共查询到20条相似文献,搜索用时 15 毫秒
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Stem Cells 总被引:2,自引:0,他引:2
《Russian Journal of Developmental Biology》2003,34(3):128-130
Russian Journal of Developmental Biology - 相似文献
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造血干细胞移植已成为治疗白血病、再生障碍性贫血、重症免疫缺陷征、地中海贫血、急性放射病、某些恶性实体瘤和淋巴瘤等造血及免疫系统功能障碍性疾病的成熟技术和重要手段,另外这一技术还被尝试用于治疗艾滋病,已取得积极的效果。但是由于移植需要配型相同的供体,并且过程复杂,使得造血干细胞移植因缺少配型相同的供体来源以及费用昂贵而不能被广泛应用。胚胎干细胞是一种能够在体外保持未分化状态并且能进行无限增殖的细胞,在适合条件下能够分化为体内各种类型的细胞,研究胚胎干细胞分化为造血干细胞,不仅可作为研究动物的早期造血发生的模型,而且可以增加造血干细胞的来源,还可以通过基因剔除、治疗性克隆等方法来解决移植排斥的问题,从而为造血干细胞移植的发展扫除了障碍,因此有着重要的研究价值和应用前景。现对胚胎干细胞体外分化为造血干细胞的诱导方法,诱导过程中的调控机制,并对胚胎干细胞分化为造血干细胞的存在问题和发展前景进行讨论。 相似文献
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Molecular Biology - A brief review of current data on the molecular biology of stem cells forming meristems and differentiating into various organs of angiosperms is presented. Different primary... 相似文献
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Epidermal Stem Cells 总被引:1,自引:0,他引:1
Epidermis contains a compartment of stem cells but currently there is no common criterion to recognize individual stem cells with any confidence. Epidermis appears to contain stem cells of different levels of maturity and it is very likely that the main repository of epidermal stem cells is located in the hair follicle from which cells can emigrate into epidermis and also give rise to follicular and sebaceous keratinocytes. Epidermis consists of proliferative units containing stem and transit-amplifying cells, but the exact size of a proliferative unit cannot be measured accurately. The available data suggest that populations of stem and transit-amplifying cells are not discrete but represent a continuum from cells with a high self-renewal capacity and a low probability of differentiation to those with low self-renewal capacities and high commitments to differentiation. Stem cells occupy a special niche that provides a microenvironment, including an adhesion of stem cells to the basal membrane and their paracrine interactions with neighbor epidermal and mesenchymal cells. The fate of an epidermal stem cell depends on its prehistory and microenvironment. 相似文献
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Finn J. Hawkins Shingo Suzuki Mary Lou Beermann Cristina Barillà Ruobing Wang Carlos Villacorta-Martin Andrew Berical J.C. Jean Jake Le Suer Taylor Matte Chantelle Simone-Roach Yang Tang Thorsten M. Schlaeger Ana M. Crane Nadine Matthias Sarah X.L. Huang Scott H. Randell Joshua Wu Darrell N. Kotton 《Cell Stem Cell》2021,28(1):79-95.e8
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《Cell cycle (Georgetown, Tex.)》2013,12(2):265-267
Blood-related cancers, or leukemias, have been shown to arise from a rare subset of cells that escape normal regulation and drive the formation and growth of the tumor. The finding that these so-called cancer stem cells, or leukemic stem cells (LSC), can be purified away from the other cells in the tumor allows their precise analysis to identify candidate molecules and regulatory pathways that play a role in progression, maintenance, and spreading of leukemias. The analyses of the other, numerically dominant, cells in the tumor, while also interesting, do not directly interrogate these key properties of malignancies. Mouse models of human myeloproliferative disorder and acute myelogenous leukemia have highlighted the remarkable conservation of disease mechanisms between both species. They can now be used to identify the LSC for each type of human leukemia and understand how they escape normal regulation and become malignant. Given the clinical importance of LSC identification, the insights gained through these approaches will quickly translate into clinical applications and lead to improved treatments for human leukemias. 相似文献
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Genetically controlled proliferation and differentiation of stem nerve cells have been demonstrated to be among the repair mechanisms of the nervous system. Another such process is differentiation of neuroblasts from the cambial reserve. 相似文献
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Zhigang Xie 《Neurochemical research》2009,34(12):2055-2066
Primary malignant brain cancer, one of the most deadly diseases, has a high rate of recurrence after treatment. Studies in
the past several years have led to the hypothesis that the root of the recurrence may be brain tumor stem cells (BTSCs), stem-like
subpopulation of cells that are responsible for propagating the tumor. Current treatments combining surgery and chemoradiotherapy
could not eliminate BTSCs because these cells are highly infiltrative and possess several properties that can reduce the damages
caused by radiation or anti-cancer drugs. BTSCs are similar to NSCs in molecular marker expression and multi-lineage differentiation
potential. Genetic analyses of Drosophila CNS neoplasia, mouse glioma models, and human glioma tissues have revealed a link between increased NSC self-renewal and
brain tumorigenesis. Furthermore, data from various rodent models of malignant brain tumors have provided compelling evidence
that multipotent NSCs and lineage-restricted neural progenitor cells (NPCs) could be the cell origin of brain tumors. Thus,
the first event of brain tumorigenesis might be the occurrence of oncogenic mutations in the stem cell self-renewal pathway
in an NSC or NPC. These mutations convert the NSC or NPC to a BTSC, which then initiates and sustains the growth of the tumor.
The self-renewal of BTSCs is controlled by several evolutionarily conserved signaling pathways and requires an intact vascular
niche. Targeting these pathways and the vascular niche could be a principle in novel brain tumor therapies aimed to eliminate
BTSCs. 相似文献
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毛囊干细胞 总被引:2,自引:0,他引:2
毛囊干细胞被认为是具慢周期性特点,但特定条件下具有较高增殖能力和克隆形成潜能的细胞。它们在形态学和生物化学上处于较原始的状态,常具有多潜能性。利用干细胞标记技术和克隆形成能力检测手段,人们发现毛囊干细胞主要存在于位于毛囊上半部的隆突部位。毛囊干细胞潜在的分子标记包括β1-整合素、α6-整合素、CD71、角蛋白19、p63和CD34,而在体内和体外它们的分子标记也不尽相同。毛囊隆突部位的干细胞能够分化成表皮、上皮性毛根鞘、发杆和皮脂腺。在个体发育过程中,它们具有分化成其他多种细胞系的能力。对于在毛发形态形成和生长周期中毛囊干细胞的行为,研究者们提出了多种假说,包括隆突激活假说和干细胞迁移假说。如今,毛囊干细胞主要应用于制备皮肤的代替品。 相似文献
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干细胞为一类具有无限的或者永生的自我更新能力的细胞,包括胚胎性干细胞和成体干细胞.胚胎性干细胞有胚胎干细胞、畸胎瘤细胞和原始生殖细胞.成体干细胞主要有骨髓间充质干细胞,造血干细胞、神经干细胞、表皮干细胞、脂肪干细胞等.随着体细胞核移植技术与干细胞培养技术的成熟,两者相结合便产生了核移植来源胚胎干细胞(embryonic stem cells via nuclear transfer,ntES细胞),其不仅用于基础的研究,而且也用于临床医学的组织修复和移植的研究.现就干细胞作为核供体时的核移植效率,ntES细胞系的建立、其性质及诱导分化等的研究进展进行综述. 相似文献
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ABSTRACT: BACKGROUND: During normal development primordial germ cells (PGCs) derived from the epiblast are the precursors of spermatogonia and oogonia. In culture, PGCs can be induced to dedifferentiate to pluripotent embryonic germ (EG) cells in the presence of various growth factors. Several recent studies have now demonstrated that spermatogonial stem cells (SSCs) can also revert back to pluripotency as embryonic stem (ES)-like cells under certain culture conditions. However, the potential dedifferentiation of SSCs into PGCs or the potential generation of oocytes from SSCs has not been demonstrated before. RESULTS: We report that mouse male SSCs can be converted into oocyte-like cells in culture. These SSCs-derived oocytes (SSC-Oocs) were similar in size to normal mouse mature oocytes. They expressed oocyte-specific markers and give rise to embryos through parthenogenesis. Interestingly, the Y- and X-linked testis-specific genes in these SSC-Oocs were significantly down-regulated or turned off, while oocyte-specific X-linked genes were activated. The gene expression profile appeared to switch to that of the oocyte across the X chromosome. Furthermore, these oocyte-like cells lost paternal imprinting but acquired maternal imprinting. CONCLUSIONS: Our data demonstrate that SSCs might maintain the potential to be reprogrammed into oocytes with corresponding epigenetic reversals. This study provides not only further evidence for the remarkable plasticity of SSCs but also a potential system for dissecting molecular and epigenetic regulations in germ cell fate determination and imprinting establishment during gametogenesis. 相似文献