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温玉刚王权彭志海 《现代生物医学进展》2011,11(13):2590-2593
RAS相关结构域家族(Ras Association Domain Family,RASSFs)由10个成员组成,参与不同的细胞内机制如凋亡、细胞周期控制、微管稳定性等,一些家族成员表现出肿瘤抑制功能。目前发现RASSF6在肺癌、宫颈癌等实体瘤中表达下调,可能与肿瘤形成有关,并可作为肿瘤治疗的潜在靶点。本文就RASSF6与肿瘤的研究进展进行综述。 相似文献
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肿瘤抑制因子Ras相关结构域家族成员1A(Ras association domain family 1A,RASSF1A)是Ras超家族蛋白重要的下游效应因子,具有调控自噬及凋亡的作用。自噬及凋亡是影响机体生存发育的重要生命过程,其调节紊乱与肿瘤的发生发展密切相关。本文针对RASSF1A对自噬及凋亡的调节机制及其与肿瘤发生发展之间的关系展开综述,分析翻译后修饰对于RASSF1A调节自噬及凋亡过程中功能切换的作用,探讨自噬及凋亡在肿瘤发生中的调节作用,以期为RASSF1A启动子高甲基化型肿瘤的治疗提供新思路。 相似文献
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结缔组织生长因子家族是一类富含半胱氨酸的保守的调节蛋白家族。本文介绍了该家族成员的结构、功能和相关疾病的联系等方面的研究进展。结缔组织生长因子家族的成员具有极其显著的序列同源性,它们与调节细胞的增殖、分化、胚胎形成和伤口愈合等有关。家族中的某些成员与硬皮病、动脉粥样硬化、肿瘤等疾病的发生发展亦有着十分重要的联系,因而具有较高的研究价值。 相似文献
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TNF受体家族介导的细胞凋亡信号转导 总被引:4,自引:0,他引:4
肿瘤坏死因子(TNF)家族是一类多功能的细胞因子,具有诱导细胞凋亡、抗病毒、免疫调节等多种生物学活性.其中一些成员可以通过和细胞膜上相应受体(即TNF受体家族成员)结合,启动细胞内的凋亡机制,而诱导细胞凋亡.一些蛋白质(如TRADD、FADD、RIP、RAIDD等)参与这些信号传递过程.越来越多的TNF家族成员、TNF受体以及与细胞凋亡相关的Caspase蛋白酶家族成员被人们发现. 相似文献
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细胞程序性死亡因子(programmed cell death,PDCD)是一类与肿瘤发展相关并在进化上高度保守的蛋白质。PDCD家族由多个成员构成。其中,研究较为深入的包括PDCD1、PDCD2、PDCD4、PDCD5、PDCD6、PDCD7、PDCD8及PDCD10。PDCD在人类的各组织及细胞中广泛分布,其主要功能是对细胞凋亡的调控。目前研究发现,PDCD家族成员可通过不同信号通路实现对肿瘤细胞活力的调控,且某些家族成员的缺失或过表达都会引起机体发生病变,证明其在多种疾病当中具有重要作用。本文汇总了PDCD1、PDCD2、PDCD4、PDCD5、PDCD6、PDCD7、PDCD8、PDCD9、PDCD10、PDCD11、PDCD12的基因结构与蛋白质结构,介绍了各家族成员在细胞程序性死亡过程中的关系,并总结目前所报道的PDCD家族成员在肿瘤,以及多种疾病中所发挥的调控作用,以期帮助科研工作者了解其在细胞凋亡中的作用,以及为肿瘤和相关疾病发生发展的分子机制提供参考。 相似文献
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在过去的一个多世纪,许多肿瘤标志物被发现,其中包括多肽N-乙酰半乳糖胺基转移酶(polypeptide N-acetylgalactosaminyltransferase,ppGALNAc-T,简称GALNT)家族中的多个成员。GALNT家族是催化黏蛋白O-糖基化修饰的起始酶,其能够影响黏蛋白的O-糖基化,从而影响肿瘤细胞的发生、预后、增殖与迁移等。GALNT14是该家族中最新发现的成员之一,近年的研究发现,GALNT14在多种肿瘤中表达异常,并与肿瘤细胞的发生、侵袭、转移和凋亡等有关。本文主要对GALNT14蛋白的结构特点及其在肿瘤中的作用进行综述,为进一步研究GALNT14与肿瘤发病机制的关系以及作为潜在的药物靶点提供参考。 相似文献
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目的:分析骨肉瘤组织中RASSF1A基因甲基化状况。方法:运用甲基化特异性PCR(MSP)分别检测44例骨肉瘤组织及相应的癌旁组织中RASSF1A基因启动子甲基化状态并分析其临床病理意义。结果:骨肉瘤组织中RASSF1A基因异常甲基化率(61.4%)显著高于癌旁正常骨组织中RASSF1A基因的异常甲基化率(20.5%),二者之间差异具有统计学意义(P〈0.05)。RASSF1A基因异常甲基化导致组织中RASSF1A基因mRNA和蛋白表达水平均显著降低。另外,RASSF1A基因异常甲基化和肿瘤组织分化程度及全身有无转移情况有相关性(P值分别为0.022和0.016),而与患者年龄、性别、肿瘤位置及大小等临床特征无关(P值分别为0.6944,0.977,0.786和0.831)。结论:RASSF1A基因启动子高甲基化可能是导致其在骨肉瘤中表达水平降低的分子机制之一,有望成为骨肉瘤早期辅助诊断的一个重要分子标志物。 相似文献
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目的:探讨p16基因和RASSF1A基因甲基化与肺癌发生发展的关系和应用于诊断的意义。方法:采用甲基化特异性PCR(Methylation Specific PCR,MSP)检测120例周边型非小细胞肺癌患者癌组织、痰液脱落细胞和120例非肺癌人群的痰液脱落细胞中p16基因和RASSF1A基因甲基化,分析它们与临床特征的关系以及非肺癌人群与肿瘤患者之间的差异。结果:(1)120例周边型非小细胞肺癌组织中,p16基因甲基化率46.7%(56例),RASSF1A基因甲基化率53.3%(64例)。P16和RASSF1A基因甲基化与吸烟程度、肿瘤大小和临床分期正相关(P<0.05)。(2)肺癌痰液脱落细胞中有28例p16基因出现甲基化(23.3%),20例RASSF1A基因出现甲基化(16.7%),其中32例至少存在一个基因的甲基化(26.7%);66例重度吸烟者中只有4例痰液脱落细胞出现p16基因甲基化(6%),4例出现RASSF1A基因甲基化(6%);54例非重度吸烟正常人中仅有2例出现p16基因甲基化(3.7%),RASSF1A基因无甲基化。(3)液基痰细胞病理学检查与痰脱落细胞p16和RASSF1a基因甲基化检测结合起来可有效提高诊断的灵敏度(P<0.05)。结论:烟草可能具有潜在的诱导抑癌基因p16和RASSF1A发生甲基化的作用;p16和RASSF1A基因甲基化可能参与肺癌的生长过程。痰脱落细胞p16和RASSF1a基因甲基化检测结合液基痰细胞病理学诊断,可提高非小细胞肺癌诊断的灵敏度。 相似文献
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《Epigenetics》2013,8(3):284-292
Epigenetic inactivation of tumor suppressor genes is a hallmark of cancer development. RASSF1A (Ras Association Domain Family 1 isoform A) tumor suppressor gene is one of the most frequently epigenetically inactivated genes in a wide range of adult and children’s cancers and could be a useful molecular marker for cancer diagnosis and prognosis. RASSF1A has been shown to play a role in several biological pathways, including cell cycle control, apoptosis and microtubule dynamics. RASSF2, RASSF4, RASSF5 and RASSF6 are also epigenetically inactivated in cancer but have not been analysed in as wide a range of malignancies as RASSF1A. Recently four new members of the RASSF family were identified these are termed N-Terminal RASSF genes (RASSF7-RASSF10). Molecular and biological analysis of these newer members has just begun. This review highlights what we currently know in respects to structural, functional and molecular properties of the N-Terminal RASSFs. 相似文献
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Epigenetic inactivation of tumor suppressor genes is a hallmark of cancer development. RASSF1A (Ras Association Domain Family 1 isoform A) tumor suppressor gene is one of the most frequently epigenetically inactivated genes in a wide range of adult and children''s cancers and could be a useful molecular marker for cancer diagnosis and prognosis. RASSF1A has been shown to play a role in several biological pathways, including cell cycle control, apoptosis and microtubule dynamics. RASSF2, RASSF4, RASSF5 and RASSF6 are also epigenetically inactivated in cancer but have not been analyzed in as wide a range of malignancies as RASSF1A. Recently four new members of the RASSF family were identified these are termed N-Terminal RASSF genes (RASSF7–RASSF10). Molecular and biological analysis of these newer members has just begun. This review highlights what we currently know in respects to structural, functional and molecular properties of the N-Terminal RASSFs.Key words: N-terminal RASSF, RAS, cancer, epigenetic, tumor suppressor 相似文献
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Hua Wang Bianbian Yan Pan Zhang Shuzhen Liu Qiqi Li Jin Yang Fangfang Yang Erfei Chen 《Journal of cellular physiology》2020,235(2):1469-1479
Aberrant loss of tumor-suppressor genes plays a crucial role in tumorigenesis and development of colorectal cancer (CRC). Extensive studies have reported tha hypermethylation of Ras association domain family member 6 (RASSF6) is common in various solid tumors. Another important mode of epigenetic regulation, microRNA (miRNA) regulation of RASSF6, is far from clear. The aim of the present work was to screen out novel miRNA regulating RASSF6, and to explore its underlying mechanism in CRC. With the use of bioinformatics, clinical sample data, and luciferase binding assay, we determined that microRNA-496 (miR-496) could be a novel oncomiR that directly binds to RASSF6. Next, a series of miR-496 mimics or inhibitor, or RASSF6 small interfering RNA (siRNA) introduced into CRC cells were applied to examine the effect of miR-496 on CRC cell viability, migration, and epithelial-mesenchymal transition (EMT). The results demonstrated that miR-496/RASSF6 could promote cell migration and EMT via Wnt signaling activation, but had no effect on cell viability. Our results confirmed that the miR-496/RASSF6 axis is involved in Wnt pathway-mediated tumor metastasis, highlighting its potential as a therapeutic target for CRC. 相似文献
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Jessica J Mezzanotte Victoria Hill M Lee Schmidt Thoraia Shinawi Stella Tommasi Dietmar Krex Gabriele Schackert Gerd P Pfeifer Farida Latif Geoffrey J Clark 《Epigenetics》2014,9(11):1496-1503
Brain metastasis is a major contributor to cancer mortality, yet, the genetic changes underlying the development of this capacity remain poorly understood. RASSF proteins are a family of tumor suppressors that often suffer epigenetic inactivation during tumorigenesis. However, their epigenetic status in brain metastases has not been well characterized. We have examined the promoter methylation of the classical RASSF members (RASSF1A-RASSF6) in a panel of metastatic brain tumor samples. RASSF1A and RASSF2 have been shown to undergo promoter methylation at high frequency in primary lung and breast tumors and in brain metastases. Other members exhibited little or no methylation in these tumors. In examining melanoma metastases, however, we found that RASSF6 exhibits the highest frequency of inactivation in melanoma and in melanoma brain metastases. Most melanomas are driven by an activating mutation in B-Raf. Introduction of RASSF6 into a B-RafV600E-containing metastatic melanoma cell line inhibited its ability to invade through collagen and suppressed MAPK pathway activation and AKT. RASSF6 also appears to increase the association of mutant B-Raf and MST1, providing a potential mechanism by which RASSF6 is able to suppress MAPK activation. Thus, we have identified a novel potential role for RASSF6 in melanoma development. Promoter methylation leading to reduced expression of RASSF6 may play an important role in melanoma development and may contribute to brain metastases. 相似文献
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《Epigenetics》2013,8(11):1496-1503
Brain metastasis is a major contributor to cancer mortality, yet, the genetic changes underlying the development of this capacity remain poorly understood. RASSF proteins are a family of tumor suppressors that often suffer epigenetic inactivation during tumorigenesis. However, their epigenetic status in brain metastases has not been well characterized. We have examined the promoter methylation of the classical RASSF members (RASSF1A-RASSF6) in a panel of metastatic brain tumor samples. RASSF1A and RASSF2 have been shown to undergo promoter methylation at high frequency in primary lung and breast tumors and in brain metastases. Other members exhibited little or no methylation in these tumors. In examining melanoma metastases, however, we found that RASSF6 exhibits the highest frequency of inactivation in melanoma and in melanoma brain metastases. Most melanomas are driven by an activating mutation in B-Raf. Introduction of RASSF6 into a B-RafV600E-containing metastatic melanoma cell line inhibited its ability to invade through collagen and suppressed MAPK pathway activation and AKT. RASSF6 also appears to increase the association of mutant B-Raf and MST1, providing a potential mechanism by which RASSF6 is able to suppress MAPK activation. Thus, we have identified a novel potential role for RASSF6 in melanoma development. Promoter methylation leading to reduced expression of RASSF6 may play an important role in melanoma development and may contribute to brain metastases. 相似文献
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Genetic changes through allelic loss and nucleic acid or protein modifications are the main contributors to loss of function of tumor suppressor proteins. In particular, epigenetic silencing of genes by promoter hypermethylation is associated with increased tumor severity and poor survival. The RASSF (Ras association domain family) family of proteins consists of 10 members, many of which are tumor suppressor proteins that undergo loss of expression through promoter methylation in numerous types of cancers such as leukemia, melanoma, breast, prostate, neck, lung, brain, colorectal and kidney cancers. In addition to their tumor suppressor function, RASSF proteins act as scaffolding agents in microtubule stability, regulate mitotic cell division, modulate apoptosis, control cell migration and cell adhesion, and modulate NFκB activity and the duration of inflammation. The ubiquitous functions of these proteins highlight their importance in numerous physiological pathways. In this review, we will focus on the biological roles of the RASSF family members and their regulation. 相似文献
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《Epigenetics》2013,8(8):571-576
The Ras association domain family (RASSF) encodes for distinct tumor suppressors and several members are frequently silenced in human cancer. In our study, we analyzed the role of a novel RASSF member termed RASSF10 in thyroid carcinogenesis. The RASSF10 CpG island promoter was intensively methylated in nine thyroid cancer cell lines and in 66% of primary thyroid carcinomas. RASSF10 methylation was significantly increased in primary thyroid carcinoma compared to normal thyroid and follicular adenoma (0% and 10%, respectively; p 相似文献
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Howard Donninger Jennifer A. Clark Megan K. Monaghan M. Lee Schmidt Michele Vos Geoffrey J. Clark 《The Journal of biological chemistry》2014,289(45):31287-31295
The Ras association domain family protein 1A (RASSF1A) is arguably one of the most frequently inactivated tumor suppressors in human cancer. RASSF1A modulates apoptosis via the Hippo and Bax pathways but also modulates the cell cycle. In part, cell cycle regulation appears to be dependent upon the ability of RASSF1A to complex with microtubules and regulate their dynamics. Which property of RASSF1A, apoptosis induction or microtubule regulation, is responsible for its tumor suppressor function is not known. We have identified a short conserved motif that is essential for the binding of RASSF family proteins with microtubule-associated proteins. By making a single point mutation in the motif, we were able to generate a RASSF1A variant that retains wild-type apoptotic properties but completely loses the ability to bind microtubule-associated proteins and complex with microtubules. Comparison of this mutant to wild-type RASSF1A showed that, despite retaining its proapoptotic properties, the mutant was completely unable to induce cell cycle arrest or suppress the tumorigenic phenotype. Therefore, it appears that the cell cycle/microtubule effects of RASSF1A are key to its tumor suppressor function rather than its apoptotic effects. 相似文献
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Ras association (RalGDS/AF-6) domain family member RASSF5 is a non-enzymatic RAS effector super family protein, known to be involved in cell growth regulation. Expression of RASSF5 is found to be extinguished by promoter hypermethylation in different human cancers, and its ectopic expression suppresses cell proliferation and tumorigenicity. Interestingly, this role in tumorigenesis has been confounded by the fact that regulation at molecular level remains unclear and many transformed cells actually display elevated RASSF5 expression. Here, we demonstrate that E3 ubiquitin ligase Itch is a unique binding partner of RASSF5. Itch can interact with PPxY motif in RASSF5 both in vivo and in vitro through its WW domains. Importantly, the overexpression of Itch induces RASSF5 degradation by poly-ubiquitination via 26S proteasome pathway. In addition, our results indicate that the elevated levels of RASSF5 found in tumor cells due to acetylation, which restricts its binding to Itch and results in a more stable inert protein. Inhibition of RASSF5 acetylation permits its interaction with Itch and provokes proteasomal degradation. These data suggest that apart from promoter methylation, hyperacetylation could also be downregulating RASSF5 function in different human cancer. Finally, results from functional assays suggest that the overexpression of wild type, not the ligase activity defective Itch negatively regulate RASSF5-mediated G1 phase transition of cell cycle as well as apoptosis, suggesting that Itch alone is sufficient to alter RASSF5 function. Collectively, the present investigation identifies a HECT class E3 ubiquitin ligase Itch as a unique negative regulator of RASSF5, and suggests the possibility that acetylation as a potential therapeutic target for human cancer. 相似文献