ABSTRACT
BACKGROUND: Transformer (Tra) 2ß is a member of the serine/arginine-rich (SR)-like protein family that regulates alternative splicing of numerous genes in a concentration-dependent manner. Several types of cancer cells up-regulate Tra2ß expression, while the regulatory mechanism of Tra2ß expression remains to be elucidated. In this study, we examined the transcriptional regulation and possible functions of Tra2ß in human colon cancer cells. METHODS: We cloned 959 bp-upstream of the human TRA2ß 5'-flank into luciferase constructs. Chromatin immunoprecipitation (ChIP) was employed to identify crucial cis element(s) and trans activator(s) of the TRA2ß promoter. Tra2ß expression in the human colon and colon cancer tissues was examined by immunohistochemistry. RESULTS: In response to sodium arsenite, colon cancer cells (HCT116) increased levels of TRA2ß1 mRNA encoding a functional, full-length Tra2ß with a peak around 6 h without changing its mRNA stability. Transient expression assays using a reporter gene driven by serially truncated TRA2ß promoters and Chip assay demonstrated that an Ets1-binding site present at -64 to -55 bp was crucial for basal transcription, while three heat shock elements (HSEs) located at -145 to -99 bp mediated the oxidant-induced transactivation of TRA2ß. Tra2ß knockdown caused apoptosis of HCT116 cells. Tra2ß were preferentially expressed in proliferative compartment of normal human colonic glands and adenocarcinomas, where Ets1 and heat shock factor 1 were also highly expressed. CONCLUSIONS: Our results suggest that oxidative stress-responsive Tra2ß may play an important role in colon cancer growth.