| The development of a tumor from a normal cell is a complex and multi-step process. A large number of oncogenes, tumor suppressor genes (TSGs) and signal transduction pathways are involved in this process. Tumor-specific methylation of TSGs in multiple tumors indicated that it could be used as epigenetic biomarker for molecular diagnosis and therapeutics.;The functions of KRAB-containing proteins are critical to cell differentiation, proliferation, apoptosis and neoplastic transformation. A large number of ZNF genes are located in 10 clusters at chromosome 19. Some of the KRAB-ZNF may function as potential TSGs with epigenetic alterations. Thus, I try to identify silenced novel KRAB-ZNF candidate TSGs through screening chromosome 19.;First, expression profiling of ZNFs with CpG islands at 10 clusters of Chr19 was examined in a panel of NPC and ESCC cell lines by semi-quantitative RT-PCR, with adult normal tissues - larynx and esophagus as controls. Several down-regulated genes were identified, and I further focused on 5 candidates: ZNF382, ZNF545, ZFP30, ZNFT1 and ZNFT2. These genes were frequently downregulated in NPC, ESCC, lung, gastric, colon and breast carcinomas. Their promoters were frequently methylated in multiple downregulated cell lines but less in non-tumor cell lines as revealed by methylation-specific PCR (MSP) and bisulfite genomic sequencing (BGS). Their expression could be restored by pharmacologic or genetic demethylation, suggesting that DNA methylation was directly involved in their silencing. The frequent methylation of these genes indicated they could act as potential biomarkers.;More functional studies were done for ZNF382 and ZNF545, I found that ectopic expression of ZNF382 and ZNF545 in tumor cells lacking endogenous expression could inhibit tumor cell clonogenicity, proliferation and induce apoptosis. I found that ZNF382 suppressed tumorigenesis through mediating heterochromatin formation, as ZNF382 was revealed to be co-localized and interacts with heterochromatin protein. For ZNF545, I found that it is a transcriptional repressor. I further showed that ZNF545 was located in the nucleus and sequestered in the nucleolus. ZNF545 could inhibit tumorigenesis at least partially through downregulating the transcription of target genes or regulating nucleolus function such as ribosome biogenesis.;In conclusion, several novel candidate TSGs epigenetically silenced in tumor cells were identified in this study. Their downregulation by promoter methylation was tumor-specific, which could be use as epigenetic biomarkers for diagnosis. |
