Cells therapy for Parkinson’s disease—so close and so far away

One of the strategies of treating Parkinson’s disease (PD) is the replacement of lost neurons in the substantia nigra with healthy dapamingergic cells. Potential sources for cells range from autologous grafts of dopamine secreting cells, fetal ventral mesencephalon tissue, to various stem cell types. Over the past quarter century, many experimental replacement therapies have been tried on PD animal models as well as human patients, yet none resulted in satisfactory outcomes that warrant wide applications. Recent progress in stem cell biology has shown that nuclear transfer embryonic stem cells (ntES) or induced pluripotent stem cells (iPS) derived cells can be used to successfully treat rodent PD models, thus solving the problem of immunorejection and paving the way for future autologous transplantations for treating PD. Meanwhile, however, post mortem analysis of patients who received fetal brain cell transplantation revealed that implanted cells are prone to degeneration just like endogenous neurons in the same pathological area, indicating long-term efficacy of cell therapy of PD needs to overcome the degenerating environment in the brain. A better understanding of neurodegeneration in the midbrain appeared to be a necessary step in developing new cell therapies in Parkinson’s disease. It is likely that future cell replacement will focus on not only ameliorating symptoms of the disease but also trying to slow the progression of the disease by either neuroprotection or restoring the micro-environment in the midbrain. Support by the National Key Basic Research and Development Program of China (Grant No. 2006CB0F0603) and Science and Technology Plan, Beijing Municipal Science & Technology Commission (Grant No. H020220010290)     

Human parthenogenetic embryonic stem cells: one potential resource for cell therapy

Pluripotent stem cells derived from somatic cells through such processes as nuclear transfer or induced pluripotent stem (iPS) cells present an important model for biomedical research and provide potential resources for cell replacement therapies. However, the overall efficiency of the conversional nuclear transfer is very low and the safety issue remains a major concern for iPS cells. Embryonic stem cells (ESCs) generated from parthenogenetic embryos are one attractive alternative as a source of histocompatible cells and tissues for cell therapy. Recent studies on human parthenogenetic embryonic stem cells (hPG ESCs) have revealed that these ESCs are very similar to the hESCs derived from IVF or in vivo produced blastocysts in gene expression and other characteristics, but full differentiation and development potential of these hPG ESCs have to be further investigated before clinical research and therapeutic interventions. To generate various pluripotent stem cells, diverse reprogramming techniques and approaches will be developed and integrated. This may help elucidate the fundamental mechanisms underlying reprogramming and stem cell biology, and ultimately benefit cell therapy and regenerative medicine. Supported by the National High Technology Research and Development Program of China (Grant No. 2006AA02A101).     

体细胞诱导为多能干细胞的最新进展

2007年11-12月,Cell、Science和Nature发表一系列体外诱导人类体细胞转变为多能干细胞的论文。来自日本和美国的研究小组利用慢病毒载体分别将Oct-4、Sox2、C-Myc、Klf4和Oct-4、Sox2、Nanog、Lin28两套基因转入人成纤维细胞,均获得类似ES细胞的克隆。小鼠诱导性多能干细胞已初步用于镰刀细胞性贫血的基因治疗。短短一年半,诱导性多能干细胞的研究和关注度呈现了爆炸式成长;体细胞重编程、去分化、多能干细胞来源等一系列热点问题再次成为大众瞩目的中心。     

Website for avian flu information and bioinformatics

Highly pathogenic influenza A virus H5N1 has spread out worldwide and raised the public concerns. This increased the output of influenza virus sequence data as well as the research publication and other reports. In order to fight against H5N1 avian flu in a comprehensive way, we designed and started to set up the Website for Avian Flu Information () from 2004. Other than the influenza virus database available, the website is aiming to integrate diversified information for both researchers and the public. From 2004 to 2009, we collected information from all aspects, i.e. reports of outbreaks, scientific publications and editorials, policies for prevention, medicines and vaccines, clinic and diagnosis. Except for publications, all information is in Chinese. Till April 15, 2009, the cumulative news entries had been over 2000 and research papers were approaching 5000. By using the curated data from Influenza Virus Resource, we have set up an influenza virus sequence database and a bioinformatic platform, providing the basic functions for the sequence analysis of influenza virus. We will focus on the collection of experimental data and results as well as the integration of the data from the geological information system and avian influenza epidemiology. Contributed equally to this work Special Project of Informatization of Chinese Academy of Sciences in “the Eleventh Five-Year Plan”, E-Science Application of Research on Resources, Disease Monitoring and Risk Assessment of Important Wild Birds in Qinghai Lake Region (Grant No. INFO-115-D02), China International Science and Technology Cooperation of the Ministry of Science and Technology, China (MOST) (Grant Nos. 2006DFB32010 and 2007DFC30240), MOST Grant 2005CB523001 (Program 973), National Key Technologies Research & Development Program (Grant 2006BAD06A01), and a grant from NIH (Grant No. 3 U19 AI051915-05S1), the China Post-doctor fellowship (Grant No. 20070420542).     

Pluripotency of Induced Pluripotent Stem Cells

Induced pluripotent stem （iPS） cells can be generated by forced expression of four pluripotency factors in somatic cells. This has received much attention in recent years since it may offer us a promising donor cell source for cell transplantation therapy. There has been great progress in iPS cell research in the past few years. However, several issues need to be further addressed in the near future before the clinical application of iPS cells, like the immunogenieity of iPS cells, the variability of differentiation potential and most importantly tumor formation of the iPS derivative cells. Here, we review recent progress in research into the pluripotency of iPS cells.     

诱导多能干细胞及其在神经退行性疾病研究中的应用

用干细胞转录因子OCT4、SOX2、c-MYC和KLF4进行体细胞重编程产生具有胚胎干细胞特性的诱导多能干细胞(iPS细胞)是干细胞研究领域的突破性进展。近年来,iPS细胞的研究从产生方法、重编程机理及实际应用方面不断取得进展。由于iPS细胞的产生可取自体细胞,因而克服了胚胎干细胞应用的伦理学和免疫排斥等缺陷,为iPS细胞的临床应用开辟了广阔的前景。该文将对iPS细胞的产生方法、重编程机理及其在神经性退行性疾病的研究与应用进行文献综述,反映近几年iPS细胞最新研究成果,并阐述了用病人iPS细胞模型探讨帕金森氏病、老年性痴呆症、脊髓侧索硬化症、脊髓肌肉萎缩症及舞蹈症等5种常见神经性退行性疾病发病机理的研究现状。     

Biobanking of human pluripotent stem cells in China

In recent years, significant progress has been made internationally in the development of human pluripotent stem cell (hPSC)‐derived products for serious and widespread disorders. Biobanking of the cellular starting materials is a crucial component in the delivery of safe and regulatory compliant cell therapies. In China, key players in these developments have been the recently launched National Stem Cell Resource Center (NSCRC) and its partner organizations in Guangzhou and Shanghai who together, have more than 600 hPSC lines formally recorded in the Chinese Ministry of Science and Technology''s stem cell registry. In addition, 47 of these hPSCs have also been registered with the hPSCreg project which means they are independently certified for use in European Commission funded research projects. The NSCRC are currently using their own cell lines to manufacture eight different cell types qualified for clinical use, that are being used in nine clinical studies for different indications. The Institute of Zoology at the Chinese Academy of Sciences (IOZ‐CAS) has worked with NSCRC to establish Chinese and international standards in stem cell research. IOZ‐CAS was also a founding partner in the International Stem Cell Banking Initiative which brings together key stem cell banks to agree minimum standards for the provision of pluripotent stem cells for research and clinical use. Here, we describe recent developments in China in the establishment of hPSCs for use in the manufacture of cell therapies and the significant national and international coordination which has now been established to promote the translation of Chinese hPSC‐based products into clinical use according to national and international standards.     

诱导多能干细胞(iPS)的诱导培养与鉴定

通过外源转录调控因子的诱导,使成体细胞重编程为胚胎干细胞(ES细胞)样的多能细胞,这种细胞称为诱导多能干细胞(iPS细胞),这一方法被称为iPS技术。目前,iPS技术已先后在小鼠、人、猕猴、大鼠和猪中成功应用,建立了相应的iPS细胞系,并获得了iPS细胞嵌合小鼠和四倍体克隆小鼠。尽管iPS与ES细胞在形态和生长特性上有许多相同之处,但iPS细胞的建立需要较独特的诱导培养体系和鉴定方法。以下结合近年来iPS技术的发展和本实验室的相关研究,对iPS细胞的建立和培养体系的优化进行了深入探讨。     

Effect of cell cycle inhibitor p19ARF on senescence of human diploid cell

To investigate the effect of cell cycle inhibitor p19ARF on replicative senescence of human diploid cell, recombinant p19ARF eukaryotic expression vector was constructed and p19ARF gene was transfected into human diploid fibroblasts (WI-38 cells) by liposome-mediated transfection for overexpression. Then, the effects of p19ARF on replicative senescence of WI-38 cells were observed. The results re- vealed that, compared with control cells, the WI-38 cells in which p19ARF gene was introduced showed significant up-regulation of p53 and p21 expression level, decrease of cell generation by 10 12 generations, decline of cell growth rate with cell cycle being arrested at G1 phase, increase of positive rate of senescent marker SA-β-gal staining, and decrease of mitochondrial membrane potential. The morphology of the transfected fibroblasts presented the characteristics changes similar to senescent cells. These results indicated that high expression of p19ARF may promote the senescent process of human diploid cells.     

疾病特异诱导多能干细胞研究进展

通过病毒或非病毒转导体系,在小鼠和人的体细胞中人为表达几个与细胞多能性相关的转录因子,从而使细胞达到类似于胚胎干细胞（embryonic stem cells,ESCs）状态,是近年来新发展起来的体细胞重编程技术。这些被重编程的细胞称为诱导多能干细胞（induced pluripotent stem cells,iPS细胞）。这项技术为获得患者和疾病特异的多能干细胞提供了新的途径。患者和疾病特异的iPS细胞的获得,不仅在避免免疫排斥的宿主特异的细胞移植治疗上有广泛前景,并对了解疾病发生机理、药物筛选和毒性研究有着重要的意义。该文综述从iPS细胞技术的发明入手,着重讨论疾病iPS细胞的研究进展及其在应用于治疗时亟需解决的问题。     

Chromosomal localization of silkworm (Bombyx mori) sericin gene 1 and chymotrypsin inhibitor 13 using fluorescence in situ hybridization

The chromosomal locations of two single-copy genes, Ser-1 and CI-13, in silkworm (Bombyx mori) were detected at the molecular cytogenetics level by fluorescence in situ hybridization in the study. The results showed that Ser-1 is located near the distal end of the 11th linkage group, relatively at the 12.5±1.4 position in pachytene; and that CI-13 has been mapped near the distal end of the 2nd linkage group, relatively at the 8.2±1.2 position in pachytene. Furthermore, their location model map-FISH map on silkworm chromosome was drawn. The FISH technique and its application to silkworm are also discussed in this paper.     

诱导多能干细胞研究进展

用4个外源基因从完全分化的人成纤维细胞诱导获得了具有胚胎干细胞特性的诱导多能干细胞(iPS细胞),成功逆转了细胞单向发育的规则,取得了细胞重编程和干细胞研究中的重大突破.围绕c-Myc基因和基因载体、诱导效率和外源基因替代因子等方面的研究内容,综述了自2007年人iPS细胞构建至今,国内外在改进iPS细胞诱导方法上的主要研究进展.     

Developing a microfluidic-based system to quantify cell capture efficiency

Micro-fabrication technology has substantial potential for identifying molecular markers expressed on the surfaces of tissue cells and viruses. It has been found in several conceptual prototypes that cells with such markers are able to be captured by their antibodies immobilized on microchannel substrates and unbound cells are flushed out by a driven flow. The feasibility and reliability of such a microfluidic-based assay, however, remains to be further tested. In the current work, we developed a microfluidic-based system consisting of a microfluidic chip, an image grabbing unit, data acquisition and analysis software, as well as a supporting base. Specific binding of CD59-expressed or BSA-coupled human red blood cells (RBCs) to anti-CD59 or anti-BSA antibody-immobilized chip surfaces was quantified by capture efficiency and by the fraction of bound cells. Impacts of respective flow rate, cell concentration, antibody concentration and site density were tested systematically. The measured data indicated that the assay was robust. The robustness was further confirmed by capture efficiencies measured from an independent ELISA-based cell binding assay. These results demonstrated that the system developed provided a new platform to effectively quantify cellular surface markers effectively, which promoted the potential applications in both biological studies and clinical diagnoses. Supported by the National Key Basic Research Program of China (Grant No. 2006CB910303), National Natural Science Foundation of China (Grant Nos. 30730032 and 10332060), National High-Tech Research and Development Program of China (Grant No. 2007AA02Z306) and Chinese Academy of Sciences Grant (Grant No.2005-1-16)     

诱导型细胞的研究进展

胚胎干细胞(ES细胞)和诱导型多能干细胞(iPS细胞)的研究进展为生物学基础研究注入了新的活力,然而免疫排斥、致瘤性以及诱导效率低等缺陷制约其进一步快速发展和临床应用．最近,科学家借鉴iPS细胞诱导技术和传统的诱导体系,将终末分化细胞直接诱导为功能性细胞,如心肌细胞、神经细胞和肝脏细胞,称为诱导型细胞．这些研究进展极大地促进了细胞分化、重编程和表观遗传学的研究,也为人类再生医学的研究提供了新的途径．     

UNCERTAIN TRANSLATION,UNCERTAIN BENEFIT AND UNCERTAIN RISK: ETHICAL CHALLENGES FACING FIRST‐IN‐HUMAN TRIALS OF INDUCED PLURIPOTENT STEM (IPS) CELLS

The discovery of induced pluripotent stem (iPS) cells in 2006 was heralded as a major breakthrough in stem cell research. Since then, progress in iPS cell technology has paved the way towards clinical application, particularly cell replacement therapy, which has refueled debate on the ethics of stem cell research. However, much of the discourse has focused on questions of moral status and potentiality, overlooking the ethical issues which are introduced by the clinical testing of iPS cell replacement therapy. First‐in‐human trials, in particular, raise a number of ethical concerns including informed consent, subject recruitment and harm minimisation as well as the inherent uncertainty and risks which are involved in testing medical procedures on humans for the first time. These issues, while a feature of any human research, become more complex in the case of iPS cell therapy, given the seriousness of the potential risks, the unreliability of available animal models, the vulnerability of the target patient group, and the high stakes of such an intensely public area of science. Our paper will present a detailed case study of iPS cell replacement therapy for Parkinson's disease to highlight these broader ethical and epistemological concerns. If we accept that iPS cell technology is fraught with challenges which go far beyond merely refuting the potentiality of the stem cell line, we conclude that iPS cell research should not replace, but proceed alongside embryonic and adult somatic stem cell research to promote cross‐fertilisation of knowledge and better clinical outcomes.     

Influenza A virus H5N1 entry into host cells is through clathrin-dependent endocytosis

Influenza A virus H5N1 presents a major threat to human health. The entry of influenza virus into host cells is believed to be mediated by hemagglutinin (HA), a virus surface glycoprotein that can bind terminal sialic acid residues on host cell glycoproteins and glycolipids. In this study, we elucidated the pathways through which H5N1 enters human lung carcinoma cell line A549. We first proved that H5N1 can enter A549 cells via endocytosis, as lysosomotropic agents, such as bafilomycin A1 and chloroquine, can rescue H5N1-induced A549 cell death. By using specific inhibitors, and siRNAs that target the clathrin pathway, we further found that H5N1 could enter A549 cells via clathrin-mediated endocytosis, while inhibitors targeting caveolae-mediated endocytosis could not inhibit H5N1 cell entry. These findings expand our understanding of H5N1 pathogenesis and provide new information for anti-viral drug research. Supported by the National Natural Science Foundation of China (Grant No. 30623009) and National Basic Research Program of China (Grant No. 2005CB523000)     

Current research status of immunology in the genomic era

This review updates the current status of immunology research under the influence of genomics, both conceptually and technologically. It particularly highlights the advantages of employing the high-throughput and large-scale technology, the large genomic database, and bioinformatic power in the immunology research. The fast development in the fields of basic immunology, clinical immunology (tumor and infectious immunology) and vaccine designing is illustrated with respect to the successful usage of genomic strategy. We also speculate the future research directions of immunology in the era of genomics and post-genomics. Supported by the National High-Tech Research and Development Program of China (Grant No.2006AA02A252), National Natural Science Foundation of China (Grant No.30771965) and Shanghai Pujiang Program (Grant No.07pj14066).     

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.     

综述: 诱导重编程过程中的表观遗传重塑

多能干细胞(pluripotent stem cell,PSC)是一类具有自我更新能力和多向分化潜能的细胞,具有广泛的临床应用前景．诱导性多功能干细胞(induced pluripotent stem cell,iPS cell)的获得,解决了传统方式中的细胞来源和伦理学等问题,从理论研究和应用上实现了体细胞重编程的重大突破,也为疾病发生机制研究、药物筛选、个性化药物选择、细胞治疗和再生医学等研究创造了难得的机会,从而开启了多能干细胞应用的新纪元．iPS过程中有很多问题尚未得到解决,尤其是诱导重编程的分子机制方面,这也是近年来干细胞领域研究的热点．其中如何实现表观遗传的重编程被认为是亟待解决的核心问题之一．本文结合我们的研究,主要介绍诱导重编程领域表观遗传修饰重塑机制的研究进展,并展望未来研究中大规模信息整合分析的重要性．