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This review summarizes the cellular bases of the effects of NaCHOleate (2-hydroxyoleic acid; 2OHOA; Minerval) against glioma and other types of tumors. NaCHOleate, activates sphingomyelin synthase (SGMS) increasing the levels of cell membrane sphingomyelin (SM) and diacylglycerol (DAG) together with reductions of phosphatidylethanolamine (PE) and phosphatidylcholine (PC). The increases in the membrane levels of NaCHOleate itself and of DAG induce a translocation and overexpression of protein kinase C (PKC) and subsequent reductions of Cyclin D, cyclin-dependent kinases 4 and 6 (CDKs 4 and 6), hypophosphorylation of the retinoblastoma protein, inhibition of E2F1 and knockdown of dihydrofolate reductase (DHFR) impairing DNA synthesis. In addition in some cancer cells, the increases in SM are associated with Fas receptor (FasR) capping and ligand-free induction of apoptosis. In glioma cell lines, the increases in SM are associated with the inhibition of the Ras/MAPK and PI3K/Akt pathways, in association with p27Kip1 overexpression. Finally, an analysis of the Repository of Molecular Brain Neoplasia Data (REMBRANDT) database for glioma patient survival shows that the weight of SM-related metabolism gene expression in glioma patients' survival is similar to glioma-related genes. Due to its low toxicity and anti-tumoral effect in cell and animal models its status as an orphan drug for glioma treatment by the European Medicines Agency (EMA) was recently acknowledged and a phase 1/2A open label, non-randomized study was started in patients with advanced solid tumors including malignant glioma. This article is part of a Special Issue entitled: Membrane Structure and Function: Relevance in the Cell's Physiology, Pathology and Therapy.  相似文献   
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下肢缺血性疾病是临床常见的严重危害中老年人健康的疾病之一。目前,临床针对下肢缺血性疾病的治疗方法多样,但远 期疗效欠佳,对于肢体严重缺血的患者往往需要进行截肢处理。脂肪干细胞(adipose-derived stemcells, ADSCs)作为再生医学用 于治疗下肢缺血的种子细胞具有广阔的应用前景。本文将对ADSCs 治疗下肢缺血的研究进展进行综述。  相似文献   
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波长选择在荧光光谱仪和显微镜等光学应用中发挥了至关重要的作用。声光可调谐滤波器(AOTF)作为一种电光器件可实现多光源入射波长、功率的同时调制。在声光可调谐滤波器中,压电换能器结合于二氧化碲或石英晶体产生高频声波,改变晶体折射率形成周期性分布。该现象在晶体中生成衍射光栅,使以布拉格角正交入射的光束被高效衍射至一阶光束。当改变施加到晶体的信号频率时将改变折射率变化周期,因此,衍射光的波长随之改变。同时,衍射光强度由施加到晶体的信号振幅决定。本文从声光可调谐滤波器原理和特点出发,总结了声光可调谐滤波器在细胞生物学研究系统中的应用模型。得益于作用时间短、波长分辨率高、无振动部件等特性,声光可调谐滤波器提升了多波长光源功率调制能力,使细胞计数系统具备了细胞高光谱成像能力。所以不仅限于传统细胞生物学研究,包含声光可调谐滤波器件的系统还将在多参数高内涵成像分析、扫描荧光显微术、药物毒理研究等领域成为有力的研究工具。  相似文献   
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目的:探讨间充质干细胞(MSCs)对趋化因子VEGF的定向迁移能力与其分化状态之间的关系。方法:本实验运用采用Percoll分离法在体外培养并扩增大鼠骨髓来源MSCs,应用抗氧化剂诱导方案诱导MSCs向神经样细胞分化,运用Boyden chamber及Dunn chamber趋化性迁移装置研究了在趋化因子VEGF诱导下不同分化状态的间充质干细胞定向迁移,比较了各分化状态下细胞的迁移速度和迁移效率。结果:Boyden chamber实验结果显示下室加入不同浓度VEGF后,不同状态细胞向同一浓度VEGF迁移的数量不同,不同浓度VEGF诱导同一状态细胞的迁移数量也不同;Dunn chamber的实验结果显示在某一分化阶段(预诱导24小时)的MSCs具有更高的迁移效率。结论:MSCs的分化影响了其向VEGF的定向迁移,也就是说,不同分化状态的MSCs显示出不同的迁移行为。  相似文献   
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目的:研究去甲基化药物5-氮杂胞嘧啶核苷(5-Azacytidine,5-Aza-C)对鼻咽癌细胞端粒长度及细胞生长增殖的影响。方法: 常规培养鼻咽癌CNE,CNE1,CNE2 及5-8F细胞系,5-Aza-C 处理鼻咽癌细胞后,甲基化测序聚合酶链反应(MSP)法检测亚端粒 区D4Z4 甲基化,端粒限制性片断检测端粒长度,CCK-8 检测细胞增殖。结果:2.5 uM浓度的5-Aza-C处理后,亚端粒区D4Z4 序 列的甲基化水平明显下降,约在15-20%之间,与处理前的甲基化水平(35-48%)有明显差异,差异均有统计学意义(P < 0.05)。在1 uM和2.5 uM浓度的5-Aza-C 处理后,四种细胞的端粒长度明显缩短,长度在2-4.5kb 之间,差异具有统计学意义(P < 0.05)。5uM 的5-Aza-C处理72 h 后,CNE,CNE1,CNE2 和5-8F 的生存率分别为51.27%,50.46%,48.85%,48.83%,10 uM 的5-azaC 处理72 h 后,CNE,CNE1,CNE2 和5-8F的生存率分别为31.64%,32.34%,30.01%,32.10%,与对照组比较差异有统计学意义(P<0.01)。结 论:5-Aza-C 能缩短端粒长度,抑制鼻咽癌细胞生长增殖活性。  相似文献   
7.
We have recently demonstrated that the PI3K class II-α isoform (PI3K-C2α), which generates phosphatidylinositol 3-phosphate and phosphatidylinositol 3,4-bisphosphates, plays crucial roles in angiogenesis, by analyzing PI3K-C2α knock-out mice. The PI3K-C2α actions are mediated at least in part through its participation in the internalization of VEGF receptor-2 and sphingosine-1-phosphate receptor S1P1 and thereby their signaling on endosomes. TGFβ, which is also an essential angiogenic factor, signals via the serine/threonine kinase receptor complex to induce phosphorylation of Smad2 and Smad3 (Smad2/3). SARA (Smad anchor for receptor activation) protein, which is localized in early endosomes through its FYVE domain, is required for Smad2/3 signaling. In the present study, we showed that PI3K-C2α knockdown nearly completely abolished TGFβ1-induced phosphorylation and nuclear translocation of Smad2/3 in vascular endothelial cells (ECs). PI3K-C2α was necessary for TGFβ-induced increase in phosphatidylinositol 3,4-bisphosphates in the plasma membrane and TGFβ receptor internalization into the SARA-containing early endosomes, but not for phosphatidylinositol 3-phosphate enrichment or localization of SARA in the early endosomes. PI3K-C2α was also required for TGFβ receptor-mediated formation of SARA-Smad2/3 complex. Inhibition of dynamin, which is required for the clathrin-dependent receptor endocytosis, suppressed both TGFβ receptor internalization and Smad2/3 phosphorylation. TGFβ1 stimulated Smad-dependent VEGF-A expression, VEGF receptor-mediated EC migration, and capillary-like tube formation, which were all abolished by either PI3K-C2α knockdown or a dynamin inhibitor. Finally, TGFβ1-induced microvessel formation in Matrigel plugs was greatly attenuated in EC-specific PI3K-C2α-deleted mice. These observations indicate that PI3K-C2α plays the pivotal role in TGFβ receptor endocytosis and thereby Smad2/3 signaling, participating in angiogenic actions of TGFβ.  相似文献   
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The relationship between cellular metabolism and the cell cycle machinery is by no means unidirectional. The ability of a cell to enter the cell cycle critically depends on the availability of metabolites. Conversely, the cell cycle machinery commits to regulating metabolic networks in order to support cell survival and proliferation. In this review, we will give an account of how the cell cycle machinery and metabolism are interconnected. Acquiring information on how communication takes place among metabolic signaling networks and the cell cycle controllers is crucial to increase our understanding of the deregulation thereof in disease, including cancer.  相似文献   
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Cyclin D2 is involved in the pathology of vascular complications of type 2 diabetes mellitus (T2DM). This study investigated the role of cyclin‐D2‐regulated miRNAs in endothelial cell proliferation of T2DM. Results showed that higher glucose concentration (4.5 g/l) significantly promoted the proliferation of rat aortic endothelial cells (RAOECs), and significantly increased the expression of cyclin D2 and phosphorylation of retinoblastoma 1 (p‐RB1) in RAOECs compared with those under low glucose concentration. The cyclin D2‐3′ untranslated region is targeted by miR‐98, as demonstrated by miRNA analysis software. Western blot also confirmed that cyclin D2 and p‐RB1 expression was regulated by miR‐98. The results indicated that miR‐98 treatment can induce RAOEC apoptosis. The suppression of RAOEC growth by miR‐98 might be related to regulation of Bcl‐2, Bax and Caspase 9 expression. Furthermore, the expression levels of miR‐98 decreased in 4.5 g/l glucose‐treated cells compared with those treated by low glucose concentration. Similarly, the expression of miR‐98 significantly decreased in aortas of established streptozotocin (STZ)‐induced diabetic rat model compared with that in control rats; but cyclin D2 and p‐RB1 levels remarkably increased in aortas of STZ‐induced diabetic rats compared with those in healthy control rats. In conclusion, this study demonstrated that high glucose concentration induces cyclin D2 up‐regulation and miR‐98 down‐regulation in the RAOECs. By regulating cyclin D2, miR‐98 can inhibit human endothelial cell growth, thereby providing novel therapeutic targets for vascular complication of T2DM.  相似文献   
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