RASSF1A在细胞自噬及凋亡中的功能

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。     

非小细胞肺癌R A SsF IA 基因甲基化及下游基因表达

目的：研究非小细胞肺癌RASSF1A基因启动子甲基化及下游基因表达情况。方法：留取58例非小细胞肺癌患者手术标本及正常肺组织,甲基化特异性PCR分析RASSF1A基因启动子甲基化情况,同时Northern blot分析SM22、SPARC、SDHB和CC-ND3等4种RASSFIA下游基因的表达情况。结果：58例非小细胞肺癌中RASSFIA基因启动子甲基化阳性率为34．5％,甲基化与各临床参数之间无显著相关性,SM22和SPARC在RASSF1A甲基化组表迭明显下调。结论：原发性非小细胞肺癌中存在着较高比例的RASSF1A启动子过度甲基化,并与下游基因SM22和SPARC的表达下调密切相关。提示RASSF1A在非小细胞肺癌的发生中起着多种作用。     

RASSF1A和SKP2在胃癌中的表达及与幽门螺杆菌L型感染关系的研究

目的研究幽门螺杆菌L型(Helicobacter pyloriL-form,H.pylori-L型)感染,Ras相关区域家族1A基因(RASSF1A)和细胞S期激酶相关蛋白2(Skp2)在胃癌发生、发展中的作用及相互关系。方法应用革兰染色和免疫组织化学SP法检测50例胃癌组织及20例癌旁正常组织中的H.pylori-L型感染情况;同时应用逆转录聚合酶链式反应(RT-PCR)和免疫组织化学SP法检测上述组织中癌基因skp2和抑癌基因RASSF1A的表达。结果 50例胃癌组织标本中免疫组化及革兰染色H.pylori-L型同时阳性的病例有30例,胃癌组织和癌旁正常组织中H.pylo-ri-L型阳性率分别为60.0%和20.0%,2组之间差异有统计学意义(P<0.05)。胃癌组织中Skp2表达阳性率明显高于对照组(P<0.01);而RASSF1A表达阳性率明显低于对照组(P<0.01);H.pylori-L型阳性组的Skp2表达阳性率高于H.pylori-L型阴性组(P<0.05);H.pylori-L型阳性与Skp2的表达阳性呈正相关关系;RASSF1A的表达与H.pylori-L型阳性呈负相关关系。结论 H.pylori-L型感染在胃癌的发生发展过程中起重要的作用,其促进胃癌发生、发展的机制可能涉及上调Skp2的表达和下调RASSF1A的表达。     

Quantitative analysis of RASSF1A promoter methylation in hepatocellular carcinoma and its prognostic implications

Hepatocellular carcinoma (HCC) is one of the most common malignant tumors worldwide and is caused by the accumulation of genetic and epigenetic alterations in regulatory genes. In this study, we used methylight to detect the methylation status of the RASSF1A promoter in 87 paired HCC samples and analysed the relationship between methylation status and clinicopathological parameters, including prognosis after surgery. We found that the methylation level of the RASSF1A promoter in HCC tissues was significantly higher than that in the corresponding non-tumorous tissues (p < 0.0001). Furthermore, the methylation level of the RASSF1A gene promoter in HCC samples was higher in patients with a tumor size ?6 cm (p = 0.0149) and in patients younger than 50 years old (p = 0.0175). However, hypermethylation of the RASSF1A promoter in HCC tissues did not affect the overall survival of patients (p = 0.611). Thus, RASSF1A promoter hypermethylation may not be a useful biomarker for the prognosis of HCC.     

Hypermethylated RASSF1 and SLC5A8 promoters alongside BRAFV600E mutation as biomarkers for papillary thyroid carcinoma

Circulating cell-free DNA (cfDNA) has been considered as a diagnostic source to track genetic and epigenetic alterations in cancer. We aimed to study mutation in addition to the methylation status in the promoter regions of RASSF1 and SLC5A8 genes in tissues and circulating free DNA samples of patients affected with papillary thyroid carcinoma (PTC) and thyroid nodules as controls. BRAF^V600E mutation was studied by ARMS-scorpion real-time polymerase chain reaction method in 57 PTC and 45 thyroid nodule cases. Methylation status of RASSF1 and SLC5A8 promoter regions was analyzed by methylation-specific high-resolution melting curve analysis. BRAF^V600E mutation was found in 39 (68.4%) out of 57 PTC tissue samples, while in 33 (49.1%) cases of cfDNA, this mutation was detected. The frequency of BRAF^V600E mutation in cfDNA was significantly different between metastatic and nonmetastatic PTC cases (22 of 33 PTC cases vs. 5 of 34 thyroid nodule samples). Methylation levels of three promoter regions of SLC5A8 and proximal promoter region of RASSF1 was significantly different between PTC and thyroid nodule cases in both cfDNA and tissue DNA. In addition, the methylation status of these two genes in tissue DNA was reflected in methylation status observed in cfDNA. This study confirmed that BRAF^V600E mutation is better for discrimination between papillary thyroid carcinoma and thyroid nodules. On the other hand, hypermethylation in the more proximal promoter regions to RASSF1 and SLC5A8 genes showed higher sensitivity and more acceptable specificity for this discrimination.     

RASSF1A suppresses the activated K-Ras-induced oxidative DNA damage

The mutant K-Ras elevates intracellular reactive oxygen species (ROS) levels and leads to oxidative DNA damage, resulting in malignant cell transformation. Ras association domain family 1 isoform A (RASSF1A) is known to play a role as a Ras effector. However, the suppressive effect of RASSF1A on K-RasV12-induced ROS increase and DNA damage has not been identified. Here, we show that RASSF1A blocks K-RasV12-triggered ROS production. RASSF1A expression also inhibits oxidative DNA damage and chromosomal damage. From the results obtained in this study, we suggest that RASSF1A regulates the cellular ROS levels enhanced by the Ras signaling pathway, and that it may function as a tumor suppressor by suppressing DNA damage caused by activated Ras.     

The tumor suppressor RASSF1A is a novel effector of small G protein Rap1A

Rap1A is a small G protein implicated in a spectrum of biological processes such as cell proliferation, adhesion, differentiation, and embryogenesis. The downstream effectors through which Rap1A mediates its diverse effects are largely unknown. Here we show that Rap1A, but not the related small G proteins Rap2 or Ras, binds the tumor suppressor Ras association domain family 1A (RASSF1A) in a manner that is regulated by phosphorylation of RASSF1A. Interaction with Rap1A is shown to influence the effect of RASSF1A on microtubule behavior.     

骨肉瘤中RASSF1A基因的甲基化状态研究

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。     

骨肉瘤中RASSF1A基因的甲基化状态研究

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。     

RASSF1A对黑色素瘤A375细胞基因网络的影响

RASSF1A(Ras association domain family 1 isoform A)是定位于染色体3p21.3区域的抑瘤基因,编码一个由340个氨基酸残基构成的微管相关蛋白.该基因在包括恶性黑色素瘤在内的多种肿瘤中因启动子高甲基化而表达沉默.本研究建立了RASSF1A稳定表达的恶性黑色素瘤A375细胞系,通过全基因组表达谱基因芯片分析RASSF1A过表达对A375细胞基因表达谱的影响,发现RASSF1A引起184个基因表达上调,26个基因表达下调.通过Realtime RT-PCR对部分差异表达基因进行验证,结果表明与芯片筛选结果一致.RASSF1A影响的差异表达基因功能上归属于细胞生长与增殖、细胞周期、细胞凋亡、细胞间黏附、信号传导等生物过程.采用STRING软件构建了RASSF1A影响的差异表达基因调控网络,结果表明RASSF1A调控的差异表达基因构成一个高连接度的基因网络.其中,炎症细胞因子、转录因子位于网络中央.RASSF1A通过影响炎症细胞因子与转录因子之间的表达,影响A375细胞基因网络,调节黑色素瘤恶性生物学行为.     

RG108对肺腺癌A549细胞增殖、凋亡及RASSF1A基因表达的影响

目的探讨DNA甲基转移酶抑制剂RG108对人肺腺癌细胞株A549增殖、凋亡以及对RASSF1A（Ras as-sociation domain proteinfamily1）基因启动子区域甲基化状态、表达的影响。方法用20μmol/L的RG108对A549细胞进行化学干预72h,用MTT法检测细胞生长抑制率;流式细胞术检测细胞周期以及凋亡情况;RT-PCR观察RASSF1A基因mRNA水平变化;Western blot检测RASSF1A蛋白的表达;甲基化特异性PCR（MS-PCR）检测RASSF1A基因启动子区域甲基化状态的改变。结果经RG108干预72h后,A549细胞的抑制率为17.2±0.43%,细胞周期阻滞于G0/G1期,并引起细胞凋亡。RT-PCR和Western blot结果显示在干预组细胞中分别出现RASSF1A基因的DNA条带（329bp）和蛋白质条带（39kD）,而对照组中无相应条带出现。RASSF1A基因启动子区域由甲基化状态转变为非甲基化状态。结论RG108可使RASSF1A基因启动子区域去甲基化,并通过该机制诱导RASSF1A基因在人肺腺癌细胞株A549中表达。     

白血病患者骨髓中RASSF1A基因启动子甲基化状态及其临床意义

目的:通过检测各类型白血病骨髓中RASSF1A基因启动子区甲基化水平,探讨其对白血病分型的临床检测意义。方法:抽选93例不同类型白血病患者(观察组)予以甲基化特异性PCP(MSP)方法进行骨髓RASSF1A基因甲基化状态检测,研究不同类型白血病甲基化状态差异,同期抽选93例非白血病者为对照研究(对照组)。结果:观察组中有13例(13.98%)检测到RASSF1A基因甲基化,而对照组中RASSF1A基因甲基化率为0%,比较差异显著(P0.05)。不同类型白血病RASSF1A甲基化率比较:淋巴系显著高于髓系(P0.05),急性与慢性白血病比较差异无显著性(P0.05)。结论:白血病骨髓中MSP法检测存在RASSF1A甲基化;而RASSF1A基因在淋巴系白血病中的甲基化概率明显增高,因此,对RASSF1A进行甲基化检测有可能作为白血病临床诊断分型的生物学指标之一。     

RASSF1A 基因在乳腺癌发生、发展中的作用

RASSF1A基因是新近发现的新型候选抑癌基因,其正常表迭能够抑制肿瘤的发生。启动于区域CpG岛异常甲基化可以导致其失活,并在乳腺癌的发生、发展起着重要作用。RASSF1A的甲基化状态检测具有重要的临床意义,有望为乳腺癌的早期诊断、疗效监测、预后判断提供新的参考指标,而逆转RASSF1A的甲基化则可能为乳腺癌治疗提供新的方向。     

Prognostic value of RASSF1A methylation status in non-small cell lung cancer (NSCLC) patients: A meta-analysis of prospective studies

Objective: Ras association domain family 1?A (RASSF1A) has been regarded as a biomarker predicting the prognosis of non-small cell lung cancer (NSCLC), but previous findings are inconsistent. This meta-analysis of prospective studies aimed to assess the value of RASSF1A methylation in predicting the prognosis of NSCLC patients.

Methods: Studies were searched in PubMed and Web of Science. The estimates of the effects and the corresponding 95% confidence intervals (95% CIs) were used for the analyses. The overall effects of RASSF1A methylation on overall survival (OS) were estimated, after which subgroup analysis based on regions was conducted. Sensitivity analyses were conducted to restrict the studies with certain features.

Results: A total of 16 studies with 2210 participants were included in this meta-analysis. The overall analysis result indicated that RASSF1A methylation had no statistically significant effects on OS of NSCLC patients (HR?=?1.28; 95% CI 0.86–1.70), which were confirmed by the subgroup analysis. However, the sensitivity analysis indicated that RASSF1A methylation from lung cancer tissues was significantly associated with lower OS (HR?=?1.24; 95% CI 1.04–1.45).

Conclusion: RASSF1A methylation in lung cancer tissue can serve as a prognostic factor of NSCLC. More studies are needed to uncover the underlying mechanisms.     

The tumour suppressor RASSF1A promotes MDM2 self-ubiquitination by disrupting the MDM2-DAXX-HAUSP complex

The tumour suppressor p53, which accumulates in response to DNA damage and induces cell-cycle arrest and apoptosis, has a key function in the maintenance of genome integrity. Under normal conditions, the antiproliferative effects of p53 are inhibited by MDM2, a ubiquitin ligase that promotes p53 ubiquitination and degradation. MDM2 is also self-ubiquitinated and degraded. Here, we show that the tumour suppressor RASSF1A regulates G(1)-S cell-cycle progression in a p53-dependent manner by promoting MDM2 self-ubiquitination and preventing p53 degradation. Importantly, RASSF1A associates with MDM2 and death-domain-associated protein (DAXX) in the nucleus, thereby disrupting the interactions between MDM2, DAXX, and the deubiquitinase, HAUSP, and enhancing the self-ubiquitin ligase activity of MDM2. Moreover, RASSF1A partially contributes to p53-dependent checkpoint activation at early time points in response to DNA damage. These findings reveal a new and important function for RASSF1A in regulating the p53-MDM2 pathway.     

53BP1‐mediated recruitment of RASSF1A to ribosomal DNA breaks promotes local ATM signaling

DNA lesions occur across the genome and constitute a threat to cell viability; however, damage at specific genomic loci has a relatively greater impact on overall genome stability. The ribosomal RNA gene repeats (rDNA) are emerging fragile sites. Recent progress in understanding how the rDNA damage response is organized has highlighted a key role of adaptor proteins. Here, we show that the scaffold tumor suppressor RASSF1A is recruited to rDNA breaks. RASSF1A recruitment to double‐strand breaks is mediated by 53BP1 and depends on RASSF1A phosphorylation at Serine 131 by ATM kinase. Employing targeted rDNA damage, we uncover that RASSF1A recruitment promotes local ATM signaling. RASSF1A silencing, a common epigenetic event during malignant transformation, results in persistent breaks, rDNA copy number alterations and decreased cell viability. Overall, we identify a novel role for RASSF1A at rDNA break sites, provide mechanistic insight into how the DNA damage response is organized in a chromatin context, and provide further evidence for how silencing of the RASSF1A tumor suppressor contributes to genome instability.     

RASSF2 methylation is a strong prognostic marker in younger age patients with Ewing sarcoma

Ras-association domain family of genes consist of 10 members (RASSF1-RASSF10), all containing a Ras-association (RA) domain in either the C- or the N-terminus. Several members of this gene family are frequently methylated in common sporadic cancers; however, the role of the RASSF gene family in rare types of cancers, such as bone cancer, has remained largely uninvestigated. In this report, we investigated the methylation status of RASSF1A and RASSF2 in Ewing sarcoma (ES). Quantitative real-time methylation analysis (MethyLight) demonstrated that both genes were frequently methylated in Ewing sarcoma tumors (52.5% and 42.5%, respectively) as well as in ES cell lines and gene expression was upregulated in methylated cell lines after treatment with 5-aza-2′-deoxcytidine. Overexpression of either RASSF1A or RASSF2 reduced colony formation ability of ES cells. RASSF2 methylation correlated with poor overall survival (p = 0.028) and this association was more pronounced in patients under the age of 18 y (p = 0.002). These results suggest that both RASSF1A and RASSF2 are novel epigenetically inactivated tumor suppressor genes in Ewing sarcoma and RASSF2 methylation may have prognostic implications for ES patients.     

Searching for RET/PTC rearrangements and BRAF V599E mutation in thyroid aspirates might contribute to establish a preoperative diagnosis of papillary thyroid carcinoma

OBJECTIVE: Searching for multiple molecular markers in thyroid aspirates appears to be a promising approach for establishing a preoperative diagnosis of papillary thyroid carcinoma (PTC). METHODS: Based on this hypothesis, a total of 63 samples from 55 patients, were collected at random. RNA was extracted from the residue cells inside the needle used for fine needle aspiration cytology (FNAC) and thereafter molecular analysis was carried out both for RETrearrangements (type 1, 2, 3) and BRAF codon 599 mutation molecule. Results were compared with the cytological and histopathological diagnoses in 24 patients submitted to surgery. RESULTS: 58% PTCs presented a genetic alteration either RET/PTC rearrangement, BRAF V599E mutation or both: three cases of PTCs (25%) presented a RET/PTC rearrangement; three cases of PTCs (25%) presented a BRAF V599E mutation and in one case (8%) both alterations were identified. CONCLUSIONS: The present results suggest that searching for multiple molecular markers in thyroid aspirates may enhance the accuracy of FNAC and refine preoperative diagnosis of PTC.     

The tumor suppressor RASSF1A prevents dephosphorylation of the mammalian STE20-like kinases MST1 and MST2

The RASSF1A tumor suppressor protein interacts with the pro-apoptotic mammalian STE20-like kinases MST1 and MST2 and induces their autophosphorylation and activation, but the mechanism of how RASSF1A activates MST1/2 is unclear. Okadaic acid treatment and PP2A knockdown promoted MST1/2 phosphorylation. Data from dephosphorylation assays and reduced activation of MST1/2 seen after RASSF1A depletion suggest that dephosphorylation of MST1/2 on Thr-183 and Thr-180 by PP2A is prevented by RASSF1A, shifting the balance of MST1/2 to the activated autophosphorylated form. In addition to preventing dephosphorylation, RASSF1A also stabilized the MST2 protein. Through binding to MST1/2, RASSF1A supports maintenance of MST1/2 phosphorylation, promoting an active state of the MST kinases and favoring induction of apoptosis. This is one of the first examples of a tumor suppressor acting as an inhibitor of a specific dephosphorylation pathway.