体细胞重编程为多潜能干细胞的研究进展

人类的胚胎干细胞（embryonic stem cells,ES cells）可以用来治疗很多疾病,但是如果通过核移植来获得与供体或者患者相匹配的ES细胞,就会受到人卵母细胞来源等条件的制约。这就促使了将体细胞重编程为多潜能细胞这样一种技术策略的发展,其中包括将分化细胞与ES细胞融合,在卵细胞、ES细胞或多潜能癌细胞的抽提物中孵育,强制多潜能因子过表达等具体的方法。通过这些途径引出了一些核功能的重编程以及相应的DNA甲基化修饰、组蛋白翻译后修饰,使体细胞表达特定的多潜能因子,转变为类似胚胎干细胞的多潜能细胞。     

Homing of annexin-labeled stem cells to apoptotic cells

Ischemic diseases are characterized by the presence of pro-apoptotic stimuli, which initiate a cascade of processes that lead to cell injury and death. Several molecules and events represent detectable indicators of the different stages of apoptosis. Among these indicators is phosphatidylserine (PS) translocation from the inner to the outer leaflet of the plasma membrane, which can be detected by annexinV (ANXA5) conjugation. This is a widely used in vivo and in vitro assay marking the early stages of apoptosis. We report here on an original method that employs PS-ANXA5 conjugation to target stem cells to apoptotic cells. Mesenchymal stem cells (MSCs) from GFP-positive transgenic rats were biotinylated on membrane surfaces with sulfosuccinimidyl-6-(biotinamido) hexanoate (sulfo-NHS-LC-biot) and then bound to avidin. The avidin-biotinylated MSCs were labeled with biotin conjugated ANXA5. Bovine aortic endothelial cells (BAE-1 cells) were exposed to UVC to induce caspasedependent apoptosis. Finally, we tested the ability of ANXA5-labeled MSCs to bind BAE-1 apoptotic cells: suspended ANXA5-labeled MSCs were seeded for 1 hour on a monolayer of UV-treated or control BAE-1 cells. After washing, the number of MSCs bound to BAE-1 cells was evaluated by confocal microscopy. Statistical analysis demonstrated a significant increase in the number of MSCs tagged to apoptotic BAE-1 cells. Therefore, stem cell ANXA5 tagging via biotin-avidin bridges could be a straightforward method of improving homing to apoptotic tissues. A. Gerasimou, R. Ramella and A. Brero contributed equally to this paper.     

Human hair-follicle associated pluripotent (hHAP) stem cells differentiate to cardiac-muscle cells

We have previously demonstrated that nestin-expressing hair follicle-associated-pluripotent (HAP) stem cells are located in the bulge area. HAP stem cells have been previously shown to differentiate to neurons, glial cells, keratinocytes, smooth-muscle cells, melanocytes and cardiac-muscle cells in vitro. Subsequently, we demonstrated that HAP stem cells could effect nerve and spinal cord regeneration in mouse models, differentiating to Schwann cells and neurons. In previous studies, we established an efficient protocol for the differentiation of cardiac-muscle cells from mouse HAP stem cells. In the present study, we isolated the upper part of human hair follicles containing human HAP (hHAP) stem cells. The upper parts of human hair follicles were suspended in DMEM containing 10% FBS where they differentiated to cardiac-muscle cells as well as neurons, glial cells, keratinocytes and smooth-muscle cells. This method is appropriate for future use with human hair follicles to produce hHAP stem cells in sufficient quantities for future heart, nerve and spinal cord regeneration in the clinic.     

Th17细胞和Treg细胞的细胞因子调节网络

Th17细胞和Treg细胞是CD4+T细胞的新亚群,在分化发育、功能发挥的过程中受到Th1型、Th2型效应细胞以及自身分泌产生细胞因子的调节,参与自身免疫病、感染、肿瘤等疾病的发生发展。通过对Th17和Treg分化发育、和功能发挥过程中的关键调节因子进行阻断或加强,可以上调或下调Th17和Treg在疾病中的表达,以用于疾病的预防和诊治。     

Stem Leydig cells: from fetal to aged animals

Leydig cells are the testosterone-producing cells of the testis. The adult Leydig cell (ALC) population ultimately develops from undifferentiated mesenchymal-like stem cells present in the interstitial compartment of the neonatal testis. Distinct stages of ALC development have been identified and characterized. These include stem Leydig cells (SLCs), progenitor Leydig cells, immature Leydig cells, and ALCs. This review describes our current understanding of the SLCs in the fetal, prenatal, peripubertal, adult, and aged rat testis, as well as recent studies of the differentiation of steroidogenic cells from the stem cells of other organs.     

Epigenetic predisposition to reprogramming fates in somatic cells

Reprogramming to pluripotency is a low‐efficiency process at the population level. Despite notable advances to molecularly characterize key steps, several fundamental aspects remain poorly understood, including when the potential to reprogram is first established. Here, we apply live‐cell imaging combined with a novel statistical approach to infer when somatic cells become fated to generate downstream pluripotent progeny. By tracing cell lineages from several divisions before factor induction through to pluripotent colony formation, we find that pre‐induction sister cells acquire similar outcomes. Namely, if one daughter cell contributes to a lineage that generates induced pluripotent stem cells (iPSCs), its paired sibling will as well. This result suggests that the potential to reprogram is predetermined within a select subpopulation of cells and heritable, at least over the short term. We also find that expanding cells over several divisions prior to factor induction does not increase the per‐lineage likelihood of successful reprogramming, nor is reprogramming fate correlated to neighboring cell identity or cell‐specific reprogramming factor levels. By perturbing the epigenetic state of somatic populations with Ezh2 inhibitors prior to factor induction, we successfully modulate the fraction of iPSC‐forming lineages. Our results therefore suggest that reprogramming potential may in part reflect preexisting epigenetic heterogeneity that can be tuned to alter the cellular response to factor induction.     

Contribution of bone-marrow-derived cells to choroidal neovascularization

We investigated the involvement of bone-marrow derived cells to experimental choroidal neovascularization (CNV) in mice, whose bone marrow was reconstituted by either unfractionated bone-marrow cells or Lin-c(-)Kit(+)Sca-1+ enriched presumable hematopoietic stem cells from the green fluorescent protein (GFP) transgeneic mice. Immunohistochemical analysis demonstrated the presence of GFP-positive cells in the CNV lesion after unfractionated bone-marrow transplantation, as well as Lin-c(-)Kit(+)Sca-1+ cell transplantation. Some of the GFP-expressing cells also expressed CD-31 and PanEC antigen, markers of vascular endothelial cells. Our results suggest that bone-marrow derived cells may contribute endothelial cells in CNV.     

Secretion of rat tracheal epithelial cells induces mesenchymal stem cells to differentiate into epithelial cells

Bone marrow MSCs (mesenchymal stem cells) can differentiate into various tissue cells, including epithelial cells. This presents interesting possibilities for cellular therapy, but the differentiation efficiency of MSCs is very low. We have explored specific inducing factors to improve the epithelial differentiation efficiency of MSCs. Under inducing conditions, MSCs differentiated into epithelial cells and expressed several airway epithelial markers using RTE (rat tracheal epithelial) cell secretions. Rat cytokine antibody array was used to detect cytokines of the RTE secretion components, in which 32 kinds of protein were found. Seven proteins [TRAIL (tumour necrosis factor-related apoptosis-inducing ligand), VEGF (vascular endothelial growth factor), BDNF (brain-derived neurotrophic factor), TGFβ1 (transforming growth factor β1), MMP-2 (metalloproteinases-2), OPN (osteopontin) and activin A in RTE secretions] were assayed using ELISA kits. The four growth factors (VEGF, BDNF, TGFβ1 and activin A) were involved in regulating stem cell growth and differentiation. We speculated that these four play a vital role in the differentiation of MSCs into epithelial cells by triggering appropriate signalling pathways. To induce epithelial differentiation, MSCs were cultured using VEGF, BDNF, TGFβ1 and activin A. Differentiated MSCs were characterized both morphologically and functionally by their capacity to express specific markers for epithelial cells. The data demonstrated that MSCs can differentiate into epithelial cells induced by these growth factors.     

Adhesion of pancreatic beta cells to biopolymer films

Dramatic reversal of Type 1 diabetes in patients receiving pancreatic islet transplants continues to prompt vigorous research concerning the basic mechanisms underlying patient turnaround. At the most fundamental level, transplanted islets must maintain viability and function in vitro and in vivo and should be protected from host immune rejection. Our previous reports showed enhancement of islet viability and insulin secretion per tissue mass for small islets (<125 μm) as compared with large islets (>125 μm), thus, demonstrating the effect of enhancing the mass transport of islets (i.e. increasing tissue surface area to volume ratio). Here, we report the facile dispersion of rat islets into individual cells that are layered onto the surface of a biopolymer film towards the ultimate goal of improving mass transport in islet tissue. The tightly packed structure of intact islets was disrupted by incubating in calcium‐free media resulting in fragmented islets, which were further dispersed into individual or small groups of cells by using a low concentration of papain. The dispersed cells were screened for adhesion to a range of biopolymers and the nature of cell adhesion was characterized for selected groups by quantifying adherent cells, measuring the surface area coverage of the cells, and immunolabeling cells for adhesion proteins interacting with selected biopolymers. Finally, beta cells in suspension were centrifuged to form controlled numbers of cell layers on films for future work determining the mass transport limitations in the adhered tissue constructs. © 2009 Wiley Periodicals, Inc. Biopolymers 91: 676–685, 2009. This article was originally published online as an accepted preprint. The “Published Online” date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com     

Primordial germ cells contain subpopulations that have greater ability to develop into pluripotential stem cells

Primordial germ cells (PGCs) are undifferentiated germ cells in embryos. We previously found that some mouse PGCs develop into pluripotential cells (EG cells) when cultured on a feeder layer expressing the membrane bound form of Steel factor with culture medium containing leukemia inhibitory factor and basic fibroblast growth factor. To understand the mechanisms of the conversion of PGCs into EG cells, we attempted to identify PGC subpopulations that have the ability to develop into EG cells. Using flow cytometry, we fractionated PGCs by the expression of the cell surface antigen integrin α6, as well as by the detection of side‐population (SP) cells in which stem cells are enriched in various tissues. PGCs with negative or low integrin α6 expression and with SP cell phenotype showed higher potential to convert to EG cells. Negative or low integrin α6 expression in PGCs was also correlated with lower expression of Ddx4, which is specifically expressed in PGCs after embryonic day 10.5. The results indicate that the primitive PGC population showing the SP cell phenotype among undifferentiated PGCs has a higher ability of being converted into EG cells. Thus, conversion of PGCs into pluripotential stem cells may be regulated by being influenced by the natural status of individual PGCs as well as the reprogramming process after starting culture.     

Mast cells/eosinophilic granule cells of salmonids: staining properties and responses to noxious agents

Observations were made on mast cells/eosinophilic granule cells in swimbladder tissue spreads and sections of gills and intestinal tissues from species of the generaSalmoOncorhynchusSalvelinusCoregonusThymallus. Some individuals had been reared in captivity and others were caught in rivers or lakes, and both apparently healthy fish and fish with persistent inflammation, due to helminths or unknown causative agents, were included in the study. Acute responses to noxious agents were studied in swimbladder tissue spreads after intraperitoneal injections of inactivatedAeromonas salmonicida, compound 48/80 and hydrocortisone. The tissue spreads were fixed in ethanol and stained with thionin. Other tissues were fixed in a solution containing 4% formaldehyde and 5% acetic acid in methanol, and stained with May-Grünwald Giemsa combination dye, haematoxylin and eosin, or Alcian blue. Intestinal tissue histamine was assayed fluorometrically, and vascular responses to histamine and compound 48/80 were studied in perfused gill preparations. The staining properties of salmonid mast cells/eosinophilic granule cells resembled those of mammalian mucosal mast cells and globule leucocytes, with both acidophilic and basophilic components in their granules. May-Grünwald Giemsa staining revealed that in cells found in connective tissues the basophilic character was dominant, whereas the acidophilic character was most marked in those present in epithelia. The granule cells in swimbladder tissue spreads stained metachromatically with alcoholic thionin. Intraperitoneal injections of inactivatedA. salmonicidaproduced acute inflammatory reactions, with degranulation of mast cells/eosinophilic granule cells, in tissues of the swimbladder. Degranulation of the granule cells was also noticed after injection of compound 48/80. Massive degranulation of mast cells/eosinophilic granule cells in the swimbladder wall, followed by an acute inflammatory reaction, was induced by intraperitoneal injections of hydrocortisone. Persistent inflammation, e.g. in tissues infected with helminths, was accompanied by recruitment of mast cells/eosinophilic granule cells. Presence of many or few mast cells/eosinophilic granule cells in tissues of the intestine seemed to have no influence on the content of histamine, which was always low. Compound 48/80 produced increased resistance in the perfused branchial vascular bed, but effects of histamine were slight or completely absent. The responses of mast cells/eosinophilic granule cells of salmonids in acute and persistent inflammation, as revealed in the present investigation, are similar to the known responses of mammalian mast cells. Since their staining properties are also similar, the term ‘mast cell’ should be adequate.     

Harnessing features of adaptive NK cells to generate iPSC-derived NK cells for enhanced immunotherapy

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利用报告基因比较悬浮细胞与贴壁细胞对HIV-1假病毒感染效率的差异

【目的】研究用人免疫缺陷病毒(Human immunodeficiency virus,HIV)-1假病毒感染带有β-半乳糖苷酶(β-galactosidase,β-gal)报告基因和HIV受体CD4+CCR5+的Tzmbl细胞,分析悬浮状态与贴壁状态对HIV-1假病毒感染Tzmbl细胞的影响,为进一步进行HIV生物学研究与中和抗体实验室评价提供实验基础。【方法】通过将pNL43 R-E-与编码HIV膜蛋白的质粒共转染293T细胞,收集上清,获得HIV假病毒。该假病毒感染悬浮的和贴壁的Tzmbl细胞后可表达β-gal报告蛋白,通过X-gal染色和仪器分析可测定表达β-gal报告基因的细胞数与细胞感染率。【结果】HIV假病毒感染悬浮细胞的效率高于其对贴壁的Tzmbl细胞感染的效率,且细胞的感染率的改变与病毒的型相关。【结论】该研究结果可为进一步利用具有单轮感染活性的HIV假病毒进行生物研究和中和抗体实验提供研究方法。     

从胚胎干细胞到视网膜

视网膜退行性病变影响着全世界数百万人。然而,视网膜是人体再生能力很差的一类组织,成年机体无法自我更新那些病变中丢失的视网膜细胞,导致视网膜退行性病变的不可逆性。因此,恢复患者视觉将依赖于引入外源细胞替代丢失的视网膜神经元。胚胎干细胞（ES细胞）具有无限的自我更新能力和形成机体所有类型细胞的巨大分化潜力。这两个特性使得ES细胞成为细胞替代疗法的理想供体细胞。近年来,人们在探索将ES和诱导多能干细胞（iPS细胞）体外定向诱导分化为视网膜神经元,甚至整个视网膜方面已取得多项进展,并且体外形成的视网膜细胞可以与宿主视网膜整合。在此篇综述中,首先简要概括哺乳动物视网膜的组织结构、发育过程和调控机制,然后,重点阐述近年来科研工作者探索ES/iPS细胞体外诱导分化为视网膜细胞和组织的研究进展。     

Ovarian stem cells: From basic to clinical applications

The field of reproductive biology has undergone significant developments in the last decade. The notion that there is a fixed reserve pool of oocytes before birth was established by Zuckerman in 1951. However, in 2004, an article published in nature challenged this central dogma of mammalian reproductive biology. Tilly’s group reported the existence of ovarian germline stem cells (GSCs) in postnatal ovaries of mice and suggested that the bone marrow could be an extragonadal source of ovarian GSCs. These findings were strongly criticized; however, several independent groups have since successfully isolated and characterized ovarian GSCs in postnatal mice. The ovarian GSCs are located in the ovarian surface epithelium and express markers of undifferentiated GSCs. When transplanted into mouse ovaries, mouse ovarian GSCs could differentiate and produce embryos and offspring. Similarly, in a recent study, ovarian GSCs were found to be present in the ovaries of women of reproductive age. Conversely, there is increasing evidence that stem cells responsible for maintaining a healthy state in normal tissue may be a source of some cancers, including ovarian cancer. Cancer stem cells (CSCs) have been found in many tissues, including ovaries. Some researchers have suggested that ovarian cancer may be a result of the transformation and dysfunction of ovarian GSCs with self-renewal properties. Drug resistant and metastasis-generating CSCs are responsible for many important problems affecting ovarian cancer patients. Therefore, the identification of CSCs will provide opportunities for the development of new therapeutic strategies for treatments for infertility and ovarian cancer. In this article, we summarize the current understanding of ovarian GSCs in adult mammals, and we also discuss whether there is a relationship between GSCs and CSCs.