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α-连环蛋白(α-catenin)可将钙粘素/B连环蛋白(cadherin/β-catenin)复合体连接于肌动蛋白丝(actinfilament,F-actin),为细胞表面黏附分子与细胞骨架提供了稳固的机械连接。近年,人们对α—catenin的研究发现,其作用不仅仅是稳固cadherin/catenin的结构、参与细胞黏附,还在肿瘤细胞侵袭、迁移中发挥着重要作用。此外,α-catenin还可能参与cadherin/catenin与Ras/MAPK,NF—KB和Wnt等通路之间的串话,涉及了细胞的膜动态、增殖和凋亡的调节。 相似文献
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NF—κB已被证明在肿瘤和炎症过程中起到至关重要的作用。因此,建立抑制NF-κB信号通路的药物筛选模型至关重要。利用荧光素酶报告基因技术与蛋白印迹技术分别探索TNFα处理浓度及时间对NF-κB报告基因表达和NF—κB抑制亚单位It〈Bα降解的影响,进而构建NF—κB信号通路抑制剂药物筛选模型。实验结果表明,0.01nmol/LTNFα作用24h即能刺激HEK293T细胞中NF—κB报告基因较高水平的表达,且其表达量与TNFα的剂量和处理时间呈正相关性;0.01nmol/LTNFα作用5min即能使Panc-28细胞中IκBα明显降解,20min~30min几乎降解完全,之后IκBα含量又开始增加。NF-κB阳性抑制剂藤黄酸验证表明NF-κB萤光素酶报告基因检测筛选体系和NF—κB抑制亚单位降解筛选体系两种体系稳定可行。结果证明,两种模型可以用于NF—κB信号通路抑制剂药物的筛选。 相似文献
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探讨绿脓菌素对人气道上皮细胞株(NCI—H292细胞)表达IL-8的诱导作用及通过NF—κB信号传导通路。采用ELISA法对PCN诱导NCI-H292细胞分泌IL-8进行分析,应用westernblotting检测NF-κB的蛋白表达,观察NF—κB阻断剂对IL-8表达的影响。PCN可促进NCI-H292细胞IL-8分泌。NF—κB的阻断剂PDTC能显著抑制IL培表达(P〈0.01)。PCN可能通过NF-κB信号通路诱导呼吸道上皮细胞IL-8表达。 相似文献
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肿瘤坏死因子(tumor necrosis factor,TNF)受体相关因子(receptor-associated factor,TRAF)家族是一类胞内接头蛋白,能介导TNF受体和Toll-like/IL-1受体超家族成员与多种下游信号通路包括NF—κB(nuclear factor κB)和JNK(Jun N-terminal kinase)的信号传导。TRAF蛋白家族参与调控细胞增殖、分化乃至凋亡等生理过程。由于其在信号通路中的关键作用,TRAFS蛋白的失调与多种疾病的发生相关。本文结合最新的研究进展对TRAFs蛋白家族在信号传导通路中的地位进行介绍,并探讨了TRAFs及其相关蛋白在临床上可能的应用前景。 相似文献
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Wnt和MAPK信号通路在生物进化过程中高度保守,参与调控胚胎发育和细胞增殖、分化及凋亡等。Wnt和MAPK信号通路调控失常可导致胚胎发育异常和肿瘤形成。近年来发现这两条信号通路在肿瘤发生发展中存在着大量串话(crosstalk),彼此之间相互调节,共同发挥促癌或抑癌作用,因此,更好地了解两条通路是如何在肿瘤形成中发生交叉对话对于将来肿瘤治疗非常有价值。 相似文献
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运动等机械负荷在骨骼内由局部信号转化为生化信号参与调控骨代谢进程。机械指令借助可感知应力刺激的转录共激活因子YAP/TAZ得以在细胞核中发挥效用,这一发现揭示了力学传导驱动生理、病理状态下的细胞行为学原理。近期研究证实,YAP/TAZ与Wnt/β-连环蛋白(β-catenin)、Notch等骨代谢通路之间存在串话现象,并影响多种骨组织细胞的分化及功能。深入探讨YAP/TAZ在骨代谢过程中的机制作用,对于骨组织疾病的预防和治疗具有重要意义。该文从YAP/TAZ对机械应力的感知作用入手,分析YAP/TAZ与Wnt/β-连环蛋白、Notch通路的相关性,并对其在骨组织细胞领域的研究进行概述。 相似文献
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NF—κB因其广泛参与机体的免疫及其它应激反应而受到人们的关注,其常见的形式是由p50和p65组成的异源二聚体。细胞受到外部因素刺激后,NF-κB由细胞质转移到细胞核中,并发生磷酸化和乙酰化,启动相关基因的表达。目前研究表明受NF-κB调节的基因有200多种,其激活因子不少于150种,所以对NF-κB在各种条件下的激活过程及信号传导网络的研究具有重要的意义。本文综合了当前关于NF—κB研究的最新进展,着重阐述了由TNF-α、IL-Ⅰ及LPS刺激而引起NF—κB激活的信号传导通路,并进一步阐述了其在人类某些疾病当中的生物学功能。 相似文献
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目的:通过检测人类软骨蛋白39(YKL-40)和核转录因子KappaB(NF—KB)在子宫内膜异位症组织中的表达,探讨二者与子宫内膜异位症的关系及二者的相关性。方法:用免疫组化二步法检测40例子宫内膜异位症(EMS)患者的异位内膜和在位内膜及40例子宫肌瘤患者子宫内膜(对照组)YKL-40和NF—KB的表达,并对检测结果进行统计学分析。结果:YKL-40、NF—KB在子宫内膜异位症患者的异位和在位内膜及对照组内膜中的表达率分别为67.5%、62.5%、35%及88.5%、57.5%、32.5%,差异有统计学意义(P〈0.01);在不同月经周期YKL-40表达无统计学意义;在位内膜和正常内膜NF-KB的表达分泌期高于增殖期,差异有统计学意义(P〈0.05);YKL-40和NF-KB在三种内膜中的表达具有正相关性,相关系数分别是0.305,0.267和0.457(P〈0.01)。结论:YKL-40和NF—KB在EMS发生发展中起重要的作用。 相似文献
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Van Beek M Oravecz-Wilson KI Delekta PC Gu S Li X Jin X Apel IJ Konkle KS Feng Y Teitelbaum DH Ruland J McAllister-Lucas LM Lucas PC 《Cell reports》2012,1(5):444-452
Excess serum free fatty acids (FFAs) are fundamental to the pathogenesis of insulin resistance. With high-fat feeding, FFAs activate NF-kB in target tissues, initiating negative crosstalk with insulin signaling. However, the mechanisms underlying FFA-dependent NF-kB activation remain unclear. Here, we demonstrate that the saturated FA, palmitate, requires Bcl10 for NF-kB activation in hepatocytes. Uptake of palmitate, metabolism to diacylglycerol, and subsequent activation of protein kinase C (PKC) appear to mechanistically link palmitate with Bcl10, known as a central component of a signaling complex that, along with CARMA3 and MALT1, activates NF-kB downstream of selected cell surface receptors. Consequently, Bcl10-deficient mice are protected from hepatic NF-kB activation and insulin resistance following brief high-fat diet, suggesting that Bcl10 plays a major role in the metabolic consequences of acute overnutrition. Surprisingly, while CARMA3 also participates in the palmitate response, MALT1 is completely dispensable, thereby revealing an apparent nonclassical role for Bcl10 in NF-kB signaling. 相似文献
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K Veskimäe M Scaravilli W Niininen H Karvonen S Jaatinen M Nykter T Visakorpi J Mäenpää D Ungureanu S Staff 《Translational oncology》2018,11(5):1160-1170
Ovarian cancer has the highest mortality rate of all gynecologic malignancies. Identification of new biomarkers is highly needed due to its late diagnosis and high recurrence rate. The objective of this study was to identify mechanisms of therapy resistance and potential biomarkers by analyzing mRNA and protein expression from samples derived from patients with platinum-sensitive and -resistant ovarian cancer (total cohort n?=?53). The data revealed new candidates for targeted therapies, such as GREB1 and ROR2. We showed that the development of platinum resistance correlated with upregulation of ROR2, whereas GREB1 was downregulated. Moreover, we demonstrated that high levels of ROR2 in platinum-resistant samples were associated with upregulation of Wnt5a, STAT3 and NF-kB levels, suggesting that a crosstalk between the non-canonical Wnt5a-ROR2 and STAT3/NF-kB signaling pathways. Upregulation of ROR2, Wnt5a, STAT3 and NF-kB was further detected in a platinum-resistant cell-line model. The results of the present study provided insight into molecular mechanisms associated with platinum resistance that could be further investigated to improve treatment strategies in this clinically challenging gynecological cancer. 相似文献
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Anu Kauppinen Tiina Suuronen Johanna Ojala Kai Kaarniranta Antero Salminen 《Cellular signalling》2013,25(10):1939-1948
Recent studies have indicated that the regulation of innate immunity and energy metabolism are connected together through an antagonistic crosstalk between NF-κB and SIRT1 signaling pathways. NF-κB signaling has a major role in innate immunity defense while SIRT1 regulates the oxidative respiration and cellular survival. However, NF-κB signaling can stimulate glycolytic energy flux during acute inflammation, whereas SIRT1 activation inhibits NF-κB signaling and enhances oxidative metabolism and the resolution of inflammation. SIRT1 inhibits NF-κB signaling directly by deacetylating the p65 subunit of NF-κB complex. SIRT1 stimulates oxidative energy production via the activation of AMPK, PPARα and PGC-1α and simultaneously, these factors inhibit NF-κB signaling and suppress inflammation. On the other hand, NF-κB signaling down-regulates SIRT1 activity through the expression of miR-34a, IFNγ, and reactive oxygen species. The inhibition of SIRT1 disrupts oxidative energy metabolism and stimulates the NF-κB-induced inflammatory responses present in many chronic metabolic and age-related diseases. We will examine the molecular mechanisms of the antagonistic signaling between NF-κB and SIRT1 and describe how this crosstalk controls inflammatory process and energy metabolism. In addition, we will discuss how disturbances in this signaling crosstalk induce the appearance of chronic inflammation in metabolic diseases. 相似文献
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Regulation of cytokine signaling pathways by PIAS proteins 总被引:3,自引:0,他引:3
Shuai K 《Cell research》2006,16(2):196-202
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The progression of cancer is associated with tumor's ability to outgrow the existing vasculature resulting in chronic hypoxic pressure, however the molecular mechanism of cancer cell response to chronic hypoxia is poorly understood. In this study we have analyzed the reorganization of estrogen receptor (ER) signaling in breast cancer cells under chronic hypoxia and examined the role of interrelations between ER and NF-kB signaling in cell adaptation to hypoxia. Using long-term culturing of MCF-7 breast cancer cells in hypoxia-mimetic conditions (cobalt chloride) we have established a hypoxia-tolerant subline characterized by HIF-1 hyperexpression that retained the tolerance to hypoxia even when the cells were returned to normoxic conditions.The hypoxia-tolerant cells were characterized by non-affected ER signaling, irreversible suppression of NF-kB activity, and increased sensitivity to cytokine-induced apoptosis. Estradiol treatment suppressed the NF-kB activity in both parent and hypoxia-tolerant MCF-7 cells. In contrast to MCF-7 cells, the exposure of estrogen-independent MCF-7/T2 subline to chronic hypoxia was not accompanied by noticeable changes in NF-kB activity or cell sensitivity to cytokines. Taken together, the results presented demonstrate the importance of interrelations between ER and NF-kB signaling in the response of estrogen-dependent breast cancer cells to chronic hypoxia. 相似文献
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ABSTRACT: BACKGROUND: Promyelocytic leukemia protein (PML) is a tumor suppressor that is highly expressed in endothelial cells nonetheless its role in endothelial cell biology remains elusive. Tumor necrosis factor alpha TNF-a is an important cytokine associated with many inflammation-related diseases. We have previously demonstrated that TNF-a induces PML protein accumulation. We hypothesized that PML may play a role in TNF-a signaling pathway. To identify potential PML target genes and investigate the putative crosstalk between PML's function and TNF-a signaling in endothelial cells, we carried out a microarray analysis in human primary umbilical endothelial cells (HUVECs). RESULTS: We found that PML and TNF-a regulate common and distinct genes involved in a similar spectrum of biological processes, pathways and human diseases. More importantly, we found that PML is required for fine-tuning of TNF-a-mediated immune and inflammatory responses. Furthermore, our data suggest that PML and TNF-a synergistically regulate cell adhesion by engaging multiple molecular mechanisms. Our biological functional assays exemplified that adhesion of U937 human leukocytes to HUVECs is co-regulated by PML and TNF-a signaling. CONCLUSIONS: Together, our study identified PML as an essential regulator of TNF-a signaling by revealing the crosstalk between PML knockdown-mediated effects and TNF-a-elicited signaling, thereby providing novel insights into TNF-a signaling in endothelial cells. 相似文献
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Rafal Zielinski Pawel F Przytycki Jie Zheng David Zhang Teresa M Przytycka Jacek Capala 《BMC systems biology》2009,3(1):88-10
Background
Cellular response to external stimuli requires propagation of corresponding signals through molecular signaling pathways. However, signaling pathways are not isolated information highways, but rather interact in a number of ways forming sophisticated signaling networks. Since defects in signaling pathways are associated with many serious diseases, understanding of the crosstalk between them is fundamental for designing molecularly targeted therapy. Unfortunately, we still lack technology that would allow high throughput detailed measurement of activity of individual signaling molecules and their interactions. This necessitates developing methods to prioritize selection of the molecules such that measuring their activity would be most informative for understanding the crosstalk. Furthermore, absence of the reaction coefficients necessary for detailed modeling of signal propagation raises the question whether simple parameter-free models could provide useful information about such pathways. 相似文献19.
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Obesity is featured by chronic systemic low-grade inflammation that eventually contributes to the development of insulin resistance. Toll-like receptor 4 (TLR4) is an important mediator that triggers the innate immune response by activating inflammatory signaling cascades. Human, animal and cell culture studies identified saturated fatty acids (SFAs), the dominant non-esterified fatty acid (NEFA) in the circulation of obese subjects, as non-microbial agonists that trigger the inflammatory response via activating TLR4 signaling, which acts as an important causative link between fatty acid overload, chronic low-grade inflammation and the related metabolic aberrations. The interaction between SFAs and TLR4 may be modulated through the myeloid differentiation primary response gene 88-dependent and independent signaling pathway. Greater understanding of the crosstalk between dietary SFAs and TLR4 signaling in the pathogenesis of metabolic imbalance may facilitate the design of a more efficient pharmacological strategy to alleviate the risk of developing chronic diseases elicited in part by fatty acid overload. The current review discusses recent advances in the impact of crosstalk between SFAs and TLR4 on inflammation and insulin resistance in multiple cell types, tissues and organs in the context of metabolic dysregulation. 相似文献