共查询到20条相似文献,搜索用时 15 毫秒
1.
干细胞具有自我更新和多向分化潜能,在再生医学领域发挥着越来越大的作用。肾脏类器官是一种由干细胞分化而来具有一定肾脏功能的组织结构,可用于肾脏疾病的细胞修复治疗,也可以模拟肾脏发育和疾病发生及用于筛选改善肾功能的药物。肾脏类器官的体外培育成为了当前研究热点,其体外培育可分为几个阶段:干细胞-原始体节中胚层-中间中胚层-输尿管芽(后肾间质)-集合管(肾单位)。本文重点介绍了目前两种较为成熟的肾脏类器官体外诱导方法,并对肾脏类器官的应用前景进行了综述。 相似文献
2.
生殖健康是生命科学领域关注的核心之一,各种原因所致男性不育亟待解决,然而由于伦理限制等原因,缺少合适的具有人类遗传背景的研究模型开展研究。胚胎干细胞(ESCs)和诱导多能干细胞(iPSCs)均属于多能干细胞,具有多向分化潜能。一方面,可利用ESCs?/?iPSCs向生殖细胞分化的模型研究人类生殖细胞的发育规律,另一方面,在此基础上,可建立带有人类疾病遗传背景的iPSCs模型,体外诱导其向雄性生殖细胞分化,利用该模型研究男性不育的发病机制。由于精子在体内的形成遵循一定规律,体外环境中不同发育阶段的生殖细胞在不同诱导因子作用下才可稳定地往下一阶段定向分化,因此,诱导ESCs?/?iPSCs向雄性生殖细胞方向分化时,诱导因子的种类和加入时间的选择应根据生殖细胞的体内发育特征而定,并且在诱导的不同阶段循序加入,以此模拟精子在体内的形成过程,进而更好地研究男性不育的发病机制。本文将对多能干细胞向雄性生殖细胞定向分化的常用诱导因子及存在问题和展望进行综述,为相关研究的开展提供借鉴。 相似文献
3.
The possibility of differentiating bone marrow‐derived mesenchymal stem cells (BMSCs) into tubular epithelial‐like cells is explored in vitro. Purified BMSCs from Sprague–Dawley rats were obtained by density gradient centrifugation. Third generation BMSCs were divided into six groups and were cultured under different conditions. The expression of alkaline phosphatase and cytokeratin (CK)‐18 protein was detected through staining and immunocytochemistry, respectively, and the expression of E‐cadherin proteins was recorded through immunofluorescence. Some cells in ischemia/reperfusion (I/R), all‐trans retinoic acid (ATRA), epidermal growth factor (EGF) and bone morphogenetic protein‐7 (BMP‐7) groups turned positive, whereas the positive cells in the combined group significantly increased compared with the other groups. Compared with the control group, the positive expression rates of CK‐18 in the I/R, ATRA, EGF, BMP‐7 and the combined group were 11·50% ± 3·84%, 27·40% ± 2·70%, 29·60% ± 4·51%, 26·80% ± 5·00% and 44·00% ± 3·16%, respectively, and CK‐18 mRNA expression in the combined group was obviously higher than that in the other groups (P < 0·01). Immunofluorescence detection showed that E‐cadherin expression was not detectable in the control group, whereas the positive expression rates of E‐cadherin in the I/R, ATRA, EGF, BMP‐7 and the combined group were 6·75% ± 2·13%, 16·40% ± 2·69%, 18·25% ± 3·50%, 16·06% ± 2·00% and 30·26% ± 5·16%, respectively. The addition of ATRA, EGF and BMP‐7 induces BMSCs differentiation into tubular epithelial‐like cells in stimulated acute renal failure microenvironment in vitro. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
4.
Kronsteiner B Peterbauer-Scherb A Grillari-Voglauer R Redl H Gabriel C van Griensven M Wolbank S 《Cellular immunology》2011,(1):30-38
Mesenchymal stem cells (MSCs) possess immunosuppressive properties. But also fully differentiated human renal tubular epithelial cells (RTECs) are able to modulate T-cell proliferation in vitro. In this study we compared two MSC populations, human adipose derived stem cells (ASCs) and human amniotic mesenchymal stromal cells (hAMSCs), and RTECs regarding their potential to inhibit monocyte-derived dendritic cell (DC) differentiation and maturation in indirect co-culture.In the presence of hAMSCs and RTECs, monocytes stimulated to undergo DC differentiation were inhibited to acquire surface phenotype of immature and mature DCs. In contrast, ASCs showed only limited suppressive capacity. Secretion of IL-12p70 was suppressed in hAMSC co-cultures and high IL-10 levels were detected in all co-cultures. Prostaglandin E2 was found in ASC and hAMSC co-cultures, whereas soluble human leukocyte antigen-G was highly elevated only in RTEC co-cultures. Thus, inhibition of DC generation by MSCs and RTECs might be mediated by different soluble factors. 相似文献
5.
Daly-Burns B Alam TN Mackay A Clark J Shepherd CJ Rizzo S Tatoud R O'Hare MJ Masters JR Hudson DL 《Differentiation; research in biological diversity》2007,75(1):35-48
In the normal human prostate, undifferentiated proliferative cells reside in the basal layer and give rise to luminal secretory cells. There are, however, few epithelial cell lines that have a basal cell phenotype and are able to differentiate. We set out to develop a cell line with these characteristics that would be suitable for the study of the early stages of prostate epithelial cell differentiation. We produced a matched pair of conditionally immortalized prostate epithelial and stromal cell lines derived from the same patient. The growth of these cells is temperature dependent and differentiation can be induced following a rise in culture temperature. Three-dimensional co-cultures of these cell lines elicited gland-like structures reminiscent of prostatic acini. cDNA microarray analysis of the epithelial line demonstrated changes in gene expression consistent with epithelial differentiation. These genes may prove useful as markers for different prostate cell types. The cell lines provide a model system with which to study the process of prostatic epithelial differentiation and stromal-epithelial interactions. This may prove to be useful in the development of differentiation-targeted prostate cancer therapies. 相似文献
6.
Human pluripotent stem cells (hPSCs), including human embryonic stem cells and human induced pluripotent stem cells, are promising sources for hematopoietic cells due to their unlimited growth capacity and the pluripotency. Dendritic cells (DCs), the unique immune cells in the hematopoietic system, can be loaded with tumor specific antigen and used as vaccine for cancer immunotherapy. While autologous DCs from peripheral blood are limited in cell number, hPSC-derived DCs provide a novel alternative cell source which has the potential for large scale production. This review summarizes recent advances in differentiating hPSCs to DCs through the intermediate stage of hematopoietic stem cells. Step-wise growth factor induction has been used to derive DCs from hPSCs either in suspension culture of embryoid bodies (EBs) or in co-culture with stromal cells. To fulfill the clinical potential of the DCs derived from hPSCs, the bioprocess needs to be scaled up to produce a large number of cells economically under tight quality control. This requires the development of novel bioreactor systems combining guided EB-based differentiation with engineered culture environment. Hence, recent progress in using bioreactors for hPSC lineage-specific differentiation is reviewed. In particular, the potential scale up strategies for the multistage DC differentiation and the effect of shear stress on hPSC differentiation in bioreactors are discussed in detail. 相似文献
7.
8.
Human pluripotent stem cells(hPSCs), including human embryonic stem cells and human induced pluripotent stem cells, are promising sources for hematopoietic cells due to their unlimited growth capacity and the pluripotency. Dendritic cells(DCs), the unique immune cells in the hematopoietic system, can be loaded with tumor specific antigen and used as vaccine for cancer immunotherapy. While autologous DCs from peripheral blood are limited in cell number, hPSC-derived DCs provide a novel alternative cell source which has the potential for large scale production. This review summarizes recent advances in differentiating hPSCs to DCs through the intermediate stage of hematopoietic stem cells. Step-wise growth factor induction has been used to derive DCs from hPSCs either in suspension cultureof embryoid bodies(EBs) or in co-culture with stromal cells. To fulfill the clinical potential of the DCs derived from hPSCs, the bioprocess needs to be scaled up to produce a large number of cells economically under tight quality control. This requires the development of novel bioreactor systems combining guided EB-based differentiation with engineered culture environment. Hence, recent progress in using bioreactors for hPSC lineage-specific differentiation is reviewed. In particular, the potential scale up strategies for the multistage DC differentiation and the effect of shear stress on hPSC differentiation in bioreactors are discussed in detail. 相似文献
9.
In recent years, although the development of clinical therapy for diabetic kidney disease (DKD) has made great progress, the progression of DKD still cannot be controlled. Therefore, further study of the pathogenesis of DKD and improvements in DKD treatment are crucial for prognosis. Traditional studies have shown that podocyte injury plays an important role in this process. Recently, it has been found that glomerulotubular balance and tubuloglomerular feedback (TGF) may be involved in the progression of DKD. Glomerulotubular balance is the specific gravity absorption of the glomerular ultrafiltrate by the proximal tubules, which absorbs only 65% to 70% of the ultrafiltrate. This ensures that the urine volume will not change much regardless of whether the glomerular filtration rate (GFR) increases or decreases. TGF is one of the significant mechanisms of renal blood flow and self‐regulation of GFR, but how they participate in the development of DKD in the pathological state and the specific mechanism is not clear. Injury to tubular epithelial cells (TECs) is the key link in DKD. Additionally, injury to glomerular endothelial cells (GECs) plays a key role in the early occurrence and development of DKD. However, TECs and GECs are close to each other in anatomical position and can crosstalk with each other, which may affect the development of DKD. Therefore, the purpose of this review was to summarize the current knowledge on the crosstalk between TECs and GECs in the pathogenesis of DKD and to highlight specific clinical and potential therapeutic strategies. 相似文献
10.
11.
Nicholas Ferrell Ravi R. Desai Aaron J. Fleischman Shuvo Roy H. David Humes William H. Fissell 《Biotechnology and bioengineering》2010,107(4):707-716
We have developed a bilayer microfluidic system with integrated transepithelial electrical resistance (TEER) measurement electrodes to evaluate kidney epithelial cells under physiologically relevant fluid flow conditions. The bioreactor consists of apical and basolateral fluidic chambers connected via a transparent microporous membrane. The top chamber contains microfluidic channels to perfuse the apical surface of the cells. The bottom chamber acts as a reservoir for transport across the cell layer and provides support for the membrane. TEER electrodes were integrated into the device to monitor cell growth and evaluate cell–cell tight junction integrity. Immunofluorescence staining was performed within the microchannels for ZO‐1 tight junction protein and acetylated α‐tubulin (primary cilia) using human renal epithelial cells (HREC) and MDCK cells. HREC were stained for cytoskeletal F‐actin and exhibited disassembly of cytosolic F‐actin stress fibers when exposed to shear stress. TEER was monitored over time under normal culture conditions and after disruption of the tight junctions using low Ca2+ medium. The transport rate of a fluorescently labeled tracer molecule (FITC‐inulin) was measured before and after Ca2+ switch and a decrease in TEER corresponded with a large increase in paracellular inulin transport. This bioreactor design provides an instrumented platform with physiologically meaningful flow conditions to study various epithelial cell transport processes. Biotechnol. Bioeng. 2010;107:707–716. © 2010 Wiley Periodicals, Inc. 相似文献
12.
Neural cells differentiated from pluripotent stem cells (PSCs), including both embryonic stem cells and induced pluripotent stem cells, provide a powerful tool for drug screening, disease modeling and regenerative medicine. High-purity oligodendrocyte progenitor cells (OPCs) and neural progenitor cells (NPCs) have been derived from PSCs recently due to the advancements in understanding the developmental signaling pathways. Extracellular matrices (ECM) have been shown to play important roles in regulating the survival, proliferation, and differentiation of neural cells. To improve the function and maturation of the derived neural cells from PSCs, understanding the effects of ECM over the course of neural differentiation of PSCs is critical. During neural differentiation of PSCs, the cells are sensitive to the properties of natural or synthetic ECMs, including biochemical composition, biomechanical properties, and structural/topographical features. This review summarizes recent advances in neural differentiation of human PSCs into OPCs and NPCs, focusing on the role of ECM in modulating the composition and function of the differentiated cells. Especially, the importance of using three-dimensional ECM scaffolds to simulate the in vivo microenvironment for neural differentiation of PSCs is highlighted. Future perspectives including the immediate applications of PSC-derived neural cells in drug screening and disease modeling are also discussed. 相似文献
13.
Sasha Cai Lesher-Perez John P. Frampton Prof. Shuichi Takayama 《Biotechnology journal》2013,8(2):180-191
Conventional culture systems are often limited in their ability to regulate the growth and differentiation of pluripotent stem cells. Microfluidic systems can overcome some of these limitations by providing defined growth conditions with user-controlled spatiotemporal cues. Microfluidic systems allow researchers to modulate pluripotent stem cell renewal and differentiation through biochemical and mechanical stimulation, as well as through microscale patterning and organization of cells and extracellular materials. Essentially, microfluidic tools are reducing the gap between in vitro cell culture environments and the complex and dynamic features of the in vivo stem cell niche. These microfluidic culture systems can also be integrated with microanalytical tools to assess the health and molecular status of pluripotent stem cells. The ability to control biochemical and mechanical input to cells, as well as rapidly and efficiently analyze the biological output from cells, will further our understanding of stem cells and help translate them into clinical use. This review provides a comprehensive insignt into the implications of microfluidics on pluripotent stem cell research. 相似文献
14.
Neural cells differentiated from pluripotent stem cells(PSCs), including both embryonic stem cells and induced pluripotent stem cells, provide a powerful tool for drug screening, disease modeling and regenerative medicine. High-purity oligodendrocyte progenitor cells(OPCs) and neural progenitor cells(NPCs) have been derived from PSCs recently due to the advancements in understanding the developmental signaling pathways. Extracellular matrices(ECM) have been shown to play important roles in regulating the survival, proliferation, and differentiation of neural cells. To improve the function and maturation of the derived neural cells from PSCs, understanding the effects of ECM over the course of neural differentiation of PSCs is critical. During neural differentiation of PSCs, the cells are sensitive to the properties of natural or synthetic ECMs, including biochemical composition, biomechanical properties, and structural/topographical features. This review summarizes recent advances in neural differentiation of humanPSCs into OPCs and NPCs, focusing on the role of ECM in modulating the composition and function of the differentiated cells. Especially, the importance of using three-dimensional ECM scaffolds to simulate the in vivo microenvironment for neural differentiation of PSCs is highlighted. Future perspectives including the immediate applications of PSC-derived neural cells in drug screening and disease modeling are also discussed. 相似文献
15.
胚胎干细胞是一种能够维持自我更新、具有无限扩增能力的多能性干细胞。灵长类多能干细胞(iPSCs)根据其发育能力、细胞形态、基因表达谱以及表观遗传学的差异分为初始态多能干细胞(pPSCs)和原始态多能干细胞(nPSCs)。nPSCs因其容易进行基因工程处理以及体内外再生出功能组织器官等优势而在临床潜在应用上备受关注,因而有效维持ESCs的原始状态对其用于基础及临床研究具有重要意义。nPSCs的线粒体活性和自我更新能力高于pPSCs,且这两种多能性干细胞在DNA甲基化等方面都存在明显差别,DNA甲基化在nPSCs的转化及代谢中起到重要的作用。本文综述了DNA甲基化对ESCs的作用,特别是维持原始态的作用。 相似文献
16.
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。 相似文献
17.
18.
The emergence of hepatocyte based clinical and pharmaceutical technologies, has been limited by the absence of a stable hepatocyte cell source. Embryonic stem cells may represent a potential solution to this cell source limitation problem since they are highly proliferative, renewable, and pluripotent. Although many investigators have described techniques to effectively differentiate stem cells into a variety of mature cell lineages, their practicality is limited by: (1) low yields of fully differentiated cells, (2) absence of large scale processing considerations, and (3) ineffective downstream enrichment protocols. Thus, a differentiation platform that may be modified to induce and sustain differentiated cell function and scaled to increase differentiated cell yield would improve current stem cell differentiation strategies. Microencapsulation provides a vehicle for the discrete control of key cell culture parameters such as the diffusion of growth factors, metabolites, and wastes. In addition, both cell seeding density and bead composition may be manipulated. In order to assess the feasibility of directing stem cell differentiation via microenvironment regulation, we have developed a murine embryonic stem cell (ES) alginate poly-l-lysine microencapsulation hepatocyte differentiation system. Our results indicate that the alginate microenvironment maintains cell viability, is conducive to ES cell differentiation, and maintains differentiated cellular function. This system may ultimately assist in developing scalable stem cell differentiation strategies. 相似文献
19.
20.
Jongjin Park Dong Gwang Lee Na Geum Lee Min-Gi Kwon Yeon Sung Son Mi-Young Son Kwang-Hee Bae Jangwook Lee Jong-Gil Park Nam-Kyung Lee Jeong-Ki Min 《BMB reports》2022,55(3):142
Human pluripotent stem cells (PSCs) have been utilized as a promising source in regenerative medicine. However, the risk of teratoma formation that comes with residual undifferentiated PSCs in differentiated cell populations is most concerning in the clinical use of PSC derivatives. Here, we report that a monoclonal antibody (mAb) targeting PSCs could distinguish undifferentiated PSCs, with potential teratoma-forming activity, from differentiated PSC progeny. A panel of hybridomas generated from mouse immunization with H9 human embryonic stem cells (hESCs) was screened for ESC-specific binding using flow cytometry. A novel mAb, K312, was selected considering its high stem cell-binding activity, and this mAb could bind to several human induced pluripotent stem cells and PSC lines. Cell-binding activity of K312 was markedly decreased as hESCs were differentiated into embryoid bodies or by retinoic acid treatment. In addition, a cell population negatively isolated from undifferentiated or differentiated H9 hESCs via K312 targeting showed a significantly reduced expression of pluripotency markers, including Oct4 and Nanog. Furthermore, K312-based depletion of pluripotent cells from differentiated PSC progeny completely prevented teratoma formation. Therefore, our findings suggest that K312 is utilizable in improving stem cell transplantation safety by specifically distinguishing residual undifferentiated PSCs. 相似文献