Malignant neoplasm of lung
|
0.400 |
GeneticVariation
|
disease |
BEFREE |
These results suggest that RASSF1A promoter polymorphisms affect RASSF1A expression, further contributing to the genetic susceptibility to lung cancer.
|
18313166 |
2008 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
Using quantitative methylation-specific PCR, we found that the index of methylation (IM), calculated as IM = 100 × [copy number of methylated/(copy number of methylated + unmethylated gene)], for the RASSF1A and RARB2 genes in the cirDNA isolated from blood plasma and cell-surface-bound cirDNA was elevated 2- to 3-fold in lung cancer patients compared with healthy donors.
|
23806794 |
2013 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
The aim of this study was to analyze the diagnostic value of the Ras association domain family 1A gene (RASSF1A) methylation analysis in washings in nondiagnostic bronchoscopy in the analysis of patients with suspected lung cancer who had peripheral tumors.
|
21700687 |
2012 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
Inactivation of the tumor suppressor gene RASSF1A by promoter hypermethylation represents a key event underlying the initiation and progression of lung cancer.
|
26759237 |
2016 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
RASSF1A, a recently identified candidate tumor suppressor gene, was found to be inactivated in lung cancer and other tumor types.
|
14506151 |
2003 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
We determined the frequency of aberrant promoter methylation of the p16, adenomatous polyposis coli (APC), H-cadherin (CDH13), glutathione S-transferase P1 (GSTP1), O6-methylguanine-DNA-methyltransferase (MGMT), retinoic acid receptor beta-2 (RAR beta), E-cadherin (CDH1), and RAS association domain family 1A (RASSF1A) genes in 198 tumors consisting of small cell lung cancers [SCLCs (n = 43)], non-small cell lung cancers [NSCLCs (n = 115)], and bronchial carcinoids (n = 40).
|
12467239 |
2001 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
Overall, a significant relationship between RASSF1A promoter methylation and lung cancer risk (OR, 16.12; 95%CI, 11.40-22.81; p<0.001) with no between-study heterogeneity.
|
25556469 |
2014 |
Malignant neoplasm of lung
|
0.400 |
GeneticVariation
|
disease |
BEFREE |
A cross-sectional study was conducted in which the methylation status of DAPK, CDKN2A (p16) and RASSF1A genes in sputum and bronchial washing (BW) from subjects at risk for LC was analyzed.
|
25069886 |
2014 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
Furthermore, a significant correlation between RASSF1A methylation and impaired lung cancer patient survival was reported, and RASSF1A silencing was correlated with several parameters of poor prognosis and advanced tumor stage (e.g. poor differentiation, aggressiveness, and invasion).
|
12647816 |
2003 |
Malignant neoplasm of lung
|
0.400 |
GeneticVariation
|
disease |
BEFREE |
These results suggest that the RASSF1 Ala133Ser SNP is associated with development of lung cancer, especially of lung adenocarcinoma.
|
16125301 |
2006 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
L1RE1 in combination with either RARB or RASSF1 could function as biomarkers for separating lung cancer and non-cancerous tissue and could be useful for samples of limited size such as biopsies.
|
29851970 |
2018 |
Malignant neoplasm of lung
|
0.400 |
AlteredExpression
|
disease |
BEFREE |
We also transfected a lung cancer cell line that lacks RASSF1A expression with vectors containing RASSF1A complementary DNA to determine whether exogenous expression of RASSF1A would affect in vitro growth and in vivo tumorigenicity of this cell line.All statistical tests were two-sided.
|
11333291 |
2001 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
The alternative transcript (RASSF1a) has been shown to be inactivated by hypermethylation in several human malignancies, including breast, prostate, and lung cancer, and in cutaneous melanoma.
|
17251440 |
2007 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
The purpose of the study was to explore the application of artificial neural network model in the auxiliary diagnosis of lung cancer and compare the effects of back-propagation (BP) neural network with Fisher discrimination model for lung cancer screening by the combined detections of four biomarkers of p16, RASSF1A and FHIT gene promoter methylation levels and the relative telomere length.
|
27766520 |
2017 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
RASSF1A is validated as diagnostic marker in lung cancer.
|
25719833 |
2015 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
The RASSF1A gene is epigenetically inactivated in a large percentage of human lung cancers, in particular small cell carcinomas.
|
12222680 |
2002 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
CTD_human |
DNA methylation markers and early recurrence in stage I lung cancer.
|
18337602 |
2008 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
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).
|
30764677 |
2019 |
Malignant neoplasm of lung
|
0.400 |
AlteredExpression
|
disease |
BEFREE |
Knockdown of DeltaDNMT3B4 expression by small interfering RNA resulted in a rapid demethylation of RASSF1A promoter and reexpression of RASSF1A mRNA but had no effect on p16 promoter in the lung cancer cells.
|
18006804 |
2007 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
Our findings suggest that RASSF1A promoter region hypermethylation may be a useful molecular marker for early detection of lung cancer.
|
12527916 |
2003 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
Promoter hypermethylation of RASSF1A and RUNX3 genes as an independent prognostic prediction marker in surgically resected non-small cell lung cancers.
|
17606310 |
2007 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
RASSF1A is one of the tumor suppressor genes, and it is frequently inactivated by hypermethylation of its promoter region in a variety of human cancers, including lung cancer.
|
15700308 |
2005 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
Pyrosequencing and quantitative RT-PCR experiments revealed time-dependent hypomethylation of D4Z4, NBL2, and LINE-1 repetitive DNA sequences; up-regulation of H19, IGF2, MAGE-A1, and MAGE-A3; activation of Wnt signaling; and hypermethylation of tumor suppressor genes such as RASSF1A and RAR-beta, which are frequently silenced in human lung cancers.
|
20440268 |
2010 |
Malignant neoplasm of lung
|
0.400 |
Biomarker
|
disease |
BEFREE |
The panel of <i>RASSF1A, 3OST2</i> and <i>PRDM14</i> detected 28% (95% CI 11% to 44%) of lung cancer cases within 2 years, with specificity of 90% (95% CI 86% to 94%).
|
27496969 |
2017 |
Malignant neoplasm of lung
|
0.400 |
PosttranslationalModification
|
disease |
BEFREE |
The QMSP analysis of RASSF1A hypermethylation enabled a highly specific distinction between patients diagnosed with lung cancer and those with nonneoplastic lung disease.
|
16444703 |
2006 |