人胚胎神经干细胞的基础及应用研究进展

神经干细胞是中枢神经系统中具有增殖、自我更新能力以及多种分化潜能的细胞,对它的研究已经成为神经生物学、发育生物学以及脑科学研究的一个热点。随着神经干细胞（特别是胚胎神经干细胞）的分离、培养成功,神经干细胞移植已被尝试用于神经系统损伤等疾病的治疗。但是,关于胚胎神经干细胞的研究尚处于初级阶段,特别是人胚胎神经干细胞的研究、报道还比较少。本文对国内、外近几年来关于人胚胎神经干细胞的基础及应用研究进展作了综述。     

Lessons for the stem cell discourse from the gene therapy experience

The discovery of human embryonic stem cells has pointed to the potential use of these cells in developing new approaches to therapy for many major human diseases. While there is general agreement that such applications are possible and will require a great deal of additional basic and preclinical research, some discussions of the therapeutic applications of human embryonic stem cells have been characterized by the kinds of exaggerations and elevated expectations that characterized the field of human gene therapy a decade ago. In the case of gene therapy, public perception of and confidence in the field were damaged by the hype. Most unfortunate of all, the hopes of patients and their advocates were disappointed. The eventual success of a gene therapy approach, albeit one still plagued by serious adverse events, has come through scientific advance and careful clinical application. The probable eventual use of human embryonic stem cells for therapy of human disease will also require thorough basic and clinical research, but that goal is endangered by the current level of inaccurate representations and undeliverable promises.     

干细胞多能性信号调控机制研究进展

多能性干细胞是一类具有体外无限自我复制和分化为体内多种细胞类型能力的多潜能细胞,是研究基因功能、建立疾病模型和促进再生医学领域发展的一种重要工具。自1981年小鼠胚胎干细胞建立以来,科学家们已经先后成功地建立了灵长类、人、大鼠的胚胎干细胞和小鼠、大鼠的上胚层干细胞等。但是,目前研究表明,维持人、灵长类胚胎干细胞的多能性信号通路与维持小鼠、大鼠胚胎干细胞的截然不同,而与维持小鼠、大鼠上胚层干细胞的信号通路比较类似。因此,该文对目前研究较多的维持小鼠胚胎干细胞、人胚胎干细胞和小鼠上胚层干细胞的多能性信号通路进行了综述,希望能够对其它物种的多能性干细胞研究提供有益的借鉴。     

Stem cell research in China

In the past 5 years, China has increased its efforts in the field of stem cell research and practice. Basic research mainly focuses on bone marrow and embryonic stem cells. Clinical applications of stem cells in the treatment of acute heart failure, acute liver failure and lower limb ischaemia have been reported by many hospitals. China enacted its 'Ethical Guidelines for Human Embryonic Stem Cell Research' in 2003. At present, China has the most liberal and favourable environments for human embryonic stem cell research.     

In vitro fertilization, the Nobel Prize, and human embryonic stem cells

Robert Edwards was awarded the 2010 Nobel Prize in Physiology or Medicine for the development of human in vitro fertilization. His work not only provided the means to overcome many forms of infertility, but it also enabled research on early stages of human embryos and the derivation of human embryonic stem cells.     

Potential of embryonic and adult stem cells in vitro

Recent developments in the field of stem cell research indicate their enormous potential as a source of tissue for regenerative therapies. The success of such applications will depend on the precise properties and potentials of stem cells isolated either from embryonic, fetal or adult tissues. Embryonic stem cells established from the inner cell mass of early mouse embryos are characterized by nearly unlimited proliferation, and the capacity to differentiate into derivatives of essentially all lineages. The recent isolation and culture of human embryonic stem cell lines presents new opportunities for reconstructive medicine. However, important problems remain; first, the derivation of human embryonic stem cells from in vitro fertilized blastocysts creates ethical problems, and second, the current techniques for the directed differentiation into somatic cell populations yield impure products with tumorigenic potential. Recent studies have also suggested an unexpectedly wide developmental potential of adult tissue-specific stem cells. Here too, many questions remain concerning the nature and status of adult stem cells both in vivo and in vitro and their proliferation and differentiation/transdifferentiation capacity. This review focuses on those issues of embryonic and adult stem cell biology most relevant to their in vitro propagation and differentiation. Questions and problems related to the use of human embryonic and adult stem cells in tissue regeneration and transplantation are discussed.     

核移植胚胎干细胞的研究及其应用前景

随着核移植技术和干细胞技术的逐渐成熟,目前已获得牛、小鼠核移植胚胎干细胞,以及人 - 兔异种间核移植胚胎干细胞,这些细胞在体外可分化成多种细胞形态 . 已经进行的实验性动物克隆性治疗,显示了诱人的潜力,但人核移植胚胎干细胞研究还面临着许多问题,如建系效率低、卵母细胞来源有限以及伦理学和安全性问题等 . 长远地看,随着克隆效率的提高,在道德与法律之间达成共识,核移植胚胎干细胞必将造福人类 .     

Human embryonic stem cells: Problems and perspectives

Generation of human embryonic stem cell lines is one of the most important achievements in biological science in the 20th century. It has excited a wide scientific and social response, as embryonic stem cells (ESC) may, in the future, be regarded as an unlimited source of transplantation materials for replacement cell therapy. ESC lines are derived, cultured, inner cell mass from human blastocysts is used in the in vitro fertilization procedure. To date, human embryonic cell lines have been obtained in more than 20 countries. In our country, embryonic stem cell research is carried out in the Institute of Cytology, Russian Academy of Sciences and the Institute of Gene Biology, Russian Academy of Sciences. Studies with human ESC go in several directions. Much attention is paid to finding the most optimal conditions for ESC cultivation, mainly to the development of cultivation techniques excluding animal feeder cells and other components of animal origin. Another direction is a large-scale analysis of gene expression specific to the embryonic state of cells and the corresponding signaling pathways. Great efforts are being focused on the directed differentiation of ESC into various tissue-specific cells. It has been shown that in vitro ESC are able to differentiate into virtually any somatic cells. Works are in progress to develop methods for “therapeutic cloning,” i.e. the transfer of somatic nuclei into enucleated oocytes or embryonic stem cell cytoblasts and their reactivation. Of great importance is the standardization of the human ESC lines. However, standard requirements for cells utilized for research or therapeutic purposes may be different. It has been found that many permanent human ESC lines underwent genetic and epigenetic variations. Therefore, the cell line genetic stability should be periodically verified. The main purpose of the review is to provide a detailed consideration of research on the genetic stability of human and mouse ESC lines. Human ESC lines established both in our country and others could not thus far be used in clinical practice. It is highly probable that undifferentiated ESCs cannot be applied for therapeutic purposes, as there is a risk of their malignant transformation. Therefore, main efforts should be focused on the production ESC progenitor and highly differentiated cells suitable for transplantation.     

Bush turns amber on stem cell research

Scientists expressed relief at President Bush's long-awaited decision to permit limited federally funded research on human embryonic stem cells, but many questions remain, reports Laura Bonetta.     

The development of 'feeder' cells for the preparation of clinical grade hES cell lines: challenges and solutions

The development of human embryonic stem cell (hESC) lines for research and therapy is hampered by the need to improve the basic methodologies for cell culture expansion. In most current methods hESC lines are cultured on a mouse or human feeder cell layer which appears to be the most reliable way to maintain cells stably in the undifferentiated state. However, co-culture introduces complications for studying stem cell biology and the delivery of safe therapies for the future. This article reviews the specific risks associated with any proposed clinical use of feeder cells of mouse origin and compares these with the benefits and risks of using human feeder cells. The further work required to establish clinical grade feeder cell lines for hESC line culture is significant and costly. Much work is being done to find feeder-free culture systems but these are at an early stage of development and there may be consequences that affect the value of the hESCs for research and development. These challenges should be viewed in the context of the huge amount of work that will be required over many years to develop robust differentiation protocols and establish fully defined procedures and adequate safety data for embryonic stem cell products.     

The importance of valid disclosures in the human embryonic stem cell research debate

Abstract.  Misinformation erodes the legitimacy of any public debate. Since the start of human embryonic stem cell research deliberations in the USA, misinformation concerning the nature of human embryos, their availability for research, and the potential for using them to develop new medical therapies have been widespread and persistent. Basic facts, well understood by physicians and biologists, have been so misstated and misrepresented in the news media and political speeches that the general public has been put in a state of constant uncertainty. The solution to the present troubling condition is better education in the form of diligent, honest, and complete scientific disclosure by responsible scientists and physicians; and more care given to accurate reporting by news media. Several key aspects of newly emerging embryonic and non-embryonic stem cell technologies are defined and discussed as they relate to the debate over the use of human embryos for medical research. An important topic for consideration is how to disclose with clarity the scientific basis for human embryonic life. Thereafter, failings in proposed technologies for developing new therapies with human embryonic stem cells, that have been grossly under-reported, are examined. Finally, properties of adult stem cells are presented in contradistinction to embryonic stem cells, both in terms of adult stem cells as a scientifically better alternative to embryonic stem cells and in terms of the technological challenges that must be overcome to realize the potential of adult stem cells for new medical therapies.     

Short-circuiting epiblast development

Although human and mouse embryonic stem cells share many characteristics, their behaviors are not identical. Two recent papers describe the derivation of stem cell lines from mouse epiblast that may provide an explanation for the unique character of human embryonic stem cells.     

International stem cell research considerations

Legislative bodies in the international arena and in individual countries are actively engaged in developing policies regarding the establishment, distribution and use of human embryonic stem cells. Present and anticipated policies concerning research on human adult and embryonic stem cells of possible medical importance reflect the wide spectrum of popular views that range from complete rejection to enthusiastic support. Since the public debate concerning the use of human gametes or embryos for research purposes is not likely to abate anytime soon, all the more urgent becomes the quest for alternative approaches toward generating stem cells that are not embryonic and yet are pluripotent.     

Identification of potential pluripotency determinants for human embryonic stem cells following proteomic analysis of human and mouse fibroblast conditioned media

The unique pluripotential characteristic of human embryonic stem cells heralds their use in fields such as medicine, biotechnology, biopharmaceuticals, and developmental biology. However, the current availability of sufficient quantities of embryonic stem cells for such applications is limited, and generating sufficient numbers for downstream therapeutic applications is a key concern. In the absence of feeder layers or their conditioned media, human embryonic stem cells readily differentiate to form embryoid bodies, indicating that trophic factors secreted by the feeder layers are required for long-term proliferation and maintenance of pluripotency. Adding further complexity to the elucidation of the factors required for the maintenance of pluripotency is the variability of different fibroblast feeder layers (of mouse or human origin) to effectively support human embryonic stem cells. Currently, the deficiency of knowledge concerning the exact identity of factors within the pathways for self-renewal illustrates that a number of factors may be required to support pluripotent, undifferentiated growth of human embryonic stem cells. This study utilized a proteomic analysis (multidimensional chromatography coupled to tandem mass spectrometry) to isolate and identify proteins in the conditioned media of three mitotically inactivated fibroblast lines (human fetal, human neonatal, and mouse embryonic fibroblasts) used to support the undifferentiated growth of human embryonic stem cells. One-hundred seventy-five unique proteins were identified between the three cell lines using a 相似文献   

衰老癌症基因稳定性与干细胞肿瘤特性

衰老和癌症一直是生物医学研究的热点,诱发衰老和癌症的原因很多,为了攻克衰老与癌症的难题,科学家们对多功能干细胞进行大量的研究,但是发现多功能干细胞也具有致瘤特性。本文从DNA稳定性的角度出发,综合最新的研究成果,对当前生物医学领域的研究热点进行了系统的综述,主要包括DNA损伤与修复机制,造成衰老的因素,癌症的特性,以及胚胎干细胞与多功能干细胞的肿瘤特性等。     

Stem cell therapy for insulin-dependent diabetes: Are we still on the road?

In insulin-dependent diabetes, the islet β cells do not produce enough insulin and the patients must receive exogenous insulin to control blood sugar. However, there are still many deficiencies in exogenous insulin supplementation. Therefore, the replacement of destroyed functional β cells with insulin-secreting cells derived from functional stem cells is a good idea as a new therapeutic idea. This review introduces the development schedule of mouse and human embryonic islets. The differences between mouse and human pancreas embryo development were also listed. Accordingly to the different sources of stem cells, the important research achievements on the differentiation of insulin-secreting β cells of stem cells and the current research status of stem cell therapy for diabetes were reviewed. Stem cell replacement therapy is a promising treatment for diabetes, caused by defective insulin secretion, but there are still many problems to be solved, such as the biosafety and reliability of treatment, the emergence of tumors during treatment, untargeted differentiation and autoimmunity, etc. Therefore, further understanding of stem cell therapy for insulin is needed.     

Characteristics of human embryonic neuronal cells procured by non-enzyme method

Isolation and culturing of human neuronal progenitor cells is of significant value for both fundamental research and therapeutic purposes. In this work, human embryonic neuronal cells were characterized as a heterogeneous population of progenitor cells with various differentiation potentials. During in vitro culturing the cells are capable of re-inoculating, proliferating, differentiating and migrating. While differentiating, these cells form neurons and glial cells. The present research demonstrates that depending upon the culturing conditions the embryonic neuronal cells may either form floating aggregates (incubation with embryonic serum), attach (incubation without serum), proliferate, or form neurospheres. Besides, peculiarities of aggregate differentiation during their incubation under various media are described.     

Human embryonic stem cell and embryonic germ cell lines

Undifferentiated human embryonic stem (ES) cells and embryonic germ (EG) cells can be cultured indefinitely and yet maintain the potential to form many or all of the differentiated cells in the body. Human ES and EG cells provide an exciting new model for understanding the differentiation and function of human tissue, offer new strategies for drug discovery and testing, and promise new therapies based on the transplantation of ES and EG cell-derived tissues.