Epigenetic inactivation of the RAS-effector gene RASSF2 in lung cancers

RASSF2, a member of the RAS association domain family 1 (RASSF1), is a candidate tumor suppressor gene (TSG) that is silenced by promoter hypermethylation in several human cancers. In this study, we examined the expression of RASSF2 mRNA and the promoter methylation status in lung cancer cell lines and in tumor samples of 106 primary non-small cell lung cancers (NSCLCs) by methylation-specific PCR. RASSF2 expression was absent in 26% of small cell lung cancers (SCLCs; n=27 lines) and 50% of NSCLCs (n=42 lines). Promoter methylation of RASSF2 was found in 18% of the SCLC cell lines (n=22) and 62% of the NSCLC cell lines (n=26), and the methylation status was tightly associated with the loss of RASSF2 expression. RASSF2 expression was restored by treatment with 5-aza-2-deoxycytidine and/or trichostatin-A in the NSCLC cell lines which were absent of the expression. RASSF2 methylation was found in 31% of primary NSCLC tumors, and methylation was more frequent in the specimens from non-smokers (18 of 40, 45%) than in the specimens from smokers (15 of 66, 23%, P=0.014). We also examined the association of RASSF2 methylation with mutations of KRAS and EGFR and with promoter hypermethylation of RASSF1A; however, we could not find a significant association between RASSF2 methylation and these genetic and epigenetic changes. Our results indicate that aberrant methylation of the RASSF2 gene with the subsequent loss of RASSF2 expression plays an important role in the pathogenesis of lung cancers.     

RASSF1A和p16 转录本在非小细胞肺癌中的表达及启动子区甲基化

 目的 研究RASSF1A和p16基因在国人非小细胞肺癌（NSCLC）组织中的转录及启动子区甲基化情况，探讨其转录失活的机制，为NSCLC的诊断和治疗寻找新的途径。方法 应用半定量RTPCR和甲基化特异性PCR法分析96例NSCLC及远癌正常肺组织中RASSF1A和p16基因mRNA的表达和启动子区甲基化情况。结果 （1）53．12％（51／96）的NSCLC中RASSF1A表达明显下调或缺失；36．46％（35／96）的p16表达下调或缺失，而远癌正常肺组织均表达良好。（2）96例NSCLC中RASSF1A甲基化率48．96％（47／96），该基因表达明显下调或缺失的51例中39例（76．5％）出现甲基化，表达正常的45例中8例（17．8％）出现甲基化，两组对比差异有统计学意义（P〈0．05）；96例NSCLC中33例（34．38％）检测到p16启动予区甲基化，p16基因表达明显下调的35例中20例（57．1％）出现该基因CPG岛的甲基化，而表达正常的61例中13例（21．3％）出现甲基化，两组比较差异显著（P〈0．05）。96例远癌正常肺组织均未检测到此两基因启动子有甲基化。结论 RASSF1A和p16基因mRNA在国人NSCLC中较高比例的表达下调或缺失；甲基化可能是两基因表达失活的主要原因。     

Epigenetic inactivation of TSLC1 gene in nasopharyngeal carcinoma

Deletion of 11q23 is a common genetic aberration in nasopharyngeal carcinoma (NPC). Multiple candidate tumor suppressor genes (TSG) were mapped to this region but few of them were investigated in NPC. TSLC1 (tumor suppressor in lung cancer) is recently reported to be a putative TSG on 11q23. This gene was found to be inactivated by promoter hypermethylation in non-small cell lung carcinoma (NSCLC), liver cancer, and breast cancer. To study the role of TSLC1 gene in NPC tumorigenesis, we screened for mutations and aberrant methylation of TSLC1 gene in 5 NPC cell lines, 3 NPC xenografts, and 38 primary NPC cases. No somatic mutations of TSLC1 were detected in the NPC samples, but a 9-bp (CCACCACCA) deletion in exon 8 was found in a primary NPC and its corresponding blood sample. Bisulfite sequencing revealed aberrant methylation of TSLC1 promoter in four NPC cell lines. Loss of TSLC1 gene expression was found in two cell lines (HK-1 and CNE-2) with dense methylation. Expression of this gene was restored in these cell lines after treatment with demethylating agent 5-aza-2'-deoxycytidine. Our results showed that silencing of TSLC1 gene expression in NPC was associated with promoter hypermethylation. Promoter hypermethylation of TSLC1 gene was further illustrated in 34.2% (13/38) of primary NPCs. No aberrant promoter methylation was found in any of the four investigated normal nasopharyngeal epithelia. Frequent epigenetic inactivation of TSLC1 gene in NPC suggested that this gene is one of the target tumor suppressor genes of this endemic cancer.     

Aberrant methylation of the adenomatous polyposis coli promoter 1A in bronchial aspirates from patients with suspected lung cancer

Promoter hypermethylation is a major mechanism for gene silencing and offers a promising starting point for developing molecular biomarkers. The purpose of our study was to determine aberrant methylation of the adenomatous polyposis coli (APC) gene promoter 1A with respect to its prevalence and quantitative level in bronchial aspirates from patients with suspected lung cancer. Applying quantitative methylation-specific PCR, 155 bronchial aspirates from patients with non-small cell cancer (NSCLC) and small cell cancer (SCLC) of the lung as well as 67 bronchial aspirates from patients diagnosed for nonneoplastic lung disease were examined in a retrospective case-control study. Aberrant APC promoter 1A methylation was seen in 71% of NSCLCs, 38% of SCLCs and 42% of patients with nonneoplastic lung disease, being therefore not specific for the presence of primary lung cancer. In contrast, quantitative analysis showed a significantly higher methylation level of bronchial aspirates from NSCLC as compared to patients without neoplastic lung disease. Introducing a cutoff point that defined high level of APC hypermethylation NSCLC could be discriminated from cases without neoplastic disease with a specificity of 98.5% and a sensitivity of 39%. The data suggest that quantitative analysis of APC hypermethylation may serve as a biomarker of primary lung cancer.     

Epigenetic inactivation of RASSF1A in lung and breast cancers and malignant phenotype suppression

BACKGROUND: The recently identified RASSF1 locus is located within a 120-kilobase region of chromosome 3p21.3 that frequently undergoes allele loss in lung and breast cancers. We explored the hypothesis that RASSF1 encodes a tumor suppressor gene for lung and breast cancers. METHODS: We assessed expression of two RASSF1 gene products, RASSF1A and RASSF1C, and the methylation status of their respective promoters in 27 non-small-cell lung cancer (NSCLC) cell lines, in 107 resected NSCLCs, in 47 small-cell lung cancer (SCLC) cell lines, in 22 breast cancer cell lines, in 39 resected breast cancers, in 104 nonmalignant lung samples, and in three breast and lung epithelial cultures. 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. RESULTS: RASSF1A messenger RNA was expressed in nonmalignant epithelial cultures but not in 100% of the SCLC, in 65% of the NSCLC, or in 60% of the breast cancer lines. By contrast, RASSF1C was expressed in all nonmalignant cell cultures and in nearly all cancer cell lines. RASSF1A promoter hypermethylation was detected in 100% of SCLC, in 63% of NSCLC, in 64% of breast cancer lines, in 30% of primary NSCLCs, and in 49% of primary breast tumors but in none of the nonmalignant lung tissues. RASSF1A promoter hypermethylation in resected NSCLCs was associated with impaired patient survival (P =.046). Exogenous expression of RASSF1A in a cell line lacking expression decreased in vitro colony formation and in vivo tumorigenicity. CONCLUSION: RASSF1A is a potential tumor suppressor gene that undergoes epigenetic inactivation in lung and breast cancers through hypermethylation of its promoter region.     

Expression of the candidate tumor suppressor gene hSRBC is frequently lost in primary lung cancers with and without DNA methylation

Recently, the human SRBC (hSRBC) gene, a candidate tumor suppressor gene (TSG), has been mapped to the chromosomal region 11p 15.5--p15.4 where frequent allele loss has been described in lung cancer. Aberrant methylation (referred to as methylation) of the promoter region of TSGs has been identified as an important mechanism for gene silencing. Loss of hSRBC protein expression occurs frequently in lung cancer cell lines and sodium bisulfite sequencing of the promoter region of hSRBC in several lung cancer cell lines suggested that methylation plays an important role in inactivating hSRBC. To determine the methylation status of hSRBC in a large collection of primary lung cancer samples, corresponding nonmalignant lung tissues and lung cancer cell lines (N=52), we designed primers for a methylation-specific PCR assay. Methylation was detected in 41% of primary non-small-cell lung cancers (NSCLC) (N=107) and in 80% of primary small-cell lung cancers (SCLC) (N=5), but was seen only in 4% of corresponding nonmalignant lung tissues (N=103). In all, 79% of lung cancer cell lines were methylated and the frequency of hSRBC methylation was significantly higher in SCLC (100%) than in NSCLC (58%) cell lines. Normal hSRBC protein expression was detected in only 18% of primary NSCLCs (N=93) by immunostaining and a significant association between loss of protein expression and methylation was found. hSRBC re-expression was observed after treatment of lung cancer cells with the demethylating agent 5-aza-2'-deoxycytidine. In addition, 45% of the 76 hSRBC immunostaining-negative NSCLCs did not have hSRBC promoter methylation, indicating that other mechanisms of hSRBC expression silencing also exist. Both hSRBC immunostaining and methylation results did not correlate with clinicopathological characteristics of these patients. Our findings suggest that hSRBC is a candidate TSG involved in lung cancer pathogenesis, where expression is frequently inactivated by methylation and other mechanisms.     

Hypermethylation of E-cadherin gene is frequent and independent of p16INK4A methylation in non-small cell lung cancer: potential prognostic implication

E-cadherin gene is often termed a 'metastasis suppressor' gene and inactivation of this gene through promoter methylation occurs in various epithelial cancer. This study assessed the methylation status of p16INK4a and E-cadherin genes, correlated with clinical characteristics in lung cancer patients. Forty-five patients with non-small cell lung cancer (NSCLC) were evaluated for methylation status of p16INK4a and E-cadherin genes by using the methylation-specific PCR. E-cadherin expression in tumor samples was examined by immunohistochemistry. Overall duration of survival in different subsets of NSCLC with or without p16INK4a or E-cad methylation at diagnosis was compared by using the Kaplan-Meier method and log-rank test. We found the hypermethylation of p16INK4a gene in 38% (17/45) of our subjects. While the E-cadherin gene was hypermethylated in 62% (28/45) related with reduced E-cadherin expression, and methylation status of both p16INK4a and E-cadherin genes seemed to be independent. Seventy-six percent (34/45) of NSCLC patients had an abnormal methylation pattern in at least one gene. Although there was no difference in overall survival of patients between methylated p16INK4a and unmethylated p16INK4a, NSCLS patients with hypermethylation of both genes (concordant pattern) had a significantly good prognosis. In contrast, NSCLC patients with hypermethylated p16INK4a but un-methylated E-cadherin gene (discordant pattern) had a significantly poor prognosis. E-cadherin and p16INK4a are commonly methylated in NSCLC and the methylation pattern of p16INK4a and E-cadherin genes may have prognostic value for the outcome of NSCLC patients.     

DNA methylation-associated inactivation of TGFbeta-related genes DRM/Gremlin, RUNX3, and HPP1 in human cancers

The transforming growth factor beta (TGFbeta)-signalling pathway is deregulated in many cancers. We examined the role of gene silencing via aberrant methylation of DRM/Gremlin and HPP1, which inhibit TGFbeta signalling, and RUNX3, which facilitates TGFbeta-signalling, of all genes that are thought to be tumour suppressors, are aberrantly expressed, and are thus thought to have important role in human cancers. We examined DRM/Gremlin mRNA expression in 44 cell lines and the promoter methylation status of DRM/Gremlin, HPP1, and RUNX3 in 44 cell lines and 511 primary tumours. The loss of DRM/Gremlin mRNA expression in human cancer cell lines is associated with DNA methylation, and treatment with the methylation inhibitor-reactivated mRNA expression (n=13). Methylation percentages of the three genes ranged from 0-83% in adult tumours and 0-50% in paediatric tumours. Methylation of DRM/Gremlin was more frequent in lung tumours in smokers, and methylation of all three genes was inversely correlated with prognosis in patients with bladder or prostate cancer. Our results provide strong evidence that these TGFbeta-related genes are frequently deregulated through aberrant methylation in many human malignancies.