因编辑技术的发展，目前它在模拟疾病和细胞治疗中的作用越来越受到青睐，特别是遗传性疾病，并且在临床治疗方面已经取得了一些成功。但在其广泛应用于临床治疗之前，仍存在一些问题需要解决，如致瘤性、免疫原性和异质性。本文重点对iPSCs来源、重编程技术、iPSCs在儿童常见疾病中的应用、目前存在的问题及展望等方面展开综述，以加深对iPSCs的理解，并为iPSCs在探索疾病的机制以及治疗领域的深入研究提供参考。     

诱导多功能干细胞治疗阿尔茨海默病的研究进展

阿尔茨海默病(Alzheimer’s disease,AD)是一种多因素相关的复杂性疾病,临床主要表现为记忆力逐渐丧失和认知功能障碍.目前尚无有效的治疗方法.由AD病人来源的诱导多功能干细胞(induced pluripotent stem cells,iPSCs)分化成的神经元具有AD的相关病理表现,是AD发病机制研究和潜在药物筛选的模型之一.由于iPSCs的分化潜能,iPSCs又能分化为不同类型的神经细胞改善AD的症状.iPSCs相关研究成为目前AD研究的热点之一.本文主要综述iPSCs在AD病理机制研究和AD治疗中的作用.     

诱导多能干细胞来源的肝细胞在HCV感染模型中的应用*

诱导多能干细胞(induced pluripotent stem cells,iPSCs)与胚胎干细胞(embryonic stem cells,ESCs)类似,是一类具有自我更新和无限增殖潜能的细胞, 并且能诱导分化为机体各胚层所有类型的细胞。因iPSCs来源于机体本身,规避了ESCs的免疫排斥和医学伦理等问题,具有极大的研究前景及应用潜能。大量研究表明,诱导多能干细胞分化的肝样细胞(iPS-derived hepatocyte-like cells,iHLCs)已广泛运用于HCV体内外感染模型的建立,并用于研究HCV的发病机制、宿主基因在HCV致病机制和筛选新型抗HCV药物及疫苗的研发。主要对iPSCs的来源、从不同策略诱导iPSCs成为功能性肝细胞的研究方法及其在HCV感染模型中的应用进行归纳总结。     

Importance of being Nernst: Synaptic activity and functional relevance in stem cell-derived neurons

Functional synaptogenesis and network emergence are signature endpoints of neurogenesis. These behaviors provide higher-order confirmation that biochemical and cellular processes necessary for neurotransmitter release, post-synaptic detection and network propagation of neuronal activity have been properly expressed and coordinated among cells. The development of synaptic neurotransmission can therefore be considered a defining property of neurons. Although dissociated primary neuron cultures readily form functioning synapses and network behaviors in vitro, continuously cultured neurogenic cell lines have historically failed to meet these criteria. Therefore, in vitro-derived neuron models that develop synaptic transmission are critically needed for a wide array of studies, including molecular neuroscience, developmental neurogenesis, disease research and neurotoxicology. Over the last decade, neurons derived from various stem cell lines have shown varying ability to develop into functionally mature neurons. In this review, we will discuss the neurogenic potential of various stem cells populations, addressing strengths and weaknesses of each, with particular attention to the emergence of functional behaviors. We will propose methods to functionally characterize new stem cell-derived neuron (SCN) platforms to improve their reliability as physiological relevant models. Finally, we will review how synaptically active SCNs can be applied to accelerate research in a variety of areas. Ultimately, emphasizing the critical importance of synaptic activity and network responses as a marker of neuronal maturation is anticipated to result in in vitro findings that better translate to efficacious clinical treatments.     

脂肪来源干细胞体外成骨和成脂及成神经的诱导分化研究

目的:探讨脂肪来源干细胞体外成骨和成脂及成神经的诱导分化情况。方法:选取10只SPF级雄性SD大鼠,将其不同部位的脂肪组织取出,分别采用不同方法对其向成骨、成脂及成神经等方向进行诱导分化并对其结果进行鉴定。结果:ADSC表达中,CD29占(99.11±0.13)%,CD44占(95.94±0.71)%,CD45占(0.12±0.09)%。经4周的成骨诱导后,茜素红S染色在细胞团中央发现红色钙化结节存在,碱性磷酸酶染色在细胞的胞质内观察到紫红色颗粒,经7d成脂诱导后,油红"O"染色在细胞质内观察到橙红色脂滴;经过6d的神经干培养基诱导后,通过免疫荧光染色证明诱导的Nestin细胞、神经丝蛋白-200以及GFAP等均出现阳性表达。结论:ADSC具备向脂肪、成骨及神经元等细胞进行多向分化的潜能,具有来源广、易于操作、体外增殖快速等优越性,并且不存在免疫排斥及医学伦理学问题,发展前景广阔。     

对比不同类型干细胞对于缺血性脑卒中治疗的研究进展

成人中枢神经系统存在着一定量的神经干细胞,其具有两大关键能力;自我更新和多向分化潜能。缺血性脑卒中是一种由于由脑血流的缺失或减少引起的脑动脉闭塞,进而导致脑组织梗死的脑血管疾病。虽然对于脑损伤的药物治疗已经取得了一定的成果,但目前以干细胞为基础的治疗方法仍成为了研究热点。无论是内源性神经干细胞还是外源性神经干细胞移植均可在脑损伤后向远端损伤区迁移并分化成新的神经细胞,从而在中枢神经系统疾病尤其是脑梗死后进行组织修复和功能恢复。因此在这篇综述中,我们主要探讨不同类型的干细胞对脑梗死介导的脑损伤的应用潜能,对比不同类型干细胞对缺血性脑卒中的治疗优缺点。     

Advances in cellular technology in the hematology field: What have we learned so far?

Despite the advances in the hematology field, blood transfusion-related iatrogenesis is still a major issue to be considered during such procedures due to blood antigenic incompatibility. This places pluripotent stem cells as a possible ally in the production of more suitable blood products. The present review article aims to provide a comprehensive summary of the state-of-theart concerning the differentiation of both embryonic stem cells and induced pluripotent stem cells to hematopoietic cell lines. Here, we review the most recently published protocols to achieve the production of blood cells for future application in hemotherapy, cancer therapy and basic research.     

Wellcome Trust/EBI 2009 Meeting Report – Perspectives in Stem Cell Proteomics 22–23 March 2009, Wellcome Trust Conference Centre,Hinxton, UK

This report summarises the recent “Perspectives in Stem Cell Proteomics” meeting that was held at the Wellcome Trust Conference Centre, Hinxton, UK in March 2009. The aim of the meeting was to explore the current status of proteomics in stem cell biology. Several themes encompassing technological and biological studies demonstrated the close relationship that must exist between the two communities in order to maximise our understanding of stem cell behaviour. Highlights included new methods for induction of pluripotent stem cells, new data sets regarding protein expression and phosphorylation dynamics in differentiating cells and the potential for future exploitation in a therapeutic setting.     

Methods of induced pluripotent stem cells for clinical application

Reprograming somatic cells using exogenetic gene expression represents a groundbreaking step in regenerative medicine. Induced pluripotent stem cells(i PSCs) are expected to yield novel therapies with the potential to solve many issues involving incurable diseases. In particular, applying i PSCs clinically holds the promise of addressing the problems of immune rejection and ethics that have hampered the clinical applications of embryonic stem cells. However, as i PSC research has progressed, new problems have emerged that need to be solved before the routine clinical application of i PSCs can become established. In this review, we discuss the current technologies and future problems of human i PSC generation methods for clinical use.     

Advances in genetic modification of pluripotent stem cells

Genetically engineered stem cells aid in dissecting basic cell function and are valuable tools for drug discovery, in vivo cell tracking, and gene therapy. Gene transfer into pluripotent stem cells has been a challenge due to their intrinsic feature of growing in clusters and hence not amenable to common gene delivery methods. Several advances have been made in the rapid assembly of DNA elements, optimization of culture conditions, and DNA delivery methods. This has lead to the development of viral and non-viral methods for transient or stable modification of cells, albeit with varying efficiencies. Most methods require selection and clonal expansion that demand prolonged culture and are not suited for cells with limited proliferative potential.     

动物胚胎干细胞诱导分化的研究进展

胚胎干细胞 (ES细胞 )是从动物早期胚胎的内细胞团或原始生殖细胞分离出来的具有发育全能性的一种未分化的无限增殖细胞系 ,ES细胞能体外诱导分化为神经细胞、肌肉细胞、成纤维细胞等各种细胞。综述了动物的ES细胞的分化诱导机理及目前体外诱导分化的研究现状     

Using induced pluripotent stem cells for modeling Parkinson’s disease

Parkinson’s disease (PD) is an age-related neurodegenerative disease caused by the progressive loss of dopaminergic (DA) neurons in the substantia nigra. As DA neurons degenerate, PD patients gradually lose their ability of movement. To date no effective therapies are available for the treatment of PD and its pathogenesis remains unknown. Experimental models that appropriately mimic the development of PD are certainly needed for gaining mechanistic insights into PD pathogenesis and identifying new therapeutic targets. Human induced pluripotent stem cells (iPSCs) could provide a promising model for fundamental research and drug screening. In this review, we summarize various iPSCs-based PD models either derived from PD patients through reprogramming technology or established by gene-editing technology, and the promising application of iPSC-based PD models for mechanistic studies and drug testing.     

Insight into generation of induced mesenchymal stem cells from induced pluripotent cells

Mesenchymal stem cells(MSCs)have the potential for use in cell-based regenerative therapies.Currently,hundreds of clinical trials are using MSCs for the treatment of various diseases.However,MSCs are low in number in adult tissues;they show heterogeneity depending upon the cell source and exhibit limited proliferative potential and early senescence in in vitro cultures.These factors negatively impact the regenerative potential of MSCs and therefore restrict their use for clinical applications.As a result,novel methods to generate induced MSCs(iMSCs)from induced pluripotent stem cells have been explored.The development and optimization of protocols for generation of iMSCs from induced pluripotent stem cells is necessary to evaluate their regenerative potential in vivo and in vitro.In addition,it is important to compare iMSCs with primary MSCs(isolated from adult tissues)in terms of their safety and efficacy.Careful investigation of the properties of iMSCs in vitro and their long term behavior in animals is important for their translation from bench to bedside.