Abstract B33: A novel isoform of the major 8p22 tumor suppressor Deleted in Liver Cancer 1 (DLC1) gene with growth suppression function is frequently silenced epigenetically in multiple tumors

Abstract

Abstract Aberrant DNA methylation of Tumor Suppressor Gene (TSG) promoter regions, in addition to being a hallmark of cellular transformation, could provide potential tumor markers for early detection and monitoring of treatment effect. In a previous study to identify candidate TSGs relevant in Nasopharyngeal Carcinoma (NPC), our group identified the Deleted in Liver Cancer 1 (DLC1) gene to be epigenetically silenced not just in NPC, but in esophageal, breast and cervical carcinomas also. In this study, we report the cloning and characterization of a novel isoform of the human DLC1 gene with growth suppression function transcribing from a functional alternative promoter and silenced epigenetically in multiple tumors. Designated as DLC1 isoform 4 (DLC1-i4), this novel isoform encodes a protein of 1125 amino acids with a distinct N-terminus as compared to the other known isoforms. DLC1-i4 was expressed ubiquitously in normal tissues and immortalized normal epithelial cells, but significantly down-regulated in multiple tumor cell lines. Promoter DNA methylation was further found in 6/16 (38%) esophageal, 3/4 (75%) cervical, 2/2 (100%) colorectal, 4/4 (100%) NPC cell lines, and in 37/39 (95%) and 12/31 (39%) of primary NPC and esophageal tumors respectively. In contrast, no DNA methylation was found in normal cell lines and tissues. Pharmacological treatment with 5-aza-2′-deoxycytidine or genetic double knock-out of DNMT1 and DNMT3B could demethylate the DLC1-i4 promoter and activate transcription, indicating a direct epigenetic mechanism. Ectopic expression of DLC1-i4 had a strong inhibitory effect on the growth and colony formation ability of silenced tumor cell lines. As a whole, our results suggest that transcription of multiple DLC1 isoforms driven off alternative promoters could modulate the activity of the candidate tumor suppressor DLC1 protein in the pathogenesis of these tumors, and should be further tested as a tumor specific molecular biomarker. Citation Information: Clin Cancer Res 2010;16(7 Suppl):B33