共查询到18条相似文献,搜索用时 171 毫秒
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干细胞具有自我更新能力,能够产生高度分化的功能细胞。干细胞按照发育阶段分为胚胎干细胞和成体干细胞。根据干细胞的发育潜能分为三类:全能干细胞、多能干细胞和单能干细胞。胚胎干细胞的发育等级较高,是全能干细胞,而成体干细胞的发育等级较低,是多能或单能干细胞。一般认为成年组织或器官内的干细胞具有组织特异性,只能分化成特定的细胞或组织,然而,研究结果表明,组织特异性干细胞同样具有分化成其他细胞或组织的潜能,这为干细胞的应用开创了更广泛的空间。作者主要综述了干细胞的研究进展及几种成体干细胞的诱导分化。 相似文献
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Reasons for performing study: Two studies report variability in proliferation and limited adipocyte differentiation of equine peripheral blood‐derived adult mesenchymal stem cells, thus casting doubt on their adipogenic potential. Peripheral blood can be a valuable source of adult mesenchymal stem cells if cell culture conditions permissive for their adherence, proliferation and differentiation are defined. Hyperbaric oxygen treatment has been reported to mobilise haematopoietic progenitor stem cells into the peripheral blood in humans and mice, but similar experiments have not been done in horses. Objectives: To optimise cell culture conditions for isolation, propagation and differentiation of adult stem cells from peripheral blood and to assess the effect of hyperbaric oxygen treatment on adult stem cell concentrations. Methods: Peripheral blood was collected from the jugular vein of 6 research mares, and mononuclear cells were isolated. They were subjected to cell culture conditions that promote the adherence and proliferation of adult stem cells. The cells were characterised by their adherence, expression of cellular antigen markers, and trans‐differentiation. Each horse was subjected to 3 hyperbaric oxygen treatments, and stem cells were compared before and after treatments. Stem cells derived from adipose tissue were used as controls. Results: One‐third of the horses yielded viable stem cells from peripheral blood, positive for CD51, CD90 and CD105, and demonstrated osteocyte, chondrocyte and adipocyte differentiation. Hyperbaric oxygen treatment resulted in a significant increase in CD90‐positive cells. Horses that did not yield any cells pretreatment did so only after 3 hyperbaric oxygen treatments. Conclusions and potential relevance: Peripheral blood can be a valuable source of adult stem cells, if one can identify reliable equine‐specific markers, provide methods to increase the number of circulating progenitor cells and optimise cell culture conditions for growth and viability. Our findings are important for further studies towards technological advances in basic and clinical equine regenerative medicine. 相似文献
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Ferrari M Corradi A Lazzaretti M De'Cillà M Losi CG Villa R Lanfranchi A 《Veterinary research communications》2007,31(Z1):1-8
The use of adult stem cells in tissue regeneration appears to be a powerful research tool, due to the intrinsic characteristics of these cells, i.e., self-renewal and unlimited capacity for proliferation. In particular, mesenchymal stem cells (MSCs) obtained from bone marrow or peripheral blood can be easily isolated, cultivated, propagated and can be differentiated into several specialized cell types thanks to their plasticity. Among these cells, MSCs can evolve into cardiac cell lineages. Since heart damage leads to the irreversible loss of cardiac function, cell transplantation could be a potential therapy for heart injury. Our laboratory has focused on the purification and expansion of rat and sheep MSCs, their differentiation into cardiomyocytes and their characterisation. Numerous results indicate that MSCs could be promising for therapy, however we need to better understand the biology of stem cells to improve methods for delivery and/or pharmacological activation. These techniques can indeed track engrafted cells and systems to guarantee their safe use. 相似文献
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昆虫干细胞研究进展 总被引:1,自引:1,他引:0
干细胞是一类具有自我更新和分化潜能的细胞,按照其来源可分为胚胎干细胞和成年干细胞。昆虫中也同样存在多种干细胞。开展昆虫干细胞自我更新、发育命运决定、分化潜能等特性以及其与周围微环境相互关系的研究,对农林害虫的生物防治、经济昆虫的遗传育种以及一些生物反应器材料的利用,甚至对于人类疾病的治疗等都具有重要意义。以模式生物果蝇为主,介绍了昆虫干细胞的相关研究进展,重点集中在果蝇各种组织干细胞的鉴定与识别方面,包括研究较成熟的生殖腺内干细胞、中肠干细胞、马氏管干细胞、神经母细胞和造血干细胞。同时介绍了对干细胞维持起重要调控作用的各种信号途径的研究进展。这些昆虫干细胞的研究成果将为开展家蚕等鳞翅目昆虫的干细胞研究提供启示。 相似文献
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Pluripotent stem cells have the unique capacity to contribute to all the tissues of an adult animal after transfer into a host embryo. How pluripotency is acquired during early development and how it is maintained in stem cells have attracted the interest of many scientists for over three decades. Much progress in our understanding of how stem cells arise in culture and the signals required for homoeostasis has enabled the derivation of pluripotent cells in multiple species. Here, we discuss recent developments in stem cell biology that will impact the generation of pluripotent cells from different embryonic origins and will contribute to increase our capacity for generating transgenic animals. 相似文献
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Comparison of equine bone marrow-, umbilical cord matrix and amniotic fluid-derived progenitor cells
Lovati AB Corradetti B Lange Consiglio A Recordati C Bonacina E Bizzaro D Cremonesi F 《Veterinary research communications》2011,35(2):103-121
The aim of the study was to compare in vitro the stemness features of horse progenitor cells derived from bone marrow (BM-MSCs),
amniotic fluid (AF-MSCs) and umbilical cord matrix (EUC-MSCs). It has been suggested that there may be a stem cell population
within both umbilical cord matrix and amniotic fluid. However, little knowledge exists about the characteristics of these
progenitor cells within these sources in the equine species. This study wanted to investigate an alternative and non-invasive
stem cell source for the equine tissue engineering and to learn more about the properties of these cells for future cell banking.
Bone marrow, umbilical cord and amniotic fluid samples were harvested from different horses. Cells were analyzed for proliferation,
immunocytochemical, stem cell gene expression and multilineage plasticity. BM- and AF-MSCs took similar time to reach confluence
and showed comparable plating efficiency. All cell lines expressed identical stem cell markers and capability to differentiate
towards osteogenic lineage. Almost all cell lines differentiated into the adipogenic lineage as demonstrated by cytochemical
staining, even if no adipose gene expression was detectable for AF-MSCs. AF- and EUC-MSCs showed a limited chondrogenic differentiation
compared with BM-MSCs as demonstrated by histological and biochemical analyses. These findings suggest that AF-MSCs appeared
to be a readily obtainable and highly proliferative cell line from an uninvasive source that may represent a good model system
for stem cell biology. More studies are needed to investigate their multilineage potential. EUC-MSCs need to be further investigated
regarding their particular behavior in vitro represented by spheroid formation. 相似文献
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PO Favaron RC Carvalho J Borghesi ARA Anunciação MA Miglino 《Reproduction in domestic animals》2015,50(6):881-892
Foetal membranes are essential tissues for embryonic development, playing important roles related to protection, breathing, nutrition and excretion. The amnion is the innermost extraembryonic membrane, which surrounds the foetus, forming an amniotic sac that contains the amniotic fluid (AF). In recent years, the amniotic membrane has emerged as a potential tool for clinical applications and has been primarily used in medicine in order to stimulate the healing of skin and corneal diseases. It has also been used in vaginal reconstructive surgery, repair of abdominal hernia, prevention of surgical adhesions and pericardium closure. More recently, it has been used in regenerative medicine because the amniotic‐derived stem cells as well as AF‐derived cells exhibit cellular plasticity, angiogenic, cytoprotective, immunosuppressive properties, antitumoural potential and the ability to generate induced pluripotent stem cells. These features make them a promising source of stem cells for cell therapy and tissue engineering. In this review, we discussed the development of the amnion, AF and amniotic cavity in different species, as well as the applicability of stem cells from the amnion and AF in cellular therapy. 相似文献