Identification of Novel Candidate Tumor Suppressor Genes at 11q and 15q for Esophageal Squamous Cell Carcinoma and Nasopharyngeal Carcinoma via Integrative Cancer Epigenetics and Genomics.

摘要

Inactivation of tumor suppressor genes (TSGs) contributes to the genesis of cancers including esophageal squamous cell carcinoma (ESCC) and nasopharyngeal carcinoma (NPC), two prevalent causes of death in Hong Kong. Apart from genetic abnormalities, epigenetic disruptions including CpG methylation represent another major mechanism for TSG inactivation. Promoter methylation of multiple TSGs was detected in different cancer types, suggesting that it could be utilized as therapeutic target or biomarker for disease diagnosis and prognosis.;TSGs are often located at frequently deleted chromosomal regions and subjected to tumor-specific methylation, making it possible to use an integrative epigenetic and genomic approach combining array comparative genomic hybridization (aCGH) with epigenetic profiling to screen for novel TSGs. Previous aCGH revealed that several loci in 11822.3, 15q14, 15q21.1 and 15q21.3 underwent frequent copy number loss in ESCC cell lines. Loss of heterozygosity (LOH) of these regions was also reported in other cancers, indicating that TSGs might reside within them. The aim of this study was thus to identify the candidate TSGs in these loci and study their anti-tumorigenic roles. In addition, the tumor suppressive function of ADAMTS8, a silenced 11q25 candidate TSG previously identified in our lab via this approach, was also studied.;In brief, mRNA expression profiling of candidate genes in each locus was performed using semi-quantitative RT-PCR in a panel of ESCC and NPC cell lines, normal tissues and immortalized epithelial cell lines. Genes downregulated in cancer cells but with high expression in normal tissues and immortalized epithelial cells were subjected to promoter methylation analysis using methylation-specific PCR (MSP), bisulfite genomic sequencing (BGS) and pharmacological demethylation treatment. Genes with tumor-specific downregulation and methylation were further selected as candidates and their tumor suppressive roles were verified via functional studies.;In this study, RAB39 and WDRX were identified as candidate TSGs in 11q22.3 and 15q21.3, respectively. Both genes were broadly expressed in normal tissues and immortalized epithelial cell lines, but significantly downregulated and methylated in multiple cancer cell lines. Demethylation treatment with 5-Aza-2'-deoxycytidine restored their mRNA expression, indicating that CpG methylation directly contributed to their transcriptional inactivation. Methylation of RAB39 and WDRX was detected in primary ESCC and NPC, but rarely observed in normal tissues, implicating that their tumor-specific methylation might be used as biomarkers. Ectopic expression of both genes significantly inhibited the clonogenicity of multiple cancer cell lines, supporting their potential roles as functional TSGs. Moreover, WDRX repressed WNT/β-catenin signaling, underscoring a possible anti-tumorigenic mechanism for it. In addition, ADAMTS8 was revealed to inhibit clonogenicity of NPC and ESCC cell lines, acting as a negative modulator for ERK pathway and a potential pro-apoptotic metalloprotease.;In conclusion, RAB39 and WDRX, epigenetically silenced in multiple cancer cell lines, were identified as novel TSG candidates in this study. Meanwhile, the tumor suppressive functions of ADAMTS8 were further validated, proving the efficiency of this integrative approach. Further study on these novel TSG candidates may help to elucidate the detailed molecular mechanisms for ESCC and NPC, and provide novel therapeutic targets and biomarkers.